https://www.hep.ucl.ac.uk/pbt/pbtWiki/api.php?action=feedcontributions&feedformat=atom&user=Febian 2026-04-10T03:38:53Z User contributions MediaWiki 1.41.0 https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6162 2026-04-08T13:18:06Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 08/04/26<br /> <br /> <br /> 1. Kria KR260 board:<br /> *Interfaced Hamamatsu S18725 PD with PMOD connector<br /> <br /> 2. Custom carrier board Kria K26 SOM:<br /> *Interfaced PS side as the old rasp pi<br /> *Testing USBC input and output<br /> *Testing PS-PL connection<br /> *Migrating DAQ to the new carrier board<br /> <br /> 3. Fast Fitting Python:<br /> *Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> *Try lots of different energies<br /> *Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Jan - March 2025)'''<br /> *Followup on the Kria KV/KR260 playground<br /> **Program PL side of KV260 to read and write to BRAM<br /> **Establish communication on PS-PL KV260 using BRAM<br /> <br /> *Obtained custom carrier board Kria K26 SOM<br /> **establish communication as per Andy Rose (Imperial) guidance<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6151 2026-04-08T12:49:25Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1. Kria KR260 board:<br /> *Interfaced Hamamatsu S18725 PD with PMOD connector<br /> <br /> 2. Custom carrier board Kria K26 SOM:<br /> *Interfaced PS side as the old rasp pi<br /> *Testing USBC input and output<br /> *Testing PS-PL connection<br /> *Migrating DAQ to the new carrier board<br /> <br /> 3. Fast Fitting Python:<br /> *Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> *Try lots of different energies<br /> *Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Jan - March 2025)'''<br /> *Followup on the Kria KV/KR260 playground<br /> **Program PL side of KV260 to read and write to BRAM<br /> **Establish communication on PS-PL KV260 using BRAM<br /> <br /> *Obtained custom carrier board Kria K26 SOM<br /> **establish communication as per Andy Rose (Imperial) guidance<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6149 2026-04-08T12:49:14Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria KR260 board:<br /> *Interfaced Hamamatsu S18725 PD with PMOD connector<br /> <br /> 2.Custom carrier board Kria K26 SOM:<br /> *Interfaced PS side as the old rasp pi<br /> *Testing USBC input and output<br /> *Testing PS-PL connection<br /> *Migrating DAQ to the new carrier board<br /> <br /> 2.Fast Fitting Python:<br /> *Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> *Try lots of different energies<br /> *Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Jan - March 2025)'''<br /> *Followup on the Kria KV/KR260 playground<br /> **Program PL side of KV260 to read and write to BRAM<br /> **Establish communication on PS-PL KV260 using BRAM<br /> <br /> *Obtained custom carrier board Kria K26 SOM<br /> **establish communication as per Andy Rose (Imperial) guidance<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6148 2026-04-08T12:49:07Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria KR260 board:<br /> *Interfaced Hamamatsu S18725 PD with PMOD connector<br /> <br /> 2.Custom carrier board Kria K26 SOM:<br /> *Interfaced PS side as the old rasp pi<br /> *Testing USBC input and output<br /> *Testing PS-PL connection<br /> *Migrating DAQ to the new carrier board<br /> <br /> <br /> <br /> 2.Fast Fitting Python:<br /> *Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> *Try lots of different energies<br /> *Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Jan - March 2025)'''<br /> *Followup on the Kria KV/KR260 playground<br /> **Program PL side of KV260 to read and write to BRAM<br /> **Establish communication on PS-PL KV260 using BRAM<br /> <br /> *Obtained custom carrier board Kria K26 SOM<br /> **establish communication as per Andy Rose (Imperial) guidance<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6142 2026-04-08T12:45:44Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria<br /> *PS side installation<br /> *PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> **on PL side: Interfaced Hamamatsu S18725 PD with PMOD connector<br /> **Then check how to read and store data in PS from PL and vice versa.<br /> <br /> 2.Fast Fitting<br /> *Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> *Try lots of different energies<br /> *Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Jan - March 2025)'''<br /> *Followup on the Kria KV/KR260 playground<br /> **Program PL side of KV260 to read and write to BRAM<br /> **Establish communication on PS-PL KV260 using BRAM<br /> <br /> *Obtained custom carrier board Kria K26 SOM<br /> **establish communication as per Andy Rose (Imperial) guidance<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6133 2025-11-27T23:32:25Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria<br /> *PS side installation<br /> *PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> **on PL side: Interfaced Hamamatsu S18725 PD with PMOD connector<br /> **Then check how to read and store data in PS from PL and vice versa.<br /> <br /> 2.Fast Fitting<br /> *Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> *Try lots of different energies<br /> *Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6132 2025-11-27T23:32:03Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria<br /> **PS side installation<br /> **PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> ***on PL side: Interfaced Hamamatsu S18725 PD with PMOD connector<br /> ***Then check how to read and store data in PS from PL and vice versa.<br /> <br /> 2.Fast Fitting<br /> **Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> **Try lots of different energies<br /> **Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6109 2025-11-13T15:51:40Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria<br /> **PS side installation<br /> **PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> ***on PL side: Old revB board + Firmware<br /> ***Then check how to read and store data in PS from PL and vice versa.<br /> ***Email Karlsruhe Institute of Technology (KIT) - they use KRIA as well for CMS <br /> 2.Fast Fitting<br /> **Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> **Try lots of different energies<br /> **Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6108 2025-11-13T15:50:54Z

<p>Febian: /* Dates and Progress */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria<br /> **PS side installation<br /> **PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> ***on PL side: Old revB board + Firmware<br /> ***Then check how to read and store data in PS from PL and vice versa.<br /> ***Email Karlsruhe Institute of Technology (KIT) - they use KRIA as well for CMS <br /> 2.Fast Fitting<br /> **Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> **Try lots of different energies<br /> **Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug 2025 || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6107 2025-11-13T15:44:20Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria<br /> **PS side installation<br /> **PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> ***on PL side: Old revB board + Firmware<br /> ***Then check how to read and store data in PS from PL and vice versa.<br /> ***Email Karlsruhe Institute of Technology (KIT) - they use KRIA as well for CMS <br /> 2.Fast Fitting<br /> **Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> **Try lots of different energies<br /> **Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct - Dec 2025)'''<br /> *Kria KV/KR260 playground<br /> **Image the KV/KR260 with Ubuntu 22.04<br /> **Run DAQ from Kria Terminal by using Host PC SSH to the Kria<br /> **Run GUI DAQ from Kria upon successfully installing Apache2<br /> <br /> *Statistical Fit<br /> **Exploring different pdf to fit a Bragg Curve from MC simulation pristine bragg peak<br /> **Running Geant4 Topas simulation for both pristine bragg curve and scintillator sheet<br /> <br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6106 2025-11-13T15:39:49Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 13/11/25<br /> <br /> <br /> 1.Kria<br /> **PS side installation<br /> **PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> ***on PL side: Old revB board + Firmware<br /> ***Then check how to read and store data in PS from PL and vice versa.<br /> ***Email Karlsruhe Institute of Technology (KIT) - they use KRIA as well for CMS <br /> 2.Fast Fitting<br /> **Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> **Try lots of different energies<br /> **Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6105 2025-11-13T15:39:37Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 29/07/25<br /> <br /> <br /> 1.Kria<br /> **PS side installation<br /> **PL side: experiment with adding Firmware to KRIA, PMOD connector<br /> ***on PL side: Old revB board + Firmware<br /> ***Then check how to read and store data in PS from PL and vice versa.<br /> ***Email Karlsruhe Institute of Technology (KIT) - they use KRIA as well for CMS <br /> 2.Fast Fitting<br /> **Get familiar with geant4 simulation: 100µm sheet scintillator sheet. generated dose-light output<br /> **Try lots of different energies<br /> **Iterate with wider sheet<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6085 2025-10-08T01:04:35Z

<p>Febian: /* Dates and Progress */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 29/07/25<br /> <br /> *Setting up starter module KV260<br /> **Setup Alma Linux (preferably) or Debian<br /> **Check on PS/PL routing<br /> **Implement simple application on the FPGA<br /> *Check with Sonia, transferring raspberry pi to Kria <br /> **can you install php, js.<br /> **run processing in Kria. <br /> *Exploring fitting Bragg Curve with statistical approach (Gaussian distribution)<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |-<br /> |10 - 14 Jan 2025 || PhD Transfer Talk and mini Viva<br /> |-<br /> |17 Feb - 29 Aug 2025 || Placement with Peak AI <br /> |-<br /> |24 Feb 2025 || HITRIPlus Seminar Normandy Update<br /> |-<br /> |24 May 2025 || UCLH Beam Test<br /> |-<br /> |15 - 18 Jul 2025 || RAL FPGA Workshop<br /> |-<br /> |11 - 26 Aug || Away on Vacation in Indonesia<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6084 2025-10-08T00:55:58Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 29/07/25<br /> <br /> *Setting up starter module KV260<br /> **Setup Alma Linux (preferably) or Debian<br /> **Check on PS/PL routing<br /> **Implement simple application on the FPGA<br /> *Check with Sonia, transferring raspberry pi to Kria <br /> **can you install php, js.<br /> **run processing in Kria. <br /> *Exploring fitting Bragg Curve with statistical approach (Gaussian distribution)<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> *RAL FPGA Workshop<br /> **Vivado Workshop<br /> **FPGA Basic<br /> **RTL design and practical examples<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6083 2025-10-08T00:54:51Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 29/07/25<br /> <br /> *Setting up starter module KV260<br /> **Setup Alma Linux (preferably) or Debian<br /> **Check on PS/PL routing<br /> **Implement simple application on the FPGA<br /> *Check with Sonia, transferring raspberry pi to Kria <br /> **can you install php, js.<br /> **run processing in Kria. <br /> *Exploring fitting Bragg Curve with statistical approach (Gaussian distribution)<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Sep 2025)'''<br /> *Developing a USBC Power Distribution board<br /> **Making a PCB for the designed USBC PD board<br /> **Populating and soldering the board<br /> **Fixing and altering the board<br /> **Testing the board<br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=6082 2025-10-08T00:52:51Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 29/07/25<br /> <br /> *Setting up starter module KV260<br /> **Setup Alma Linux (preferably) or Debian<br /> **Check on PS/PL routing<br /> **Implement simple application on the FPGA<br /> *Check with Sonia, transferring raspberry pi to Kria <br /> **can you install php, js.<br /> **run processing in Kria. <br /> *Exploring fitting Bragg Curve with statistical approach (Gaussian distribution)<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> <br /> <br /> '''(Feb 2025 - Aug 2025)'''<br /> *Placement with Peak AI<br /> **Early exploration of an agentic inventory agent for simulation result summarization<br /> **Creating an MVP evaluation framework using various LLM personas. <br /> **Investigating lazy loading and distributed processing techniques to enhance ML training performance in demand forecasting.<br /> **Making use of good practice in collaborative workspace: Github, Stand-ups.<br /> <br /> '''(Dec 2024 - Jan 2025)'''<br /> *Research more in depth<br /> **Calibration process and fitting process<br /> **Currently available QA Machine<br /> **Nexys Video FPGA code<br /> <br /> *Development of ZMOD Board for USB104 <br /> **Understanding the schematic diagram<br /> **Testing its functionality with Matt<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5923 2025-07-29T13:22:15Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 29/07/25<br /> <br /> *Setting up starter module KV260<br /> **Setup Alma Linux (preferably) or Debian<br /> **Check on PS/PL routing<br /> **Implement simple application on the FPGA<br /> *Check with Sonia, transferring raspberry pi to Kria <br /> **can you install php, js.<br /> **run processing in Kria. <br /> *Exploring fitting Bragg Curve with statistical approach (Gaussian distribution)<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Photodiode_Interface_Boards&diff=5700 2024-12-11T17:30:46Z

<p>Febian: /* USB-C Cable Tests */</p> <hr /> <div>See the [[Proton_Calorimetry/Equipment/ZyboZ7_DDC232|Nexys Video and DDC232]] page for information on the DDC232 chip.<br /> <br /> [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/ddc232_datasheet.pdf DDC232 Datasheet].<br /> <br /> == Photodiode Interface Boards ==<br /> <br /> Several revisions of the DDC232-based interface board have been designed.<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ Oxford Rev.D USB104 ZMOD] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ZMOD_to_USB-C%202024-03-21.pdf Circuit diagrams for Oxford Rev.D ZMOD board v1]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/Gerber_2024-03-22.zip ZMOD board Gerber files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ZMOD_USBC_BoardAndModels%202024-03-21.stp ZMOD board STEP files]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/ Rev.D] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Interface_Board_Report.pdf Circuit diagram, board layout and schematics for revision D]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Power_Board_PCB_Layout.pdf Power supply board PCB layout]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Daughter_Board_Schematics.pdf FPGA FMC interface daughterboard schematics]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_DesignFiles/ Revision D circuit board design files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Power_AddOn_DesignFiles/ Power supply board design files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_USBC2_Signals.png USB-C connection signals]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Molex_J2_Signals.png Molex connection signals]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Adapter_Pins.png Adapter pin location]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_ConnectionPoints.png Board test/connection points]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/ Rev.C] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/Block_diagram_version_C.png Signal block diagram]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_Report.PDF Version 1 circuit diagram and board layout for revision C]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC.PDF Version 1 circuit diagram, board layout and schematics for revision C]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC2.pdf Version 2 circuit diagram, board layout and schematics for revision C (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC.step Revision C CAD STEP file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_BOM_revC.xlsx Revision C bill of material (Excel)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_FMC_adapter_a_sch.pdf Version 1 FPGA FMC interface daughterboard schematics]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter_a_pcb.pdf Version 1 FPGA FMC interface daughterboard PCB layout]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_FMC_adapter_a_sch_v2.pdf Version 2 FPGA FMC interface daughterboard schematics (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter_a_pcb_2.pdf Version 2 FPGA FMC interface daughterboard PCB layout (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/FMC_ADAPTER_A_BOM.xlsx FPGA FMC interface daughterboard bill of materials]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter.opj FPGA FMC interface daughterboard PCB Designer OPJ file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/FMC_ADAPTER.DSN FPGA FMC interface daughterboard PCB Designer DSN file]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/ Rev.B] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/DDC_interface_Schematic_revB.pdf Board schematics and layout for revision B]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/DDC232_interface_board_revB.step Revision B CAD STEP file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/Board%20revision%20B.png Revision B image]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/QuARC_RevB_Dims_LXSide.jpg Board photo of electronics side with dimensions]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/QuARC_RevB_Dims_ScintSide.jpg Board photo of photodiode side with dimensions]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/ Rev.A] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC_interface_Schematic_3D_v1.pdf Board schematics version 1 with circuit diagram]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC232_interface_board_v2.pdf Board schematics version 2 with circuit board layouts (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC_interface_Schematic_3D_v2.pdf Board circuit diagram version 2]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/Board_Connection.PNG Board connections]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/IMG_6692.JPG Photo of two boards connected together]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J1.PNG Jumper connector 1]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J2.PNG Jumper connector 2]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J3.PNG Jumper connector 3]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/PinInserts.png Pin inserts]<br /> <br /> == USB-C Cable Tests ==<br /> <br /> Pin-to-pin connections for various USB-C cables<br /> <br /> ===Testing Methodology ===<br /> <br /> # Using Voltmeter, Red cable connected to VΩ (the very right hand side), Black cable connected to the fused 400mA.<br /> # Red cable connected to pin A1 and black cable iterate through pins A1-A12 to B12-B1<br /> # Repeat the process until Red cable reach B1 following A1-A12 to B12-B1<br /> <br /> === Summary Table ===<br /> <br /> Lists connector B pin connections<br /> <br /> Notes: There are 3 types of USB-C Cable presented on the table colour coded by Magenta, Orange, and Cyan Colour<br /> <br /> In the pin connection: <br /> # &lt;span style=&quot; color: cyan&quot;&gt; Cyan Colour &lt;/span&gt; represents Ground connected to Both CC1 (A5) and CC2 (B5) pins<br /> # &lt;span style = &quot;color: Magenta&quot;&gt; Magenta Colour &lt;/Span&gt; represents Ground connected to either 1 CC pin. <br /> <br /> {| class=&quot;wikitable&quot;<br /> ! Cable Make !! Connector A Pins !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || Connection Type || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | style=&quot;background:cyan;&quot; | Fasgear || USBC 3.2 Short || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:cyan;&quot; | Qualtek Mousser || Medium Length, Long Smooth port, no writings on the cable, 3027009 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | 'Working USB-C' || Medium Length, Dotted, Freeport LY || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:magenta;&quot; | A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Super High Speed || Rev 3.1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | Wuerth Elektronik || USB 3.1 Gen 2, Dotted || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | MultiComp Pro || Short Length, Marko Recommended || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Cable Creation || USB 3.1 Gen 2, Short Cable || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:Magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | MultiComp Pro || Long Length, Marko Recommended || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:cyan;&quot; | Kondor Blue || USBC Short length || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | Baolongking USB-C || Short Length, 10GBPS, Rubber Ribbon || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Veetone || USBC 3.2 Short Stripy Rubber || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || style=&quot;background:yellow;&quot; | A9, B4 || style=&quot;background:magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || style=&quot;background:yellow;&quot; | A4, B9 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || style=&quot;background:yellow;&quot; | A9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:yellow;&quot; | A4, B9 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |}<br /> <br /> === Werth (Dotted, from Cosylab) ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 0 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | 2k || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === Adafruit ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 13M || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === Fasgear Short USBC 3.2 ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 520k || OC || OC || OC || style=&quot;background:yellow;&quot; | 520k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 520k || style=&quot;background:red;&quot; | 520k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || style=&quot;background:red;&quot; | 520k<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || 1.5<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.04k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.04k || style=&quot;background:red;&quot; | 1.04k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 347k || OC || OC || OC || style=&quot;background:red;&quot; | 1.04k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5<br /> |}<br /> <br /> === Qualtek Mousser 0.5m (Medium Length USB-C Cable, Long Smooth Port) ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:yellow;&quot; | 1.1M || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 2.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 270k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9<br /> |}<br /> <br /> === Current Working Cable (Smooth Port, Dotted)===<br /> {| class=&quot;wikitable&quot;<br /> ! !! 1 dot !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | 2dot || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.23k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.6 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 3.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.3 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.4 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.05k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.3k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.05k || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 12M || OC || OC || OC || style=&quot;background:red;&quot; | 1.05k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.7 || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6<br /> |}<br /> <br /> === Super High Speed USB Rev 3.1 ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A1OC !! A11 !! A12 !! B12 !! B11 !! B1OC !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 411k || OC || OC || OC || style=&quot;background:lime;&quot; | 1<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.8 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC<br /> |-<br /> | A1OC || RX2- || OC || OC || style=&quot;background:lime;&quot; | 3.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.3 || OC<br /> |-<br /> | B1OC || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.5 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 7.9 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 409k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 4.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7 || style=&quot;background:lime;&quot; | 4.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7<br /> |}<br /> <br /> === Wuerth Elektronik 225 USB 3.1 Gen 2 (dotted) ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! 2 dot !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | 1 dot || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === MultiComp Pro - Short Cable, Marko Recommended ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Cable Creation USB C Cable - USBC 3.1 Gen 2 Short Cable ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 868k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |}<br /> <br /> === MultiComp Pro - Long Cable, Marko Recommended ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Kondor Blue USBC ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 14M || OC || OC || OC || style=&quot;background:yellow;&quot; | 14M || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 14M || style=&quot;background:red;&quot; | 14M || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3 || OC || OC || OC || style=&quot;background:red;&quot; | 14M<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.12k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 7.67M || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Baolongking USBC 10GBPS Short Rubber Ribbon ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Veetone USBC 3.2 - Short Length, stripy rubber ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.12k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 8.94M || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Source Spreadsheet ===<br /> [https://liveuclac-my.sharepoint.com/:x:/r/personal/ucapsj1_ucl_ac_uk/Documents/ProtonTherapy/Cosylab/QuARC%20FrontEnd/USB-C%20Cable%20Pin%20Tests.xlsx?d=w0f253e1921cf4707bab215c281391df7&amp;csf=1&amp;web=1&amp;e=gxboE9 Excel spreadsheet with signal tests for various USB-C cables to check pin configurations].</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Photodiode_Interface_Boards&diff=5699 2024-12-11T17:20:44Z

<p>Febian: /* USB-C Cable Tests */</p> <hr /> <div>See the [[Proton_Calorimetry/Equipment/ZyboZ7_DDC232|Nexys Video and DDC232]] page for information on the DDC232 chip.<br /> <br /> [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/ddc232_datasheet.pdf DDC232 Datasheet].<br /> <br /> == Photodiode Interface Boards ==<br /> <br /> Several revisions of the DDC232-based interface board have been designed.<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ Oxford Rev.D USB104 ZMOD] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ZMOD_to_USB-C%202024-03-21.pdf Circuit diagrams for Oxford Rev.D ZMOD board v1]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/Gerber_2024-03-22.zip ZMOD board Gerber files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ZMOD_USBC_BoardAndModels%202024-03-21.stp ZMOD board STEP files]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/ Rev.D] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Interface_Board_Report.pdf Circuit diagram, board layout and schematics for revision D]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Power_Board_PCB_Layout.pdf Power supply board PCB layout]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Daughter_Board_Schematics.pdf FPGA FMC interface daughterboard schematics]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_DesignFiles/ Revision D circuit board design files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Power_AddOn_DesignFiles/ Power supply board design files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_USBC2_Signals.png USB-C connection signals]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Molex_J2_Signals.png Molex connection signals]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Adapter_Pins.png Adapter pin location]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_ConnectionPoints.png Board test/connection points]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/ Rev.C] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/Block_diagram_version_C.png Signal block diagram]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_Report.PDF Version 1 circuit diagram and board layout for revision C]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC.PDF Version 1 circuit diagram, board layout and schematics for revision C]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC2.pdf Version 2 circuit diagram, board layout and schematics for revision C (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC.step Revision C CAD STEP file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_BOM_revC.xlsx Revision C bill of material (Excel)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_FMC_adapter_a_sch.pdf Version 1 FPGA FMC interface daughterboard schematics]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter_a_pcb.pdf Version 1 FPGA FMC interface daughterboard PCB layout]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_FMC_adapter_a_sch_v2.pdf Version 2 FPGA FMC interface daughterboard schematics (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter_a_pcb_2.pdf Version 2 FPGA FMC interface daughterboard PCB layout (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/FMC_ADAPTER_A_BOM.xlsx FPGA FMC interface daughterboard bill of materials]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter.opj FPGA FMC interface daughterboard PCB Designer OPJ file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/FMC_ADAPTER.DSN FPGA FMC interface daughterboard PCB Designer DSN file]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/ Rev.B] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/DDC_interface_Schematic_revB.pdf Board schematics and layout for revision B]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/DDC232_interface_board_revB.step Revision B CAD STEP file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/Board%20revision%20B.png Revision B image]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/QuARC_RevB_Dims_LXSide.jpg Board photo of electronics side with dimensions]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/QuARC_RevB_Dims_ScintSide.jpg Board photo of photodiode side with dimensions]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/ Rev.A] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC_interface_Schematic_3D_v1.pdf Board schematics version 1 with circuit diagram]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC232_interface_board_v2.pdf Board schematics version 2 with circuit board layouts (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC_interface_Schematic_3D_v2.pdf Board circuit diagram version 2]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/Board_Connection.PNG Board connections]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/IMG_6692.JPG Photo of two boards connected together]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J1.PNG Jumper connector 1]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J2.PNG Jumper connector 2]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J3.PNG Jumper connector 3]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/PinInserts.png Pin inserts]<br /> <br /> == USB-C Cable Tests ==<br /> <br /> Pin-to-pin connections for various USB-C cables<br /> <br /> ===Testing Methodology ===<br /> <br /> # Using Voltmeter, Red cable connected to VΩ (the very right hand side), Black cable connected to the fused 400mA.<br /> # Red cable connected to pin A1 and black cable iterate through pins A1-A12 to B12-B1<br /> # Repeat the process until Red cable reach B1 following A1-A12 to B12-B1<br /> <br /> === Summary Table ===<br /> <br /> Lists connector B pin connections<br /> <br /> Notes: There are 3 types of USB-C Cable presented on the table colour coded by Magenta, Orange, and Cyan Colour<br /> <br /> In the pin connection: <br /> # &lt;span style=&quot; color: cyan&quot;&gt; Cyan Colour &lt;/span&gt; represents Ground connected to Both CC1 (A5) and CC2 (B5) pins<br /> # &lt;span style = &quot;color: Magenta&quot;&gt; Magenta Colour &lt;/Span&gt; represents Ground connected to either 1 CC pin. <br /> <br /> {| class=&quot;wikitable&quot;<br /> ! Cable Make !! Connector A Pins !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || Connection Type || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | style=&quot;background:cyan;&quot; | Fasgear || USBC 3.2 Short || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:cyan;&quot; | Qualtek Mousser || Medium Length, Long Smooth port, no writings on the cable || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | 'Working USB-C' || Medium Length, Dotted, Freeport LY || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:magenta;&quot; | A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Super High Speed || Rev 3.1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | Wuerth Elektronik || USB 3.1 Gen 2, Dotted || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | MultiComp Pro || Short Length, Marko Recommended || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Cable Creation || USB 3.1 Gen 2, Short Cable || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:Magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | MultiComp Pro || Long Length, Marko Recommended || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:cyan;&quot; | Kondor Blue || USBC Short length || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | Baolongking USB-C || Short Length, 10GBPS, Rubber Ribbon || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Veetone || USBC 3.2 Short Stripy Rubber || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || style=&quot;background:yellow;&quot; | A9, B4 || style=&quot;background:magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || style=&quot;background:yellow;&quot; | A4, B9 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || style=&quot;background:yellow;&quot; | A9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:yellow;&quot; | A4, B9 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |}<br /> <br /> === Werth (Dotted, from Cosylab) ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 0 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | 2k || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === Adafruit ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 13M || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === Fasgear Short USBC 3.2 ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 520k || OC || OC || OC || style=&quot;background:yellow;&quot; | 520k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 520k || style=&quot;background:red;&quot; | 520k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || style=&quot;background:red;&quot; | 520k<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || 1.5<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.04k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.04k || style=&quot;background:red;&quot; | 1.04k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 347k || OC || OC || OC || style=&quot;background:red;&quot; | 1.04k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5<br /> |}<br /> <br /> === Qualtek Mousser 0.5m (Medium Length USB-C Cable, Long Smooth Port) ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:yellow;&quot; | 1.1M || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 2.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 270k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9<br /> |}<br /> <br /> === Current Working Cable (Smooth Port, Dotted)===<br /> {| class=&quot;wikitable&quot;<br /> ! !! 1 dot !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | 2dot || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.23k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.6 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 3.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.3 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.4 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.05k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.3k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.05k || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 12M || OC || OC || OC || style=&quot;background:red;&quot; | 1.05k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.7 || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6<br /> |}<br /> <br /> === Super High Speed USB Rev 3.1 ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A1OC !! A11 !! A12 !! B12 !! B11 !! B1OC !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 411k || OC || OC || OC || style=&quot;background:lime;&quot; | 1<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.8 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC<br /> |-<br /> | A1OC || RX2- || OC || OC || style=&quot;background:lime;&quot; | 3.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.3 || OC<br /> |-<br /> | B1OC || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.5 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 7.9 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 409k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 4.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7 || style=&quot;background:lime;&quot; | 4.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7<br /> |}<br /> <br /> === Wuerth Elektronik 225 USB 3.1 Gen 2 (dotted) ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! 2 dot !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | 1 dot || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === MultiComp Pro - Short Cable, Marko Recommended ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Cable Creation USB C Cable - USBC 3.1 Gen 2 Short Cable ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 868k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |}<br /> <br /> === MultiComp Pro - Long Cable, Marko Recommended ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Kondor Blue USBC ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 14M || OC || OC || OC || style=&quot;background:yellow;&quot; | 14M || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 14M || style=&quot;background:red;&quot; | 14M || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3 || OC || OC || OC || style=&quot;background:red;&quot; | 14M<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.12k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 7.67M || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Baolongking USBC 10GBPS Short Rubber Ribbon ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Veetone USBC 3.2 - Short Length, stripy rubber ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.12k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 8.94M || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Source Spreadsheet ===<br /> [https://liveuclac-my.sharepoint.com/:x:/r/personal/ucapsj1_ucl_ac_uk/Documents/ProtonTherapy/Cosylab/QuARC%20FrontEnd/USB-C%20Cable%20Pin%20Tests.xlsx?d=w0f253e1921cf4707bab215c281391df7&amp;csf=1&amp;web=1&amp;e=gxboE9 Excel spreadsheet with signal tests for various USB-C cables to check pin configurations].</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Photodiode_Interface_Boards&diff=5698 2024-12-11T17:18:27Z

<p>Febian: /* USB-C Cable Tests */</p> <hr /> <div>See the [[Proton_Calorimetry/Equipment/ZyboZ7_DDC232|Nexys Video and DDC232]] page for information on the DDC232 chip.<br /> <br /> [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/ddc232_datasheet.pdf DDC232 Datasheet].<br /> <br /> == Photodiode Interface Boards ==<br /> <br /> Several revisions of the DDC232-based interface board have been designed.<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ Oxford Rev.D USB104 ZMOD] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ZMOD_to_USB-C%202024-03-21.pdf Circuit diagrams for Oxford Rev.D ZMOD board v1]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/Gerber_2024-03-22.zip ZMOD board Gerber files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Oxford/ZMOD%20to%20USB-C%20v1/ZMOD_USBC_BoardAndModels%202024-03-21.stp ZMOD board STEP files]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/ Rev.D] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Interface_Board_Report.pdf Circuit diagram, board layout and schematics for revision D]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Power_Board_PCB_Layout.pdf Power supply board PCB layout]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Daughter_Board_Schematics.pdf FPGA FMC interface daughterboard schematics]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_DesignFiles/ Revision D circuit board design files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Power_AddOn_DesignFiles/ Power supply board design files]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_USBC2_Signals.png USB-C connection signals]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Molex_J2_Signals.png Molex connection signals]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_Adapter_Pins.png Adapter pin location]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.D/DDC232_RevD_ConnectionPoints.png Board test/connection points]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/ Rev.C] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/Block_diagram_version_C.png Signal block diagram]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_Report.PDF Version 1 circuit diagram and board layout for revision C]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC.PDF Version 1 circuit diagram, board layout and schematics for revision C]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC2.pdf Version 2 circuit diagram, board layout and schematics for revision C (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_revC.step Revision C CAD STEP file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_interface_board_BOM_revC.xlsx Revision C bill of material (Excel)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_FMC_adapter_a_sch.pdf Version 1 FPGA FMC interface daughterboard schematics]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter_a_pcb.pdf Version 1 FPGA FMC interface daughterboard PCB layout]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/DDC232_FMC_adapter_a_sch_v2.pdf Version 2 FPGA FMC interface daughterboard schematics (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter_a_pcb_2.pdf Version 2 FPGA FMC interface daughterboard PCB layout (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/FMC_ADAPTER_A_BOM.xlsx FPGA FMC interface daughterboard bill of materials]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/fmc_adapter.opj FPGA FMC interface daughterboard PCB Designer OPJ file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.C/FMC_ADAPTER.DSN FPGA FMC interface daughterboard PCB Designer DSN file]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/ Rev.B] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/DDC_interface_Schematic_revB.pdf Board schematics and layout for revision B]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/DDC232_interface_board_revB.step Revision B CAD STEP file]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/Board%20revision%20B.png Revision B image]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/QuARC_RevB_Dims_LXSide.jpg Board photo of electronics side with dimensions]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.B/QuARC_RevB_Dims_ScintSide.jpg Board photo of photodiode side with dimensions]<br /> <br /> === [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/ Rev.A] ===<br /> <br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC_interface_Schematic_3D_v1.pdf Board schematics version 1 with circuit diagram]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC232_interface_board_v2.pdf Board schematics version 2 with circuit board layouts (production)]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/DDC_interface_Schematic_3D_v2.pdf Board circuit diagram version 2]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/Board_Connection.PNG Board connections]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/IMG_6692.JPG Photo of two boards connected together]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J1.PNG Jumper connector 1]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J2.PNG Jumper connector 2]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/J3.PNG Jumper connector 3]<br /> * [https://www.hep.ucl.ac.uk/pbt/wikiData/electronics/Rev.A/PinInserts.png Pin inserts]<br /> <br /> == USB-C Cable Tests ==<br /> <br /> Pin-to-pin connections for various USB-C cables<br /> <br /> ===Testing Methodology ===<br /> <br /> # Using Voltmeter, Red cable connected to VΩ (the very right hand side), Black cable connected to the fused 400mA.<br /> # Red cable connected to pin A1 and black cable iterate through pins A1-A12 to B12-B1<br /> # Repeat the process until Red cable reach B1 following A1-A12 to B12-B1<br /> <br /> === Summary Table ===<br /> <br /> Lists connector B pin connections<br /> <br /> Notes: There are 3 types of USB-C Cable presented on the table colour coded by Magenta, Orange, and Cyan Colour<br /> <br /> In the pin connection: <br /> # &lt;span style=&quot; color: cyan&quot;&gt; Cyan Colour &lt;/span&gt; represents Ground connected to Both CC1 (A5) and CC2 (B5) pins<br /> # &lt;span style = &quot;color: Magenta&quot;&gt; Magenta Colour &lt;/Span&gt; represents Ground connected to either 1 CC pin. <br /> <br /> {| class=&quot;wikitable&quot;<br /> ! Cable Make !! Connector A Pins !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || Connection Type || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | style=&quot;background:cyan;&quot; | Fasgear || USBC 3.2 Short || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:cyan;&quot; | Qualtek Mousser || Medium Length, Long Smooth port || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | 'Working USB-C' || Medium Length, Dotted, Freeport LY || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:magenta;&quot; | A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Super High Speed || Rev 3.1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | Wuerth Elektronik || USB 3.1 Gen 2, Dotted || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | MultiComp Pro || Short Length, Marko Recommended || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Cable Creation || USB 3.1 Gen 2, Short Cable || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:Magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | MultiComp Pro || Long Length, Marko Recommended || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:cyan;&quot; | Kondor Blue || USBC Short length || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || A4, A9, B9, B4 || B10 || B11 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1<br /> |-<br /> | style=&quot;background:orange;&quot; | Baolongking USB-C || Short Length, 10GBPS, Rubber Ribbon || A1, A12, B12, B1 || A11 || A10 || A4, A9, B9, B4 || style=&quot;background:red;&quot; |NC || NC || NC || A8 || A4, A9, B9, B4 || A3 || A2 || A1, A12, B12, B1 || A1, A12, B12, B1 || B2 || B3 || A4, A9, B9, B4 || B8 || A7 || A6 || style=&quot;background:red;&quot; |A5 || A4, A9, B9, B4 || B10 || B11 || A1, A12, B12, B1<br /> |-<br /> | style=&quot;background:Magenta;&quot; | Veetone || USBC 3.2 Short Stripy Rubber || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || A11 || A10 || style=&quot;background:yellow;&quot; | A9, B4 || style=&quot;background:magenta;&quot; |A1, A12, B12, B5, B1 || NC || NC || A8 || style=&quot;background:yellow;&quot; | A4, B9 || A3 || A2 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1 || B2 || B3 || style=&quot;background:yellow;&quot; | A9, B4 || B8 || A7 || A6 || style=&quot;background:cyan;&quot; | A1, A5, A12, B12, B5, B1 || style=&quot;background:yellow;&quot; | A4, B9 || B10 || B11 || style=&quot;background:Magenta;&quot; | A1, A12, B12, B5, B1<br /> |}<br /> <br /> === Werth (Dotted, from Cosylab) ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 0 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | 2k || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === Adafruit ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 13M || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === Fasgear Short USBC 3.2 ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 520k || OC || OC || OC || style=&quot;background:yellow;&quot; | 520k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 520k || style=&quot;background:red;&quot; | 520k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || style=&quot;background:red;&quot; | 520k<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || 1.5<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.04k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.04k || style=&quot;background:red;&quot; | 1.04k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 347k || OC || OC || OC || style=&quot;background:red;&quot; | 1.04k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 347k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5<br /> |}<br /> <br /> === Qualtek Mousser 0.5m (Medium Length USB-C Cable, Long Smooth Port) ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:yellow;&quot; | 1.1M || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 2.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 2.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 270k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 270k || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9<br /> |}<br /> <br /> === Current Working Cable (Smooth Port, Dotted)===<br /> {| class=&quot;wikitable&quot;<br /> ! !! 1 dot !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | 2dot || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.23k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.4 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.6 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 3.8 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.3 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.4 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.3 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.05k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.3k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.05k || style=&quot;background:red;&quot; | 1.07k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 12M || OC || OC || OC || style=&quot;background:red;&quot; | 1.05k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.25k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.7 || style=&quot;background:lime;&quot; | 1.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 12M || OC || OC || OC || style=&quot;background:lime;&quot; | 1.6<br /> |}<br /> <br /> === Super High Speed USB Rev 3.1 ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A1OC !! A11 !! A12 !! B12 !! B11 !! B1OC !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 411k || OC || OC || OC || style=&quot;background:lime;&quot; | 1<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.8 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.6 || OC || OC || OC<br /> |-<br /> | A1OC || RX2- || OC || OC || style=&quot;background:lime;&quot; | 3.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || style=&quot;background:red;&quot; | 1.1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1 || style=&quot;background:lime;&quot; | 3.1 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 3.1<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.3 || OC<br /> |-<br /> | B1OC || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.5 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.3 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 7.9 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 409k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3.9 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 4.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.2k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7 || style=&quot;background:lime;&quot; | 4.9 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 410k || OC || OC || OC || style=&quot;background:lime;&quot; | 4.7<br /> |}<br /> <br /> === Wuerth Elektronik 225 USB 3.1 Gen 2 (dotted) ===<br /> {| class=&quot;wikitable&quot;<br /> ! !! 2 dot !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | 1 dot || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 2 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0 || style=&quot;background:lime;&quot; | 0 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0<br /> |}<br /> <br /> === MultiComp Pro - Short Cable, Marko Recommended ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Cable Creation USB C Cable - USBC 3.1 Gen 2 Short Cable ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.2 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1.4 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1k || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 868k || OC || OC || OC || style=&quot;background:red;&quot; | 1k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 1 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || style=&quot;background:red;&quot; | 1k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 868k || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6<br /> |}<br /> <br /> === MultiComp Pro - Long Cable, Marko Recommended ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Kondor Blue USBC ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || style=&quot;background:red;&quot; | 14M || OC || OC || OC || style=&quot;background:yellow;&quot; | 14M || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 14M || style=&quot;background:red;&quot; | 14M || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 3 || OC || OC || OC || style=&quot;background:red;&quot; | 14M<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.12k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 7.67M || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Baolongking USBC 10GBPS Short Rubber Ribbon ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! !! !! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 0.6 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || 0.5 || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || OC || OC || 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || OC || OC || OC || OC || style=&quot;background:red;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Veetone USBC 3.2 - Short Length, stripy rubber ===<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! A1 !! A2 !! A3 !! A4 !! A5 !! A6 !! A7 !! A8 !! A9 !! A10 !! A11 !! A12 !! B12 !! B11 !! B10 !! B9 !! B8 !! B7 !! B6 !! B5 !! B4 !! B3 !! B2 !! B1<br /> |-<br /> | || || GND || TX1+ || TX1- || VBUS || CC1 || D+ || D- || SBU1 || VBUS || RX2- || RX2+ || GND || GND || RX1+ || RX1- || VBUS || SBU2 || D- || D+ || CC2 || VBUS || TX2- || TX2+ || GND<br /> |-<br /> | A1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | A2 || TX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A3 || TX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A4 || VBUS || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | A5 || CC1 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC<br /> |-<br /> | A6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC<br /> |-<br /> | A7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A8 || SBU1 || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A9 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC<br /> |-<br /> | A10 || RX2- || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A11 || RX2+ || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | A12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B12 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |-<br /> | B11 || RX1+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC<br /> |-<br /> | B10 || RX1- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC<br /> |-<br /> | B9 || VBUS || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC<br /> |-<br /> | B8 || SBU2 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B7 || D- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B6 || D+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B5 || CC2 || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || style=&quot;background:yellow;&quot; | 2.12k || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | 8.94M || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k<br /> |-<br /> | B4 || VBUS || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.5 || OC || OC || OC || OC || style=&quot;background:yellow;&quot; | OC || OC || OC || OC<br /> |-<br /> | B3 || TX2- || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B2 || TX2+ || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.6 || OC || OC || OC || OC || OC || OC || OC || OC || OC || OC<br /> |-<br /> | B1 || GND || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || style=&quot;background:red;&quot; | 1.06k || OC || OC || OC || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7 || style=&quot;background:lime;&quot; | 0.7 || OC || OC || OC || OC || OC || OC || style=&quot;background:red;&quot; | 9.1M || OC || OC || OC || style=&quot;background:lime;&quot; | 0.7<br /> |}<br /> <br /> === Source Spreadsheet ===<br /> [https://liveuclac-my.sharepoint.com/:x:/r/personal/ucapsj1_ucl_ac_uk/Documents/ProtonTherapy/Cosylab/QuARC%20FrontEnd/USB-C%20Cable%20Pin%20Tests.xlsx?d=w0f253e1921cf4707bab215c281391df7&amp;csf=1&amp;web=1&amp;e=gxboE9 Excel spreadsheet with signal tests for various USB-C cables to check pin configurations].</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5640 2024-11-22T20:55:32Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/11/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct 2024 - Nov 2024)'''<br /> *Curve Fitting and its implementation on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> **Understanding the working principal of data processing and Bragg curve fitting<br /> **Exploring naoki work on Bragg Curve fitting in cpp using TF1 and Minuit minimiser<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5639 2024-11-22T20:51:19Z

<p>Febian: /* Dates and Progress */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/11/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct 2024)'''<br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5638 2024-11-22T20:50:11Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/11/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> '''(Oct 2024)'''<br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5637 2024-11-22T20:48:04Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/11/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Investigating Bragg Curve Fitting<br /> *Bragg Curve Fitting inside FPGA<br /> *Investigating Naoki attempts in fitting Bragg curve using minimiser<br /> *Exploring ML approach for bragg curve fitting<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> <br /> <br /> '''(Oct 2024)'''<br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> '''(Jul 2024)'''<br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5636 2024-11-22T20:45:32Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Curve Fitting inside FPGA<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> <br /> <br /> '''(Oct 2024)'''<br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> '''(Jul 2024 - Sep 2024)'''<br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> '''(Jul 2024)'''<br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5635 2024-11-22T20:43:56Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Curve Fitting inside FPGA<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> '''(Jul 2024)'''<br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> '''(Jun 2024)'''<br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> '''(Apr 2024 - May 2024)'''<br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5634 2024-11-22T20:42:29Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Curve Fitting inside FPGA<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> '''(Oct 2023 - Mar 2024)'''<br /> *Group Project with Peak.AI<br /> **Working on RL PPO implementation for supply chain inventory management<br /> **Working on META-RL MAML algorithm for supply chain inventory management<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5633 2024-11-22T20:39:42Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Curve Fitting inside FPGA<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo simulation insight<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> **Creating Github repository documenting a stable ground for DAQ using Nexys Video FPGA<br /> **Presenting the Workflow of current FPGA coding for DAQ process<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> **Setting up data acquisition process on MacBook M2 Chips<br /> <br /> **(Oct 2023 - Mar 2024)**<br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5588 2024-10-18T15:41:56Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> *Curve Fitting inside FPGA<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5587 2024-10-18T15:39:59Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> *CDT DISI Partner Event Fall<br /> **Created an A0 Poster on what will be done throughout the PhD journey<br /> **Presenting a 2 minutes spotlight talk to industrial partner<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5586 2024-10-18T15:38:39Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> **<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5585 2024-10-18T15:38:09Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways (From the most recent to the oldest one).<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5584 2024-10-18T15:37:31Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5583 2024-10-18T15:35:37Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Curve Fitting on FPGA started<br /> **Fittings started on Linear Regression application<br /> **Discuss and seek for guidance from Naoki - suggested to check HLS4ML and Vitis<br /> <br /> *Hadron Therapy Workshop status and perspectives, plans for next generation facilities (Remote)<br /> **Todo<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5575 2024-09-11T13:54:09Z

<p>Febian: /* Dates and Progress */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |18 - 19 Oct 2024 || HITRI Hadron Therapy Workshop: Status and Plans for Future<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5574 2024-09-11T13:52:50Z

<p>Febian: /* Dates and Progress */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |-<br /> |24 Oct 2024 || CDT DIS Partner Event Fall - Spotlight talk and poster<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5573 2024-09-11T13:47:46Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology and particle interactions <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5572 2024-09-11T13:46:23Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **Various algorithm, statistical model and Machine Learning application in HEP and Astrophysics world<br /> **Discussion on interpretability, data sources, samples relevance, and mismodelling. <br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **Recapped on Radiobiology. <br /> **Scintillators and luminescent materials for detector<br /> **Monte Carlo Simulation<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5571 2024-09-06T09:59:21Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Phystat - Statistics meets Machine Learning Workshops by Imperial College London (Online)<br /> **(add more stuff here)<br /> <br /> *DKFZ 6th Summer School in Medical Physics.(Online)<br /> **(add more stuff here)<br /> <br /> *Initiate the creation of PBT Group Github organisation for Collaborative workspace.<br /> <br /> *Practical FPGA and Implementation in Vivado<br /> **Installation and run through the current Nexys Video FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> **Creating a github repository on the FPGA end-to-end guide on debugging and implementation<br /> **Learning on Hierarchical programming and IP components in Vivado <br /> **Learning FTDI (USB driver management)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5570 2024-09-06T09:14:08Z

<p>Febian: /* Dates and Progress */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |-<br /> |9 - 12 Sep 2024 || Phystat - Statistic meet Machine Learning Workshop, Imperial College London<br /> |-<br /> |26 Aug - 27 Sep 2024 || DKFZ 6th Summer School in Medical Physics<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5546 2024-07-24T12:59:24Z

<p>Febian: /* Upcoming Dates */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Dates and Progress ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Away for family vacation in US<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |17 - 30 June 2024 || Away on Vacation in Indonesia<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Main_Page&diff=5543 2024-07-24T12:43:48Z

<p>Febian: /* Background */</p> <hr /> <div>== Welcome to the UCL High Energy Physics Group Proton Beam Therapy Wiki. ==<br /> <br /> This contains information on the various proton therapy-related experiments and software in use by the UCL [http://www.hep.ucl.ac.uk/pbt/ High Energy Physics] and [http://www.ucl.ac.uk/medphys/research/protons Proton and Advanced RadioTherapy (PART)] research groups.<br /> <br /> == [[Software|Software and Simulations]] ==<br /> <br /> The initial purpose of this Wiki was to make the setup and use of software used for proton therapy-related simulations easier for less experience users, primarily the [[Software/Geant4|Geant4 simulation package]].<br /> <br /> The following software is available for use on the [[Software/Geant4/UCL HEP Cluster|UCL HEP Linux Cluster]]:<br /> <br /> * [[Software/Geant4|Geant4]]. Geant4 is a toolkit for the simulation of the passage of particles through matter. Its areas of application include high energy, nuclear and accelerator physics, as well as studies in medical and space science.<br /> &lt;!-- * [[Software/FLUKA|FLUKA]]. FLUKA is a general purpose simulation tool for calculations of particle transport and interactions with matter, covering an extended range of applications spanning from proton and electron accelerator shielding to target design, calorimetry, activation, dosimetry, detector design, Accelerator Driven Systems, cosmic rays, neutrino physics, radiotherapy etc. --&gt;<br /> * [[Software/ROOT|ROOT]]. ROOT is a modular scientific software framework. It provides all the functionalities needed to deal with big data processing, statistical analysis, visualisation and storage. It is used for the analysis of data produced with the Monte Carlo simulations packages described above.<br /> * [[Software/BDSIM|BDSIM]]. BDSIM is a Geant4 extension toolkit for simulation of particle transport in accelerator beamlines. It allows an accelerator to be described by text input file and Geant4 geometry is automatically created based on libraries of generic components. It provides fast in-vacuum thick-lens tracking as well as the full physics processes of Geant4.<br /> <br /> More details of the available software can be found on the [[Software|PBTWiki Software page]].<br /> <br /> == Research ==<br /> <br /> UCL runs a number of research projects related to proton therapy. Most of these are described in more detail on the [http://www.ucl.ac.uk/medphys/research/protons Proton and Advanced RadioTherapy (PART) research group page].<br /> <br /> More detailed information is available on the following research projects:<br /> <br /> * [[Proton Calorimetry|Proton Calorimetry]]: Development of a fast, accurate calorimeter module for high resolution proton energy measurements.<br /> * [[Clatterbridge|Clatterbridge Simulations]]: Simulations of the beamline for the 60MeV ocular proton therapy beam at the Clatterbridge Cancer Centre.<br /> * [[Radiotherapy|QA For Radiotherapy]]: Quality Assurance measurements for radiotherapy PDD and Output Factor measurements using plastic scintillator.<br /> * [[Quality Assurance|Quality Assurance]]: A summary of existing systems used for machine and patient QA in clinical proton therapy facilities.<br /> * [[Plasma Wakefield|Plasma Wakefield Acceleration]]: Simulations of the proton driven plasma wakefield experiment, AWAKE.<br /> <br /> An [[Photo Archive|Archive of Photos]] taken at various facilities during experimental runs is also available.<br /> <br /> == [[Background]] ==<br /> <br /> For information on the background to proton beam therapy treatment and research at UCL, please see the [[Background|Background Information page]].<br /> <br /> A useful table of [[Proton ranges|proton ranges for clinical energies]] is also available.<br /> <br /> ''For more information on Proton Beam Therapy research at UCL, please contact'' [http://www.hep.ucl.ac.uk/people/mugshot.shtml?id=jolly Prof. Simon Jolly].</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5542 2024-07-22T12:26:19Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5541 2024-07-22T12:26:12Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> This section highlights the events/activities that have been done throughout the PhD. It also includes what have been learned and important key takeaways.<br /> <br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5540 2024-07-22T12:22:44Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Science Communication Workshop<br /> **Tips for good presentation slides and skills<br /> **Body language impact on communication<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5539 2024-07-22T12:20:33Z

<p>Febian: /* Upcoming Dates */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |14 &amp; 17 May 2024 || Science Communication Workshop<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5538 2024-07-22T12:18:36Z

<p>Febian: /* To Do */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event:<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5537 2024-07-22T12:18:16Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> *Practical FPGA and Implementation<br /> **Installation and run through the current FPGA code for DaQ (assisted by Matt)<br /> **Follow through the STFC Training books for RTL to FPGA Basics.<br /> **Implementation of FPGA code on easy applications (LED and Gates)<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5536 2024-07-22T12:15:05Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> *STFC Summer School in Liverpool:<br /> **Networking with people from the same cohort<br /> **Highlighting session about: Neural Network, Clustering and Data Visualisation, Publishing Code<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT, standard procedure in QA, etc<br /> **Open source data/tools and AI discussion in PBT<br /> **Networking with people from the same field of research<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway (Mathematical theory behind ML)<br /> **PHAS0102 High-Performance Computing (GPU optimisation)<br /> **COMP0233 Research Software using Python (Basic Python and Colaborative work)<br /> **MPHY0038 Treatment Radiation (Radiotherapy theory and highlights)<br /> **COMP0210 Research Computing with C++ (C++ introduction)<br /> **SPCE0038 Machine Learning with Big Data (Using python to implement ML algorithm on big data)</div>

Febian https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=ELogs/Febian&diff=5535 2024-07-22T12:07:10Z

<p>Febian: /* PhD Completed */</p> <hr /> <div>This is Febian's Electronic Log in completing PhD at UCL from September 2023 to September 2027<br /> <br /> == To Do ==<br /> <br /> ''Last updated 22/07/24’’<br /> *Upcoming Event<br /> **DKFZ 6th Summer School <br /> <br /> *Coding FPGA to interface the new daughter board utilising Zmod Port<br /> <br /> == Upcoming Dates ==<br /> <br /> {| class=&quot;wikitable&quot;<br /> ! style=&quot;text-align: center;&quot; | Date<br /> ! style=&quot;text-align: center;&quot; | Event<br /> |-<br /> |2 October 2023 || Starting PhD Journey in PBT Group at UCL<br /> |-<br /> |9 November 2023 || MAThRAD 2nd Workshop at Teddington<br /> |-<br /> |8 January 2024 || Starting Industrial Project with Peak.AI<br /> |-<br /> |18 - 31 January 2024 || Annual Leave (Family Vacation in US)<br /> |-<br /> |21 - 23 February 2024 || Valencian Proton Therapy Facility Workshop<br /> |-<br /> |25 April 2024 || CDT Industrial Partner Presentations (Peak.AI)<br /> |-<br /> |30 April - 1 May 2024 || Beam Test at UCLH: Quarc, Temperature (NPL) and Pixel Sensor (Birmingham)<br /> |-<br /> |8 - 17 June 2024 || PTCOG62 Annual Conference in Singapore<br /> |-<br /> |14 - 19 July 2024 || STFC Summer School in Data Intensive Science Liverpool<br /> |}<br /> <br /> ==PhD Completed==<br /> <br /> *PTCOG62 Conference in Singapore<br /> **Education session includes medical aspects of PBT<br /> **Open source data/tools and AI discussion in PBT<br /> <br /> *Beam Testing at UCLH<br /> **Helping and learn logical step by step set up<br /> **Taking notes of the experiments taken<br /> <br /> *Data Acquisition Process and Plotting the data using the provided code by Sonia<br /> **Marking the USB-C configuration (which side to plug)<br /> **Testing supply voltage in each node of DaQ<br /> **Formulating consistent working DaQ with the latest Matt Version FPGA code<br /> <br /> *Setting up data acquisition process on MacBook M2 Chips<br /> <br /> *Testing and Categorising types of different USB-C 3.x Cable regulating in the market<br /> **16 Cable was tested and 3 general classification of USB-C 3.x were found<br /> <br /> *Doing literature review as part of MPHY0038 Assignment on IMPT and the emergence of AI in the field.<br /> <br /> *Reading Saad (Previous PhD student) Thesis<br /> <br /> *Modules Completed:<br /> **PH4515 Statistics Course Royal Holloway<br /> **PHAS0102 High-Performance Computing<br /> **COMP0233 Research Software using Python<br /> **MPHY0038 Treatment Radiation<br /> **COMP0210 Research Computing with C++<br /> **SPCE0038 Machine Learning with Big Data</div>

Febian