Difference between revisions of "BeagleBoard/GSoC/2022 Proposal/TaliaXu"

From eLinux.org
Jump to: navigation, search
(Timeline)
(About your project)
Line 25: Line 25:
  
 
''Project name'': RISC-V Based PRU on FPGA and Beglewire Updates<br>
 
''Project name'': RISC-V Based PRU on FPGA and Beglewire Updates<br>
 +
 +
<big>'''Main Goals:'''</big>
 +
#Create RISC-V PRU on BeagleWire
 +
#Create examples with PRU cores on BeagleWire
 +
#Improving the stability and implement testbenches for subsystems in standalone cores,
 +
#Extensive documentation,
  
 
===Timeline===
 
===Timeline===

Revision as of 13:28, 30 March 2022

Proposal for Beaglewire PRU and Support

About Student: Talia Xu
Mentors: Michael Welling, Bhilare
Proposal:Xu BeagleWire Software

Proposal

  • Completed All the requirements listed on the ideas page.
  • The PR request for cross-compilation task: #162.

Status

This project is currently just a proposal.

About you

Github: taliaxu09
School: [Technical University of Delt]
Country: The Netherlands
Primary language : English
Typical work hours: 12PM-8PM European Central Time
Previous GSoC participation: This is my first time applying to participate for GSoC. I want to patricipate in GSoC with BeagleBoard because I think this is a great opportunity to gain a deeper knowledge of the code repository of BeagleBoard and explore how to use it together with different peripherals. I also think the BeagleWire could be a promising candidate for some of the topics I wish to look into in my study on visible light communication.


About your project

Project name: RISC-V Based PRU on FPGA and Beglewire Updates

Main Goals:

  1. Create RISC-V PRU on BeagleWire
  2. Create examples with PRU cores on BeagleWire
  3. Improving the stability and implement testbenches for subsystems in standalone cores,
  4. Extensive documentation,

Timeline

Date Status Details
Presubmission
  • Build a BeagleWire image & install toolchain (completed)
  • Verify that I am able to edit, recompile and program the FPGA (completed)
May 20th - June 12th Community Bonding
  • Define the exact scope of the project before the end of this period (PolarFire Vs. ICE40 implementation & draw out specifications for I/O latency)
  • Read about PRU documentation, and run PRU examples on BBB and Litex
  • Read about the RISC-V implementation on Silice
  • Introduction Video
June 13th Milestone #1
June 20th Milestone #2
June 27th Milestone #3
  • Implement multiple RISC cores and generate examples with peripherals running on the cores
  • Look into the space usage, optize it (if needed) to fit multiple cores
July 4th Milestone #4
  • Implement multiple PWMs, low latency examples
  • Implement an example running both PRUs on FPGA and PRUs on BBB
July 11th Milestone #5
  • Implement other examples (soft UARTs, low-latency IOs)
July 18th Milestone #6
  • Demonstration of multiple peripherals running on separate cores at the same time
  • Prepare a report summarizing progress with the PRU cores
July 25th Milestone #7
  • Read about the previous open issues on standalone cores
  • Look into reproducing #7, #8 SDRAM issues with the standalone core
  • Try to reproduce the error with standalone SDRAM with a test scrips
August 1st Milestone #8
  • Look into the verilog code and timing reports to figure out errors on SDRAM
August 8th Milestone #9
  • Implement automated test script for different subsystems (SPI, PWM, UART)
August 15th Milestone #10
  • Look into the verilog code and timing reports to see if there is anything wrong with the different subsystems
August 22nd Milestone #11
  • Read on nMigen support if there is time, otherwise budgeting the week for overflow
August 29th Milestone #12
  • Submit final work product and final mentor evaluation
  • Complete YouTube video
Sep. 5th Milestone #13
  • Completion of GSoC