Difference between revisions of "R32V2020 32-bit RISC CPU Design"
Jump to navigation
Jump to search
Blwikiadmin (talk | contribs) |
Blwikiadmin (talk | contribs) (→Videos) |
||
| Line 11: | Line 11: | ||
== Videos == | == Videos == | ||
| − | * Part 1 of a [https://www.youtube.com/ | + | * Part 1 of a [https://www.youtube.com/watch?v=YuXSBQsL4EQ&list=PLn__0BqzWEWPIsUE0TUdsspej2vHV-osY 33 part video series] |
<video type="youtube">YuXSBQsL4EQ</video> | <video type="youtube">YuXSBQsL4EQ</video> | ||
Revision as of 13:16, 10 April 2022
R32V2020 - 32-Bit RISC
- R32V2020 is a 32-bit RISC CPU
- R32V2020 runs at 12.5 MIPS with a 50 MHz clock (4 clocks per instruction)
- R32V2020 is written in VHDL
- R32V2020 is intended to be implemented in an FPGA
- R32V2020 is a non-Von Neumann architecture so it may be unfamiliar at first glance.
- Attempts to avoid the Von Neumann bottleneck by having a separate instruction memory space
- Land Boards R32V2020 - GitHub
Videos
- Part 1 of a 33 part video series
Details
- Architecture - R32V2020 architecture.
- Instruction Set
- Target Hardware - FPGA Resource Requirements
- Peripheral Interfaces - Peripheral IP that was developed under Multicomp project, ReVerSE-16 project and other projects.
- Software Support - R32V2020 Software Support document(s).
- Adding an Instruction to the ISA
- Performance
- Micro-Code
- Debug and Troubleshooting
- R32V2020 Video Playlist
Ownership
- We all stand on the shoulders of giants.
- Grant Searle's Multicomp project.
- Neil Crook's improvements to Multicomp.
- The concepts in this RISC design are found in any Computer Architecture Design textbook.
- Nice slideshow on another FPGA RISC design
Warning
- No warranty expressed or implied.
