Difference between revisions of "R32V2020 32-bit RISC CPU Design"
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Blwikiadmin (talk | contribs) (Created page with "* 32-bit RISC CPU * [https://github.com/douggilliland/R32V2020 Land Boards R32V2020] * [https://github.com/douggilliland/R32V2020/tree/master/Assembler Land Boards R32V2020 As...") |
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* [https://github.com/douggilliland/R32V2020/tree/master/Assembler Land Boards R32V2020 Assembler] | * [https://github.com/douggilliland/R32V2020/tree/master/Assembler Land Boards R32V2020 Assembler] | ||
* [https://github.com/douggilliland/R32V2020/tree/master/Programs Land Boards Example code] | * [https://github.com/douggilliland/R32V2020/tree/master/Programs Land Boards Example code] | ||
| + | |||
| + | = 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 [[Why VHDL for the R32V2020|written in VHDL]]. | ||
| + | * R32V2020 is intended to be [[Target Hardware|implemented in an FPGA]]. | ||
| + | * R32V2020 is a '''non-'''[https://en.wikipedia.org/wiki/Von_Neumann_architecture Von Neumann architecture] so it may be unfamiliar at first glance. | ||
| + | ** Attempts to avoid the [https://web.archive.org/web/20131212205159/http://aws.linnbenton.edu/cs271c/markgrj/ Von Neumann bottleneck] by having a separate instruction memory space | ||
| + | |||
| + | = Details = | ||
| + | |||
| + | * [[Architecture]] - R32V2020 architecture. | ||
| + | * [[Instruction Set]] | ||
| + | ** [https://github.com/douggilliland/R32V2020/blob/master/Assembler/R32V2020_Reference_Card.pdf Programmer's Reference Card] | ||
| + | * [[Target Hardware]] - FPGA Resource Requirements | ||
| + | ** [[Resource requirements]] | ||
| + | ** [[Porting to other FPGAs|Porting R32V2020 to other FPGAs]]. | ||
| + | * [[Peripheral Interfaces]] - Peripheral IP that was developed under [http://searle.hostei.com/grant/Multicomp/index.html Multicomp project], [https://github.com/mvvproject/ReVerSE-U16 ReVerSE-16 project] and other projects. | ||
| + | * [[Software Support]] - R32V2020 Software Support document(s). | ||
| + | ** [[Assembler]] | ||
| + | ** [[C Compiler]] | ||
| + | * [[Adding an Instruction to the ISA]] | ||
| + | * [[Performance]] | ||
| + | * [[Micro-Code]] | ||
| + | * [[Debug and Troubleshooting]] | ||
| + | * [https://www.youtube.com/watch?v=YuXSBQsL4EQ&list=PLn__0BqzWEWPIsUE0TUdsspej2vHV-osY R32V2020 Video Playlist] | ||
| + | |||
| + | = Ownership = | ||
| + | |||
| + | * We all stand on the shoulders of giants. | ||
| + | ** Grant Searle's [http://searle.hostei.com/grant/Multicomp/index.html Multicomp project]. | ||
| + | ** Neil Crook's [https://github.com/nealcrook/multicomp6809 improvements to Multicomp]. | ||
| + | * The concepts in this RISC design are found in any Computer Architecture Design textbook. | ||
| + | * [http://www.fpgacpu.org/papers/soc-gr0040-slides.pdf Nice slideshow on another FPGA RISC design] | ||
| + | |||
| + | = Warning = | ||
| + | |||
| + | * No warranty expressed or implied. | ||
Revision as of 11:37, 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
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.
