learn-fpga
minimax
learn-fpga | minimax | |
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22 | 14 | |
2,337 | 194 | |
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7.3 | 2.9 | |
19 days ago | 14 days ago | |
C++ | Verilog | |
BSD 3-clause "New" or "Revised" License | BSD 3-clause "New" or "Revised" License |
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learn-fpga
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FPGA Dev Boards for $150 or Less
I've followed this tutorial recently, and it's amazing:
https://github.com/BrunoLevy/learn-fpga/blob/master/FemtoRV/...
The author includes detailed instruction for how to build a micro-controller in Verilog on an icestick, starting from a very simple blinker all the way to a functional RISC-V core.
My other suggestion would be: for most of the toolchain, skip your package manager and directly install the binary artifacts published on this Github repo:
https://github.com/YosysHQ/oss-cad-suite-build
You'll spare yourself a world of pain.
- Top Ten Fallacies About RISC-V (David Patterson)
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What are the best learning resources for a beginner?
You might want to look at https://github.com/BrunoLevy/learn-fpga
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First FPGA Board
Lattice Icestick is pretty cheap and has just enough LUTs to run a small riscv. Also check out https://github.com/BrunoLevy/learn-fpga
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My first Risc-V core in FPGA
Thanks Bruno Levy
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How to Emulate a CPU on an FPGA
These are good starting points: https://github.com/BrunoLevy/learn-fpga/ and, from there, https://github.com/BrunoLevy/learn-fpga/blob/master/FemtoRV/README.md.
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PicoBlaze in Verilog / Vivado
The best point-of-entry for "tiny" MCUs these days is FemtoRV32-Quark or SERV. I also maintain my own small RISC-V core (Minimax), though it's early on in graduating from "experiment" to "real design".
- looking for ideas for a small project using digilent pmod on xilinx zynq 7 series fpga using hdl (verilog).
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Embedded Systems Weekly #125
Rust blinky on RISC-V soft core If you were looking for, an introduction example of an embedded Rust program, running on a RISC-V soft core, check out this blinky that is using the FemtoRV .
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Minimax: A Compressed-First, Microcoded RISC-V CPU
Nope - that's all there is.
It's possible to be incredibly expressive in Verilog and VHDL. This implementation is written in VHDL, which has an outdated reputation for being long-winded.
Also worth a look: FemtoRV32 Quark [0], which is written in Verilog.
[0]: https://github.com/BrunoLevy/learn-fpga/blob/master/FemtoRV/...
minimax
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RISC-V support in Android just got a big setback
> Right now, most devices on the market do not support the C extension
This is not true and easily verifiable.
The C extension is defacto required, the only cores that don't support it are special purpose soft cores.
C extension in the smallest IP available core https://github.com/olofk/serv?tab=readme-ov-file
Supports M and C extensions https://github.com/YosysHQ/picorv32
Another sized optimized core with C extension support https://github.com/lowrisc/ibex
C extension in the 10 cent microcontroller https://www.wch-ic.com/products/CH32V003.html
This one should get your goat, it implements as much as it can using only compressed instructions https://github.com/gsmecher/minimax
- Is the 6502 a RISC or CISC processor? (2005)
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A Single-Cycle 64-Bit RISC-V Register File
On FPGAs, a register file probably fits better into distributed RAM than block RAM.
On Xilinx, for example: a 64-bit register file doesn't map efficiently to Xilinx's RAMB36 primitives. You'd need 2 RAMB36 primitives to provide a 64-bit wide memory with 1 write port and 2 read ports, each addressed separately. Only 6% (32 of 512) entries in each RAMB36 are ever addressable. It's this inefficient because ports, not memory cells, are the contented resource and BRAMs geometries aren't that elastic.
A 64-bit register file in distributed RAM, conversely, is a something like an array of DPRAM32 primitives (see, for example, UG474). Each register would still be stored multiple times to provide additional ports, but depending on the fabric, there's less (or no) unaddressed storage cells.
The Minimax RISC-V CPU (https://github.com/gsmecher/minimax; advertisement warning: my project) is what you get if you chase efficient mapping of FPGA memory primitives (both register-file and RAM) to a logical conclusion. Whether this is actually worth hyper-optimizing really depends on the application. Usually, it's not.
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Verilator - Do I need to maintain two testbench suits?
I haven't used it on a huge design (I'm usually a VHDL person), but it was a hassle-free replacement for iverilog when regression testing Minimax. Performance is substantially better; compilation times are worse.
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Zylin ZPU: The worlds smallest 32 bit CPU with GCC toolchain
Note that you can't compare LUT4 results (ZPU @ 440 LUTs) against LUT6 results (PicoRV32 @ 750 LUTs). The ZPU is remarkably small, and it's a bigger gap than a direct comparison shows.
SERV is a fair comparison, since it's architected for 4LUTs and I suspect the synthesis results come from iCE40 tools.
I have a contender in the "very small" space, too [1], although I don't claim it's as mature or complete as SERV. (If Minimax was excluded from your post on the basis of insanity, I'm OK with that.)
[1] https://github.com/gsmecher/minimax
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Senior Design Project Ideas?
I develop Minimax (https://github.com/gsmecher/minimax), an open-source RISC-V implementation. It's currently written in both VHDL and Verilog (the two implementations are equivalent, though I am likely to drop the VHDL implementation if it's too much work to keep them both.)
- Compiled and Interpreted Languages: Two Ways of Saying Tomato
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PicoBlaze in Verilog / Vivado
The best point-of-entry for "tiny" MCUs these days is FemtoRV32-Quark or SERV. I also maintain my own small RISC-V core (Minimax), though it's early on in graduating from "experiment" to "real design".
- Show HN: Minimax – A Compressed-First, Microcoded RISC-V CPU
What are some alternatives?
riscv-v-spec - Working draft of the proposed RISC-V V vector extension
ZPUFlex - A highly-configurable and compact variant of the ZPU processor core
bubbleos
picorv32 - PicoRV32 - A Size-Optimized RISC-V CPU
wain - WebAssembly implementation from scratch in Safe Rust with zero dependencies
Artix-7-HDMI-processing - Receiving and processing 1080p HDMI audio and video on the Artix 7 FPGA
openfpga - Open FPGA tools
sulong - Obsolete repository. Moved to oracle/graal.
rust-wasm - A simple and spec-compliant WebAssembly interpreter
serv - SERV - The SErial RISC-V CPU
Lifeslice - Automatically take webcam pics, screenshot, and other metrics throughout the day.
riscof