openc910
riscv-profiles
openc910 | riscv-profiles | |
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42 | 21 | |
1,047 | 87 | |
2.7% | - | |
1.3 | 8.0 | |
5 months ago | 16 days ago | |
Verilog | Makefile | |
Apache License 2.0 | Creative Commons Attribution 4.0 |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
openc910
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US Government reportedly ponders crimping China's use of RISC-V
> I'm pretty sure that SiFive isn't allowed to sell their RISC-V core designs to any Chinese company already.
The JH7110 SoC from the Chinese firm Starfive uses SiFive's U74 core. Eswin, also Chinese uses SiFive's P550 core in their upcoming EIC7700 SoC.
> All Chinese RISC-V core designs have been proprietary designs thus far.
There is the OpenC910 [1] and OpenXiangShan [2].
[1] https://github.com/T-head-Semi/openc910
- Lichee Console 4A – RISC-V mini laptop: Review, benchmarks and early issues
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Is RISC-V ready for HPC? Evaluating the 64-core Sophon SG2042 RISC-V CPU
Note that the C910 CPU cores used in this chip are in fact open source:
https://github.com/T-head-Semi/openc910
(C920 is just C910 plus RVV draft 0.7.1 vector unit which pretty much no software uses anyway, sadly)
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This CPU is FREE!
The Milk-V Pioneer uses a C910 CPU, which has been open sourced by t-head: https://github.com/T-head-Semi/openc910
- LTT
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China Deploys RISC-V Server in Commercial Cloud
More precisely, a Chinese university assembled a rack containing 48 [1] commercially available SBCs [2], each with a Chinese-designed and made SG2042 SoC with 64 C910 CPU cores. The C910 was designed in China in 2018/19 and open-sourced in October 2021, on Microsoft's github site.
https://github.com/T-head-Semi/openc910
The SG2042 is the most powerful RISC-V SoC available today.
In which direction is the technology transfer going?
[1] or possibly 24 dual-socket boards, shown at the RISC-V Summit China in August
[2] get your own here https://www.crowdsupply.com/milk-v/milk-v-pioneer
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Raspberry Pi receives strategic investment from Arm
For "coming down the pipeline" they're essentially free.
Today, the c910 is an Apache 2, hardware proven out of order core on GitHub here https://github.com/T-head-Semi/openc910 a little slower than an RPi3's core.
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Lichee Pi 4A: Serious RISC-V Desktop Computing [video]
Here is the source code* for the CPU:
https://github.com/T-head-Semi/openc910
* AFAIK they didn't opensource the pre ratification vector extension implementation they ship with the taped out chip.
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Beagleboard BeagleV-Ahead RISC-V brd released
The source RTL for the roughly Arm A72-equivalent cores used in this were open-sourced several years ago.
https://github.com/T-head-Semi/openc910
The same cores are used in the 64 core SG2042 workstation/server SoC.
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ARM’s Cortex A53: Tiny but Important
It's a shame, because it was the best design from ARM; they're now focusing on Cortex-A7x and Cortex-X, which aren't anywhere as power efficient[0].
Meanwhile, their revised Cortex-A57 has been surpassed in performance/power/area by several RISC-V microarchitectures, such as SiFive's U74[1], used in the VisionFive2 and Star64, or even the open source XuanTie C910[2][3].
0. https://www.youtube.com/watch?v=s0ukXDnWlTY
1. https://www.sifive.com/cores/u74
2. https://xrvm.com/cpu-details?id=4056743610438262784
3. https://github.com/T-head-Semi/openc910
riscv-profiles
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How to improve the RISC-V specification
Ssstrict is supposed to address the undefined behaviour problem, or at least it'll make undefined instructions actually trap.
https://github.com/riscv/riscv-profiles/blob/main/rva23-prof...
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Raspberry Pi receives strategic investment from Arm
>there are a lot of incompatible ISA implementations of RISC-V
This is common FUD.
In reality, most chips in the market, including all known application processors, follow the RVA profile[0] spec.
So do Linux distributions.
0. https://github.com/riscv/riscv-profiles/releases
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You Won’t Believe This One Weird CPU Instruction (2019)
The bit manipulation [0] extension has been ratified for a while now and is part of the RVA22 application extension profile [1].
You can already buy SOCs that support it, e.g. vision five 2 and star64.
Interestingly the risc-v vector has it's own popcount instructions for vector registers/register masks. This is needed, because the scalable architecture doesn't guarantee that a vector mask can fit into a 64 bit register, so vector masks are stored in a single LMUL=1 register. This works really well, because with LMUL=8 and SEW=8 you get 100% utilization of the single LMUL=1 vector register.
Another interesting thing is that the vector crypto extension will likely introduce a element wise popcount instruction.
[0] https://github.com/riscv/riscv-bitmanip/releases/download/1....
[1] https://github.com/riscv/riscv-profiles/blob/main/profiles.a...
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The legend of "x86 CPUs decode instructions into RISC form internally"
That's why we have RISC-V profiles.
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Why is std::hardware_destructive_interference_size a compile-time constant instead of a run-time value?
Yeah more or less. They now have RISC-V Application Profiles which are basically minimum requirements for "application processors" - essentially devices like phones where you might want to distribute binary apps.
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RISC-V Profiles: Defining sets of extensions for coherent ecosystems
The Profiles spec which includes RVA22 was finally ratified[0] last week.
0. https://github.com/riscv/riscv-profiles/releases/tag/v1.0
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RISC-V Profiles
Context: RISC-V profiles spec got ratified last week.
- Questions about standard extensions
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RISC-V Business: Testing StarFive's VisionFive 2 SBC
Yeah unfortunately there isn't really a great place that lists all the extensions with links and ratification status.
But anyway there is a sort of standard set of extensions that "application processors" (I guess CPUs that want to run precompiled code) should support:
https://github.com/riscv/riscv-profiles/blob/main/profiles.a...
The 22 indicates the year.
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TinyEMU – x86 and RISC-V emulator, small and simple while being complete
Ah, you're right: https://github.com/riscv/riscv-profiles/blob/main/profiles.a...
That's good to see. (Boy, it's really hard to find info about RISC-V profiles on Google. It just seems to ignore all the letters and numbers.)
What are some alternatives?
riscv-boom - SonicBOOM: The Berkeley Out-of-Order Machine
riscv-platform-specs - RISC-V Profiles and Platform Specification
openc906 - OpenXuantie - OpenC906 Core
xuantie-yocto - Yocto project for Xuantie RISC-V CPU
XiangShan - Open-source high-performance RISC-V processor
aosp-riscv - Patches & Script for AOSP to run on Xuantie RISC-V CPU [Moved to: https://github.com/T-head-Semi/riscv-aosp]
riscv-v-spec - Working draft of the proposed RISC-V V vector extension
seL4 - The seL4 microkernel
volk - The Vector Optimized Library of Kernels
awesome-riscv - 😎 A curated list of awesome RISC-V implementations
riscv-bitmanip - Working draft of the proposed RISC-V Bitmanipulation extension