muRISCV-NN is a collection of efficient deep learning kernels for embedded platforms and microcontrollers. It is based on ARM's CMSIS-NN library but targets the RISC-V ISA instead.
It offers accelerated kernels using the RISC-V "V" vector extension v1.0, and the RISC-V packed "P" extension v0.9.6.
muRISCV-NN aims to stay functionally equivalent to CMSIS-NN so that no functional difference should be noticeable to users of either CMSIS-NN or muRISCV-NN. This way, muRISCV-NN acts as a drop-in replacement for CMSIS-NN and can be used with embedded deep learning frameworks such as TensorFlow Lite for Microcontrollers (TFLM) or microTVM.
We provide integration for both TFLM and microTVM in the Integration/
directory. Using these deep learning frameworks, we are able to run the complete suit of MLPerf Tiny Deep Learning Benchmarks consisting of MobileNet, ResNet, and AutoEncoder models.
You can simulate muRISCV-NN using a number of different simulators. We provide support for instruction-level simulators (such as Spike or riscvOVPsim), as well as register transfer level (RTL) implementations (Vicuna running on Verilator).
Please refer to the Sim/
directory for more information on each simulator and its corresponding files.
In order to ensure functional correctness on an individual kernel level, we provide a suite of unit tests in Tests/
. The unit tests use the same data as upstream CMSIS-NN, thus ensuring functional equivalency.
muRISCV-NN supports both the RISC-V GNU Compiler vector toolchain and LLVM (which has built-in RISC-V vector support). We provide pre-compiled toolchains in the Toolchain/
directory. Additionally, we also offer instructions on how to compile and install your own toolchain.
See COMPATIBILITY.md
for details on supported Toolchains, Simulators, Frameworks and CMSIS-NN versions.
See https://github.com/tum-ei-eda/muriscv-nn/wiki for detailed benchmark results.
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muRISCV-NN: Challenging Zve32x Autovectorization with TinyML Inference Library for RISC-V Vector Extension (https://dl.acm.org/doi/10.1145/3637543.3652878)
CF '24 Companion: Proceedings of the 21st ACM International Conference on Computing Frontiers Workshops and Special Sessions
BibTeX:
@inproceedings{10.1145/3637543.3652878, author = {van Kempen, Philipp and Jones, Jefferson Parker and Mueller-Gritschneder, Daniel and Schlichtmann, Ulf}, title = {muRISCV-NN: Challenging Zve32x Autovectorization with TinyML Inference Library for RISC-V Vector Extension}, year = {2024}, isbn = {9798400704925}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3637543.3652878}, doi = {10.1145/3637543.3652878}, abstract = {With the rapid adoption of deep learning workloads to resource-constrained edge devices, efficient and data-parallel computing paradigms are becoming increasingly important. The RISC-V ISA provides a set of vector extensions featuring powerful data computation capabilities to accelerate deep learning workloads at the edge. However, the RISC-V ecosystem lacks a lightweight, open-source, and vendor-agnostic compute library to support these extensions on embedded platforms. After porting the existing ARM Cortex-M specific kernel implementation to the RISC-V vector ISA, we optimized the operator implementations to make the most out of the data-level parallelism provided by supported targets. In comparison to programs vectorized by LLVM's built-in auto-vectorizer, we see an up to 60\% advantage in runtime for convolutional models and large vectors while introducing less ROM overheads. Furthermore, muRISCV-NN integrates well with existing ML deployment frameworks, is bit-accurate to CMSIS-NN, and can, thus, be used as a drop-in replacement with minimal changes to the compilation flow.}, booktitle = {Proceedings of the 21st ACM International Conference on Computing Frontiers Workshops and Special Sessions}, pages = {75–78}, numpages = {4}, keywords = {Compilers, Neural Network Inference, RISC-V, Vectorization}, location = {Ischia, Italy}, series = {CF '24 Companion} }
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From Simulation to RVV Hardware: Evaluating the muRISCV-NN TinyML Inference Library on the CanMV K230 Platform (https://mediatum.ub.tum.de/1747602?show_id=1759366&style=full_text)
Student research internship
Disclaimer: HW got provided by RISC-V International® (See https://riscv.org/risc-v-developer-boards/details/ for details)
BibTeX:
@mastersthesis{, author = {Witteler, Benedikt}, title = {From Simulation to RVV Hardware: Evaluating the muRISCV-NN TinyML Inference Library on the CanMV K230 Platform}, year = {2024}, school = {Technische Universität München}, month = {Oct} }
This research is partially funded by the German Federal Ministry of Education and Research (BMBF) within the project Scale4Edge (grant number 16ME0127).