commit | ac918073ad0fd805840106daf7c5982045dfed6a | [log] [tgz] |
---|---|---|
author | Alex Van Damme <atv@google.com> | Tue Jun 04 17:04:44 2024 -0700 |
committer | Alex Van Damme <atv@google.com> | Fri Jun 07 18:04:24 2024 -0700 |
tree | 877a70139ec88b51865f3e6ef5cc17b45b9343b7 | |
parent | d22d7d632b3cf0afb01746bbdf48669687b34b0e [diff] |
Improve ElementwiseAddS8 - Run up to three groups of 32 per iteration - Break up dependencies between consecutive instructions - Keep load units more busy than before Change-Id: I9c41d3f083f52929cd5178911f93f1c0232bcdb3
This project contains the BSP to build the SW artifact that can run on the Kelvin core, and integrated as part of the Shodan repository.
The project supports two build systems -- Bazel and CMake -- for OSS integration reasons. Bazel is used by TFLM flow, while CMake is the build system for IREE.
If you get this project from Project Shodan manifest, you are all set. If not, you need to have following projects as well to build the project successfully.
<dir>/cache/toolchain_kelvin
This project needs to be at <dir>/sw/kelvin
.
The project uses Bazel 5.1.1, to align with OpenTitan build system requirements.
bazel build //...
To run the unit tests (with the kelvin_sim ISS) Make sure the Environment variable $ROOTDIR
is set to the root directory of the local repo (or run source build/setup.sh
)
bazel test //...
TODO: Add CMake flow
The binaries can be simulated with the kelvin simulator, located at <dir>/sim/kelvin
.
sim_kelvin <elf location>
Load the generated .bin
binaries to the FPGA emulator/Renode simulator.