Skip to content

Meta-Repository for Bespoke Silicon Group's Manycore Architecture (A.K.A HammerBlade)

License

Notifications You must be signed in to change notification settings

laze44/scaleout_acc

 
 

Repository files navigation

BSG Bladerunner

This repository tracks releases of the HammerBlade source code and infrastructure. It can be used to simulate HammerBlade Nodes of diverse sizes and memory types.

HammerBlade Overview

HammerBlade is an open-source manycore architecture for performing efficient computation on large general-purpose workloads. A HammerBlade is composed of nodes attached to a general purpose host, simliar to a general-purpose GPU. Each node is a single an array of tiles interconnected by a 2-D mesh network attached to a flexible memory system.

HammerBlade is a Single-Program, Multiple-Data (SPMD) architecture: All tiles execute the same program on a different set of input data to complete a larger computation kernel. Programs are written in the CUDA-Lite lanaguage (C/C++) and executed on the tiles in parallel "groups", and sequential "grids". The CUDA-Lite host runtime (C/C++) manages execution parallel and sequential execution.

The HammerBlade is being integrated with higher-level parallel frameworks and Domain-Specific Languages. A Pytorch Pytorch backend is being developed to accelerate Machine Learning and a Graphit code-generator is being developed to support Graph Computations.

C/C++, Python, and Pytorch programs can interact with a Cooperatively Simulated (Cosimulated) HammerBlade Node using Synopysis VCS or Verilator. The HammerBlade Runtime and Cosimulation top levels are in BSG Replicant repository.

For a more in-depth overview of the HammerBlade architecture, see the HammerBlade Overview.

The architectural HDL for HammerBlade is in the BSG Manycore Repository and the BaseJump STL repositories. For technical details about the HammerBlade architecture, see the HammerBlade Technical Reference Manual

To run applications on HammerBlade follow the instructions below:

Requirements

CAD Tools

  • To simulate with VCS you must have VCS-MX installed. (After 2019, VCS-MX is included with VCS)

  • Verilator is built as part of the setup process.

The Makefiles will warn/fail if it cannot find the appropriate tools.

Packages

Building the RISC-V Toolchain requires several distribution packages. The following are required for CentOS/RHEL-based distributions:

libmpc autoconf automake libtool curl gmp gawk bison flex texinfo gperf expat-devel dtc cmake3 python3-devel

On debian-based distributions, the following packages are required:

libmpc-dev autoconf automake libtool curl libgmp-dev gawk bison flex texinfo gperf libexpat-dev device-tree-compiler cmake build-essential python3-dev

Setup: VCS

Non Bespoke Silicon Group (BSG) users MUST have VCS installed on PATH before these steps

The default VCS environment simulates the manycore architecture, without any closed-source or encrypted IP.

  1. Add SSH Keys to your GitHub account.

  2. Initialize the submodules: git submodule update --init --recursive

  3. (BSG Users Only: git clone git@github.com:bespoke-silicon-group/bsg_cadenv.git)

  4. Run make -f amibuild.mk riscv-tools

Setup: Verilator (Beta)

Verilator simulates the HammerBlade architecture using C/C++ transpilation.

  1. Add SSH Keys to your GitHub account.

  2. Initialize the submodules: git submodule update --init --recursive

  3. Run make verilator-exe

  4. Run make -f amibuild.mk riscv-tools

Examples

See bsg_replicant/README.md

Makefile targets

  • setup: Build all tools and updates necessary for cosimulation

    You can also run make help to see all of the available targets in this repository.

Repository File List

  • Makefile provides targets cloning repositories and setting up the repository. See the section on Makefile Targets for more information.

  • project.mk defines paths to each of the submodule dependencies

  • scripts: Scripts used to upload Amazon FPGA images (AFIs) and configure Amazon Machine Images (AMIs).

Notes:

AWS FPGA support has been deprecated, though the files remain for posterity.

About

Meta-Repository for Bespoke Silicon Group's Manycore Architecture (A.K.A HammerBlade)

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Python 71.6%
  • Makefile 27.3%
  • Shell 1.1%