November 2, 2020
Conference Paper

SODA: a New Synthesis Infrastructure for Agile Hardware Design of Machine Learning Accelerators

Abstract

Next generation systems, such as edge devices, will have to provide efficient processing of machine learning (ML) algorithms along several metrics, including energy, performance, area, and latency. However, the quickly evolving field of ML makes it extremely difficult to generate accelerators able to support a wide variety of algorithms. At the same time, designing accelerators in hardware description languages (HDLs) by hand is hard and time consuming, and does not allow quick exploration of the design space. This paper discusses the SODA synthesizer, an automated open source high-level ML framework-to-Verilog compiler targeting ML Application-Specific Integrated Circuits (ASICs) chiplets based on the LLVM infrastructure. The SODA synthesizers will allow implementing optimal designs by combining templated and fully tunable IPs and macros, and fully custom components generated through high-level synthesis. All these components will be provided through an extendable resource library, characterized with both commercial and open source logic design flows. Through a closed loop design space exploration engine, developers will be able to quickly explore their hardware designs along different dimension

Revised: December 29, 2020 | Published: November 2, 2020

Citation

Minutoli M., V.G. Castellana, C. Tan, J.B. Manzano Franco, V.C. Amatya, A. Tumeo, and D. Brooks, et al. 2020. SODA: a New Synthesis Infrastructure for Agile Hardware Design of Machine Learning Accelerators. In Proceedings of the 39th International Conference On Computer-Aided Design (ICCAD 2020), November 2-5, 2020, Virtual Conference, edited by Y. Xie, Article No. 98. New York, New York:Association for Computing Machinery. PNNL-SA-155356. doi:10.1145/3400302.3415781