From software threads to parallel hardware in high-level synthesis for FPGAs

Abstract

We describe the support within high-level hardware synthesis (HLS) for two standard software parallelization paradigms: Pthreads and OpenMP. Parallel code segments, as specified in the software, are automatically synthesized by our HLS tool into parallel-operating hardware sub-circuits. Both data parallelism and task-level parallelism are supported, as is the combined use of both Pthreads and OpenMP. Moreover, our work also provides automated synthesis for commonly occurring synchronization constructs within the Pthreads/OpenMP library: mutual exclusion (mutex) and barriers. Essentially, our framework allows a software engineer to specify parallelism to an HLS tool using methodologies they are likely to be familiar with. An experimental study considers a variety of parallelization scenarios, including demonstrated speedups of up to 12.9× in circuit wall-clock time for the 16-thread case and area-delay product as low as 12% (~8× improvement) when using 4 pipelined hardware threads.