Title :
The Accelerator Store framework for high-performance, low-power accelerator-based systems
Author :
Lyons, Michael J. ; Hempstead, Mark ; Wei, Gu-Yeon ; Brooks, David
Abstract :
Hardware acceleration can increase performance and reduce energy consumption. To maximize these benefits, accelerator- based systems that emphasize computation on accelerators (rather than on general purpose cores) should be used. We introduce the “accelerator store,” a structure for sharing memory between accelerators in these accelerator-based systems. The accelerator store simplifies accelerator I/O and reduces area by mapping memory to accelerators when needed at runtime. Preliminary results demonstrate a 30% system area reduction with no energy overhead and less than 1% performance overhead in contrast to conventional DMA schemes.
Keywords :
low-power electronics; memory architecture; shared memory systems; storage management; accelerator store framework; energy consumption; hardware acceleration; high-performance low-power accelerator-based system; memory mapping; memory sharing; Acceleration; Memory management; Program processors; Random access memory; Real time systems; Throughput; Transform coding; General; Heterogeneous (hybrid) systems; Real-time and embedded systems;
Journal_Title :
Computer Architecture Letters
DOI :
10.1109/L-CA.2010.16
