Title :
Buffer-Integrated-Cache: A cost-effective SRAM architecture for handheld and embedded platforms
Author :
Fajardo, Carlos Flores ; Fang, Zhen ; Iyer, Ravi ; Garcia, German Fabila ; Lee, Seung Eun ; Zhao, Li
Abstract :
In an SoC, building local storage in each accelerator is area inefficient due to the low average utilization. In this paper, we present design and implementation of Buffer-integrated-Caching (BiC), which allows many buffers to be instantiated simultaneously in caches. BiC enables cores to view portions of the SRAM as cache while accelerators access other portions of the SRAM as private buffers. We demonstrate the cost-effectiveness of BiC based on a recognition MPSoC that includes two Pentiumℒ cores, an Augmented Reality accelerator and a speech recognition accelerator. With 3% extra area added to the baseline L2 cache, BiC eliminates the need to build 215KB dedicated SRAM for the accelerators, while increasing total cache misses by no more than 0.3%.
Keywords :
SRAM chips; cache storage; multiprocessing systems; system-on-chip; L2 cache; MPSoC; Pentiumℒ cores; SRAM architecture; augmented reality accelerator; buffer-integrated-cache; embedded platforms; handheld platforms; speech recognition accelerator; Hardware; Indexes; Random access memory; Software; Speech recognition; Substrates; System-on-a-chip; Accelerator; Cache; Memory; System-on-Chip;
Conference_Titel :
Design Automation Conference (DAC), 2011 48th ACM/EDAC/IEEE
Conference_Location :
New York, NY
Print_ISBN :
978-1-4503-0636-2
