Title :
Way Stealing: A Unified Data Cache and Architecturally Visible Storage for Instruction Set Extensions
Author :
Kluter, Theo ; Brisk, Philip ; Charbon, E. ; Ienne, Paolo
Author_Institution :
Microlab, Bern Univ. of Appl. Sci., Biel, Switzerland
Abstract :
Way Stealing is a simple architectural modification to a cache-based processor that increases the data bandwidth to and from application-specific instruction set extensions (ISEs), which increase performance and reduce energy consumption. Way Stealing offers higher bandwidth than interfacing the ISEs the processor´s register file, and eliminates the need to allocate separate memories called architecturally visible storage (AVS) that are dedicated to the ISEs, and to ensure coherence between the AVS memories and the processor´s data cache. Our results show that Way Stealing is competitive in terms of performance and energy consumption with other techniques that use AVS memories in conjunction with a data cache.
Keywords :
cache storage; instruction sets; AVS memory; ISEs; application-specific instruction set extensions; architecturally visible storage; cache-based processor; energy consumption reduction; processor data cache; processor register file; unified data cache; way stealing; Coherence; Data structures; Hardware; Memory management; Pipelines; Prefetching; Registers; Architecturally visible storage (AVS); customizable processor; data cache; instruction set extension (ISE); way stealing;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2012.2236689
