Title :
A Low-Energy Set-Associative I-Cache Design with Last Accessed Way Based Replacement and Predicting Access Policy
Author :
Li Zhengxing ; Yang Quansheng
Author_Institution :
Sch. of Comput. Sci. & Eng., Southeast Univ., Nanjing, China
Abstract :
Predicting access is known as an approach to reduce the set-associative I-cache´s energy consumption. This paper proposes a LAW (Last Accessed Way) based low-energy I-cache, taking both the replacement and predicting access policy into account. By replacing and accessing instructions speculatively following the last accessed way, the PHR (predict-hit-rate) is significantly improved. Simulator results show that compared with the conventional LRU (Least Recently Used) replacement based set-associative I-cache, such a 16 KB, 4-way and 32B-line-size I-cache can reduce about 47%~57% energy consumption, with only 2.63% performance overhead. In contrast with the way-prediction cache, the proposed I-cache could improve nearly 5.32% performance overhead and 5.95% energy consumption at little cost of hardware.
Keywords :
cache storage; energy consumption; memory architecture; PHR; access policy prediction; energy consumption; last accessed way based replacement; low-energy set-associative I-cache design; predict hit rate; Central Processing Unit; Computer science; Costs; Decoding; Design engineering; Energy consumption; Hardware; Information science; Information technology; Microprocessors;
Conference_Titel :
Information Science and Engineering (ICISE), 2009 1st International Conference on
Conference_Location :
Nanjing
Print_ISBN :
978-1-4244-4909-5
DOI :
10.1109/ICISE.2009.56
