Title :
Tag skipping technique using WTS buffer for optimal low power cache design
Author :
Akaaboune, Adil ; Botros, Nazeih ; Alghazo, Jaafar
Author_Institution :
Dept. of Electr. & Comput. Eng., Southern Illinois Univ., Carbondale, IL, USA
Abstract :
In this paper we present a robust technique to reduce the power consumption for a 4-way set-associativity cache. Our algorithm is a modification of the technique proposed by H. Choi et al. (2000) which allows skipping tag look-ups to achieve a better power consumption design. Previous work shows that implementing tag-skipping technique on a Not-Load-on-write-miss architecture, though reduces the overall power consumption, yet still consumes significant power in write miss by frequently accessing main memory. We propose the use of a write tag-skipping (WTS) buffer (WTSB) to reduce the number of write misses by 50-85% therefore reducing accesses to more power consuming devices such as main memory. This results in shifting all tag-skipping operations occurring during a miss to a hit.
Keywords :
buffer circuits; cache storage; low-power electronics; power consumption; WTS buffer; low power cache design; not-load-on-write-miss architecture; optimal cache design; power consumption reduction; robust technique; set-associativity cache; tag look-ups; tag skipping; victim cache; write miss; Algorithm design and analysis; Bandwidth; Cache memory; Cellular phones; Costs; Energy consumption; High performance computing; Microprocessors; Robustness; Technical Activities Guide -TAG;
Conference_Titel :
Memory Technology, Design and Testing, 2004. Records of the 2004 International Workshop on
Print_ISBN :
0-7695-2193-2
DOI :
10.1109/MTDT.2004.1327978
