Title :
The Potential Energy Efficiency of Vector Acceleration
Author :
Lemuet, Christophe ; Sampson, Jack ; Collard, J.-F. ; Jouppi, Norm
Author_Institution :
Hewlett-Packard Labs., Palo Alto, CA
Abstract :
Energy efficiency of computation is quickly becoming a key problem from the chip through the data center. This paper presents the first quantitative study of the potential energy efficiency of vector accelerators. We propose and study a vector accelerator architecture suitable for implementation in a 70 nm technology. The vector architecture has a high-bandwidth on-chip cache system coupled to 16 independent memory channels. We show that such an accelerator can achieve speedups of 10X or more on loop kernels in comparison to a quad-issue superscalar uniprocessor, while using less energy. We also introduce run-ahead lanes, a complexity and energy efficient means of tolerating variable latency from crossbar contention, cache bank conflicts, cache misses, and the memory system. Run-ahead lanes only synchronize on dependencies or when explicitly directed
Keywords :
cache storage; microprocessor chips; parallel architectures; system-on-chip; vector processor systems; high-bandwidth on-chip cache system; potential energy efficiency; run-ahead lane; vector accelerator architecture; Acceleration; Computer architecture; Energy efficiency; Graphics; High performance computing; Laboratories; Microprocessors; Milling machines; Permission; Potential energy;
Conference_Titel :
SC 2006 Conference, Proceedings of the ACM/IEEE
Conference_Location :
Tampa, FL
Print_ISBN :
0-7695-2700-0
Electronic_ISBN :
0-7695-2700-0
