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A study of single-chip processor/cache organizations for large numbers of transistors

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3 Author(s)
Farrens, M. ; Dept. of Comput. Sci., California Univ., Davis, CA, USA ; Tyson, G. ; Pleszkun, A.R.

Presents a trace-driven simulation-based study of a wide range of cache configurations and processor counts. This study was undertaken in an attempt to help answer the question of how best to allocate large numbers of transistors, a question that is rapidly increasing in importance as transistor densities continue to climb. At what point does continuing to increase the size of the on-chip first level cache cease to provide sufficient increases in hit rate and become prohibitively difficult to access in a single cycle? In order to compare different configurations, the concept of an Equivalent Cache Transistor is presented. Results indicate that the access time of the first-level data cache is more important than the size. In addition, it appears that once approximately 15 million transistors become available, a two processor configuration is preferable to a single processor with correspondingly larger caches

Published in:

Computer Architecture, 1994., Proceedings the 21st Annual International Symposium on

Date of Conference:

18-21 Apr 1994

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