On high-bandwidth data cache design for multi-issue processors

Highly aggressive multi-issue processor designs of the past few years and projections for the next decade require that we redesign the operation of the cache memory system. The number of instructions that must be processed (including correctly predicted ones) will approach 16 or more per cycle. Sinc...

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Bibliographic Details
Main Authors: Rivers, J.A., Tyson, G.S., Davidson, E.S., Austin, T.M.
Format: Conference Proceeding
Language:English
Subjects:
Bandwidth
Clocks
Computer architecture
Costs
Laboratories
Microcomputers
Microprocessors
Process design
Rivers
Time division multiplexing
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Summary:Highly aggressive multi-issue processor designs of the past few years and projections for the next decade require that we redesign the operation of the cache memory system. The number of instructions that must be processed (including correctly predicted ones) will approach 16 or more per cycle. Since memory operations account for about a third of all instructions executed these systems will have to support multiple data references per cycle. We explore reference stream characteristics to determine how best to meet the need for ever increasing access rates. We identify limitations of existing multi-ported cache designs and propose a new structure, the locality-based interleaved cache (LBIC), to exploit the characteristics of the data reference stream while approaching the economy of traditional multi-bank cache design. Experimental results show that the LBIC structure is capable of outperforming current multi-ported approaches.
ISSN:1072-4451
DOI:10.1109/MICRO.1997.645796