Design and performance of compressed interconnects for high performance servers

Abstract

As microprocessors scale rapidly in frequency, the design of fast and efficient interconnects becomes extremely important for low latency data access and high performance. We evaluate a technique for reducing the interconnect width by exploiting the spatial and temporal locality in communication transfers (addresses & data). The width reduction implies a number of other advantages including higher operating frequency, reduced pin-count, lower chip & board cost, etc. We evaluate the effectiveness of the proposed scheme by performing trace-driven simulations for two well-known commercial server workloads (SPECWeb99 and TPC-C). We also study the sensitivity of the compression hit ratio with respect to the number of bits compressed, size of the encoding/decoding table used and the replacement policy. The results indicate that the proposed technique has a potential to reduce address bus width in most cases and data bus widths in some cases while maintaining equal or better performance than in the uncompressed case.