Abstract :
The implementation of a coherence protocol and the cache-memory architecture for a Clipper-based multiprocessor prototype is described. The Clipper was chosen for its high-performance features: fast clock speed, internal caches, internal dual buses, sophisticated pipelining system, and integrated execution units. Previous experience in which a common bus caused the main performance bottleneck motivated the use of a private cache for each processor. The coherence protocol, called reduced state transitions (RST), is a modification of the Dragon protocol. In particular, the high performance of RST results from sophisticated architectural solutions, such as the use of buffers and overlapping a processor operation and a bus transaction. Additional performance improvement stems from the balance between several cache factors and careful tuning obtained by means of a simulation phase.<>
Keywords :
buffer storage; memory architecture; multiprocessing systems; protocols; Clipper-based; RST cache memory design; coherence protocol; highly coupled multiprocessor system; integrated execution units; internal dual buses; pipelining system; reduced state transitions; simulation phase; Access protocols; Cache memory; Clocks; Computer architecture; High performance computing; Microprocessors; Multiprocessing systems; Prototypes; Registers; System performance;
