Title :
System design using the MIPS R3000/3010 RISC chipset
Author :
Riordan, T. ; Grewal, G.P. ; Hsu, S. ; Kinsel, J. ; Libby, J. ; March, R. ; Mills, M. ; Ries, P. ; Scofield, R.
Author_Institution :
MIPS Comp. Syst. Inc., Sunnyvale, CA, USA
fDate :
Feb. 27 1989-March 3 1989
Abstract :
By designing a system specifically targeted to support a high-performance RISC processor it is possible to achieve total system performance in balance with processor performance. However, to achieve this goal careful attention must be paid to the interactions between processor, memory, and I/O. In particular, the memory system must be designed to handle the voracious appetite of the RISC processor without starving I/O. The authors describe a third-generation RISC processor with advanced attributes resulting in a cycles per instruction average of 1.25 and the memory and I/O system which support it. Additionally, they describe attributes that allow the implementation of multiple-processor systems with cache coherency.<>
Keywords :
reduced instruction set computing; workstations; I/O; MIPS R3000/3010 RISC chipset; cache coherency; memory; multiple processors; system design; total system performance; Assembly; Circuit simulation; Computational modeling; High performance computing; Operating systems; Optimizing compilers; Program processors; Read-write memory; Reduced instruction set computing; Simulated annealing;
Conference_Titel :
COMPCON Spring '89. Thirty-Fourth IEEE Computer Society International Conference: Intellectual Leverage, Digest of Papers.
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-8186-1909-0
DOI :
10.1109/CMPCON.1989.301982
