Computer - Special issue: GaAs: a technology for environmental extremes
Signal Processors Based Upon GaAs ICs: The Need for a Wholistic Design Approach
Computer - Special issue: GaAs: a technology for environmental extremes
Issues of Importance in Designing GaAs Microcomputer Systems
Computer - Special issue: GaAs: a technology for environmental extremes
Computer design for gallium arsenide technology
Computer architecture
A DCFL E/D-MESFET GaAs Experimental RISC Machine
IEEE Transactions on Computers
Cache evaluation and the impact of workload choice
ISCA '85 Proceedings of the 12th annual international symposium on Computer architecture
Design of a high performance VLSI processor
Design of a high performance VLSI processor
Dynamically Trading Frequency for Complexity in a GALS Microprocessor
Proceedings of the 37th annual IEEE/ACM International Symposium on Microarchitecture
Hi-index | 14.98 |
The results of a study of the instruction pipeline design for a 32-b single-chip GaAs microprocessor are presented. The authors introduce nine candidate solutions for the instruction pipeline, define a set of technology-dependent and application-related parameters, and present the results of the comparative performance evaluation. Important differences between GaAs and silicon, which are relevant for the design of an instruction pipeline, are described. The authors determine the quantitative differences between various candidate solutions. The superb performance of the pipelined memory pipeline in all environments is demonstrated.