TITAC-2: an asynchronous 32-bit microprocessor based on scalable-delay-insensitive model
ICCD(1997)
摘要
Asynchronous design has a potential of solving many difficulties, such as clock skew and power consumption, which synchronous counterpart suffers with current and future VLSI technologies. This paper proposes a new delay model, the scalable-delay-insensitive (SDI) model, for dependable and high-performance asynchronous VLSI system design. Then, based on the SDI model, the paper presents the design, chip implementation, and evaluation results of a 32-bit asynchronous microprocessor TITAC-2 whose instruction set is based on the MIPS R2000. The measured performance of TITAC-2 is 52.3 MIPS using the Dhrystone V2.1 benchmark.
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关键词
future vlsi technology,new delay model,asynchronous 32-bit microprocessor,clock skew,high-performance asynchronous vlsi system,asynchronous design,dhrystone v2,mips r2000,32-bit asynchronous microprocessor titac-2,scalable-delay-insensitive model,sdi model,chip implementation,system design,chip,very large scale integration,cmos technology,circuits,32 bit,information science
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