The project has targeted the full spectrum of tradeoffs from algorithms, circuit optimizations, system issues, and development of metrics to characterize ...
Feb 28, 1998 · The project has targeted the full spectrum of tradeoffs from algorithms, circuit optimizations, system issues, and development of metrics to ...
The SNAP Project: Building Validated Floating Point Units - НИЯУ МИФИ
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The project has targeted the full spectrum of tradeoffs from algorithms, circuit optimizations, system issues, and development of metrics to characterize ...
Hesham A. Al-Twaijry, Stuart F. Oberman, Steve T. Fu, Michael J. Flynn: The SNAP Project: Building Validated Floating Point. J. Univers. Comput. Sci.
This paper presents results of the Stanford subnanosecond arithmetic processor (SNAP) research effort in the design of hardware for floating point addition, ...
Sep 25, 1997 · The SNAP project has looked into many areas of the design of an arithmetic processor with the aim of producing validated designs that span ...
The SNAP Project: Building Validated Floating Point Units ; dc.creator, Oberman,Stuart ; dc.creator, Fu,Steve ; dc.creator, Flynn,Michael ; dc.date, 1998 ; dc.date.
The SNAP project: design of floating point arithmetic units
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The paper presents results of the Stanford subnanosecond arithmetic processor (SNAP) research effort in the design of hardware for floating point addition, ...
Missing: Building Validated
Specific improvements in clock- ing methods, floating-point addition algorithms, floating- ... building blocks of scientific computation and signal pro- cessing.
The Stan- ford subnanosecond arithmetic processor (SNAP) research effort has studied the design of algorithms and implementa- tions for high performance IEEE ...