DocumentCode
2780192
Title
VLSI costs of arithmetic parallelism: a residue reverse conversion perspective
Author
Bhardwaj, M. ; Srikanthan, T. ; Clark, C.T.
Author_Institution
Microelectron. Design Center, Siemens Microelectron. (Asia Pacific), Singapore
fYear
1999
fDate
1999
Firstpage
176
Lastpage
184
Abstract
This paper reports how VLSI cost metrics (area, delay, power) of residue reverse converters scale with the cardinality and dynamic range of moduli sets. The study uses CMAC reverse converters, reported previously by the authors to be the most efficient known to date in terms of area and delay. In all, 134 reverse converters with dynamic ranges from 32 to 120 bits and set cardinalities ranging from 4 to 20 are actually constructed and analyzed. It is seen that area, delay and power costs are cardinality insensitive once the cardinality exceeds a threshold (usually between five to eight). For cardinalities beyond this threshold, conversion costs are essentially dynamic range dependent. This insensitivity is explained in detail by noting the counterbalancing effects of the various sub-units of a CMAC reverse converter. Since practical implementations of RNS usually employ cardinalities beyond the abovementioned thresholds, the significance of this study is its conclusion that increasing the set cardinality in most implementations will have a marginal, if any, effect on VLSI reverse conversion costs
Keywords
VLSI; residue number systems; 32 to 120 bit; CMAC reverse converters; VLSI cost metrics; area cost; arithmetic parallelism; cardinality; delay cost; dynamic range; moduli sets; power cost; residue reverse conversion; residue reverse converters; sub-units; Arithmetic; Asia; Costs; Digital signal processing; Embedded system; Microelectronics; Process control; Signal design; Signal processing; Very large scale integration;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Arithmetic, 1999. Proceedings. 14th IEEE Symposium on
Conference_Location
Adelaide, SA
ISSN
1063-6889
Print_ISBN
0-7695-0116-8
Type
conf
DOI
10.1109/ARITH.1999.762843
Filename
762843
Link To Document