1986
DOI: 10.1117/12.936891
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The Residue Number System For VLSI Signal Processing

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1989
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Cited by 3 publications
(2 citation statements)
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“…Each mod board corresponds to an outer channel and is further decomposed into four inner channels. These inner channels are implemented with full-custom systolic VLSI chips, each containing 32 multiply-and-accumulate cells operating mod p [8]. Each sum-of-products is computed in-place, a useful feature for dot-product calculations longer than the number of filter taps, such as in window correlation.…”
Section: Algebraic-integer Requantizationmentioning
confidence: 99%
“…Each mod board corresponds to an outer channel and is further decomposed into four inner channels. These inner channels are implemented with full-custom systolic VLSI chips, each containing 32 multiply-and-accumulate cells operating mod p [8]. Each sum-of-products is computed in-place, a useful feature for dot-product calculations longer than the number of filter taps, such as in window correlation.…”
Section: Algebraic-integer Requantizationmentioning
confidence: 99%
“…Each board corresponds to an outer channel, as shown in figure 2, and is further decomposed into four inner channels. These inner channels are implemented with full-custom systolic VLSI chips, each containing 32 multiply-and-accumulate cells operating modulo 17 and modulo 31 [9].…”
Section: A 128-tap Fir Filtermentioning
confidence: 99%