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ICPP
1987
IEEE

Performance of VLSI Engines for Lattice Computations

14 years 3 months ago
Performance of VLSI Engines for Lattice Computations
Abstract. We address the problem of designing and building efficient custom Vl.Sl-besed processors to do computations on large multi-dimensional lattices. The design tradeoffs for two architectures which provide practical engines for lattice updates are deri ved and analyzed. We find that I/O constit utes the principal bottleneck of processors designed for lattice computations, and we derive upp er bounds on throughput for lattice updates based on Hong and Kung's graph-pebbling argument that models I/ O. In particular, we show that R = O(BS1/ d ), where R is the site update rate, B is the main memory bandwidth, S is the processor sto rage, and d is the dimension of the lattice.
Steven D. Kugelmass, Kenneth Steiglitz, Richard K.
Added 28 Aug 2010
Updated 28 Aug 2010
Type Conference
Year 1987
Where ICPP
Authors Steven D. Kugelmass, Kenneth Steiglitz, Richard K. Squier
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