Title :
(λT) Complexity Measures for VLSI Computations in Constant Chip Area
Author :
Card, Howard C. ; Gulak, P. Glenn ; McLeod, Robert D. ; Pries, Werner
Author_Institution :
Department of Electrical Engineering, University of Manitoba, Winnipeg, Man. R3T 2N2, Canada.
Abstract :
The computational complexity measures introduced here are motivated by the trend to higher VLSI integration levels (rather than increased chip area) to accomplish solutions to larger problem instances. It seems that the increase in the computational power of VLSI circuits can be mainly attributed to the reduction in the minimum feature size rather than to an increase in the chip area. In view of this, we present a constant area perspective and consider the discrete Fourier transform and related problems in a VLSI model that has λand T as its resources. Advantages of the mesh algorithm over the shuffle-exchange algorithm in the computation time for the DFT are shown to arise from an upper bound on current density in the wires, which we suggest must be considered in any VLSI grid model.
Keywords :
Area measurement; Computational complexity; Current density; Discrete Fourier transforms; Grid computing; Integrated circuit measurements; Semiconductor device measurement; Upper bound; Very large scale integration; Wires; Algorithms, A-- T- λ complexity, communication graphs, computational action, energy, and velocity, DFT, Fourier transform, grid models, mesh-connected computers, parallel computation, shuffle-exchange connected computers, VLSI.;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1987.5009456
