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A stochastic wire-length distribution for gigascale integration (GSI). II. Applications to clock frequency, power dissipation, and chip size estimation
240
Citations
8
References
1998
Year
Multilevel Wiring NetworksEngineeringVlsi DesignPower Optimization (Eda)Computer ArchitectureNetwork AnalysisInterconnection Network ArchitectureStochastic Wire-length DistributionInterconnect (Integrated Circuits)Physical Design (Electronics)Chip Size EstimationSystems EngineeringPt.i See Ibid.Network OptimizationGigascale IntegrationElectrical EngineeringComputer EngineeringInterconnection NetworkNetwork On ChipMicroelectronicsSignal ProcessingMinimum Chip SizeNetwork ScienceCircuit DesignVlsi Architecture
For pt.I see ibid., vol.45, no.3, pp.580-9 (Mar. 1998). Based on Rent's Rule, a well-established empirical relationship, a complete wire-length distribution for on-chip random logic networks is used to enhance a critical path model; to derive a preliminary dynamic power dissipation model; and to describe optimal architectures for multilevel wiring networks that provide maximum interconnect density and minimum chip size.
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