A new massively parallel algorithm is presented for simulating large asymmetric circuit-switched networks, controlled by a randomized-routing policy that includes trunk-reservation. A single instruction multiple data (SIMD) implementation is described, and corresponding experiments on a 16384 processor MasPar parallel computer are reported. A multiple instruction multiple data (MIMD) implementation is also described, and corresponding experiments on an Intel IPSC/860 parallel computer, using 16 processors, are reported. By exploiting parallelism, our algorithm increases the possible execution rate of such complex simulations by as much as an order of magnitude
Neural networks are a very useful tool for analyzing and modeling complex real world systems. Applyi...
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
In a system containing high-speed interconnects, the presence of a large number of coupled lines ser...
Massively parallel algorithms are presented for solving systems of fixed point equations, modeling s...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
The parallel approach to speeding up simulation is studied, specifically the simulation of digital L...
1 Methods for simulating multistage interconnection networks using massively parallel SIMD computers...
Methods for simulating multistage interconnection networks using massively parallel SIMD computers a...
Fast, efficient parallel algorithms are presented for discrete event simulations of dynamic channel ...
The Chandy-Misra-Bryant (CMB) model has been applied to logic simulation of synchronous sequential c...
©2000 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
Abstract—Random networks are widely used for modeling and analyzing complex processes. Many mathemat...
Computer-aided circuit analysis, or circuit simulation, is widely used in the area of circuit design...
Simulations of high speed network protocols are very CPU intensive operations requiring very long ru...
Recently Rajasekaran and Ross [1] presented an algorithm that takes an expected 0(1) time to generat...
Neural networks are a very useful tool for analyzing and modeling complex real world systems. Applyi...
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
In a system containing high-speed interconnects, the presence of a large number of coupled lines ser...
Massively parallel algorithms are presented for solving systems of fixed point equations, modeling s...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
The parallel approach to speeding up simulation is studied, specifically the simulation of digital L...
1 Methods for simulating multistage interconnection networks using massively parallel SIMD computers...
Methods for simulating multistage interconnection networks using massively parallel SIMD computers a...
Fast, efficient parallel algorithms are presented for discrete event simulations of dynamic channel ...
The Chandy-Misra-Bryant (CMB) model has been applied to logic simulation of synchronous sequential c...
©2000 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
Abstract—Random networks are widely used for modeling and analyzing complex processes. Many mathemat...
Computer-aided circuit analysis, or circuit simulation, is widely used in the area of circuit design...
Simulations of high speed network protocols are very CPU intensive operations requiring very long ru...
Recently Rajasekaran and Ross [1] presented an algorithm that takes an expected 0(1) time to generat...
Neural networks are a very useful tool for analyzing and modeling complex real world systems. Applyi...
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
In a system containing high-speed interconnects, the presence of a large number of coupled lines ser...