This paper presents model of hierarchical discrete-event simulation algorithm running on a hypercube architecture. We assume a static allocation of system components to processors in the hypercube. We also assume a global clock algorithm, with an event-based time increment. Following development of the performance model, we describe an application of the model in the area of digital systems simulation. Hierarchical levels included are gate level (NAND, NOR, and NOT gates) and MSI level (multiplexors, shift registers, etc.). Example values (gathered from simulations running on standard von Neumann architectures) are provided at the model inputs to show the effect of different model parameters and partitioning strategies on the simulation per...
The parallel approach to speeding up simulation is studied, specifically the simulation of digital L...
In this research, the feasibility of using parallel discrete-event simulation techniques to run logi...
Abstract. In this paper we explore computing max-plus algebra operations and discrete event simulati...
The hierarchical abstract simulator is a multicomponent, multilevel discrete event model where each ...
The purpose of this research is to design and implement an object-oriented discrete-event simulation...
Simulation needs for design analysis, verification, and testing have become increasingly important a...
Simulation consists of exercising the representation of a design on a general purpose computer. It d...
A hierarchical timing simulation model has been developed to deal with VLSI designs at any level of...
The synthesis of software algorithms and their hardware implementation require the use of efficient ...
Discrete-event models depict systems where a discrete state is repeatedly altered by instantaneous c...
Heterogeneous multiprocessing is the future of chip design with the potential for tens to hundreds o...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
Discrete-event simulation is a commonly used technique to model changes within a complex physical sy...
A number of recent articles have focused on the design of high speed discrete-event simulation (DES)...
Parallelization of VLSI-simulation exploiting model-inherent parallelism is a promising way to accel...
The parallel approach to speeding up simulation is studied, specifically the simulation of digital L...
In this research, the feasibility of using parallel discrete-event simulation techniques to run logi...
Abstract. In this paper we explore computing max-plus algebra operations and discrete event simulati...
The hierarchical abstract simulator is a multicomponent, multilevel discrete event model where each ...
The purpose of this research is to design and implement an object-oriented discrete-event simulation...
Simulation needs for design analysis, verification, and testing have become increasingly important a...
Simulation consists of exercising the representation of a design on a general purpose computer. It d...
A hierarchical timing simulation model has been developed to deal with VLSI designs at any level of...
The synthesis of software algorithms and their hardware implementation require the use of efficient ...
Discrete-event models depict systems where a discrete state is repeatedly altered by instantaneous c...
Heterogeneous multiprocessing is the future of chip design with the potential for tens to hundreds o...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
Discrete-event simulation is a commonly used technique to model changes within a complex physical sy...
A number of recent articles have focused on the design of high speed discrete-event simulation (DES)...
Parallelization of VLSI-simulation exploiting model-inherent parallelism is a promising way to accel...
The parallel approach to speeding up simulation is studied, specifically the simulation of digital L...
In this research, the feasibility of using parallel discrete-event simulation techniques to run logi...
Abstract. In this paper we explore computing max-plus algebra operations and discrete event simulati...