论文信息 - The Performance of Multimicrocomputer Networks Supporting Dynamic Workloads

The Performance of Multimicrocomputer Networks Supporting Dynamic Workloads

Because a group of interconnected microcomputers may not share any globally addressable memory, it is crucial that a multimicrocomputer interconnection network capable of efficiently supporting message passing be found. Using task precedence graphs to represent the time varying behavior of parallel computations, both the behavior of interconnection networks under varying workloads and the feasibility of distributed scheduling are investigated.

Daniel A. Reed

[1] Daniel Allen Reed. Performance based design and analysis of multimicrocomputer networks , 1983 .

[2] Marshall C. Pease,et al. The Indirect Binary n-Cube Microprocessor Array , 1977, IEEE Transactions on Computers.

[3] Franco P. Preparata,et al. The cube-connected-cycles: A versatile network for parallel computation , 1979, 20th Annual Symposium on Foundations of Computer Science (sfcs 1979).

[4] K. Mani Chandy,et al. Distributed Simulation: A Case Study in Design and Verification of Distributed Programs , 1979, IEEE Transactions on Software Engineering.

[5] Herb Schwetman,et al. Cost-Performance Bounds for Multimicrocomputer Networks , 1983, IEEE Transactions on Computers.

[6] F. Warren Burton,et al. Executing functional programs on a virtual tree of processors , 1981, FPCA '81.

[7] P. Wilson. Programming system builds multiprocessor software , 1983 .

[8] Larry D. Wittie,et al. Wave Scheduling: Distributed Allocation of Task Forces in Network Computers , 1981, ICDCS.

[9] Larry D. Wittie,et al. Communication Structures for Large Networks of Microcomputers , 1981, IEEE Transactions on Computers.