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Vol: 4(4) No: 1 / March 1994 A Solution for Implementing a Reconfigurable Parallel System by Modifying the Interconnection Network Mircea Popa Facultatea de Calculatoare si Automatica, Universitatea Tehnica Timisoara, V. Parvan nr. 1, 1900, Timisoara, Romania Keywords: reconfigurable parallel system Abstract The paper treats the reconfiguration problem for parallel systems by modifying the interconnection network. After describing two known solution for reconfiguring a parallel system, the author presents his own solution for implementing a reconfigurable parallel system. A comparison is made between a known solution, Kartashev and Kartashev being the authors and the new one. References [1] D. K. Pradhan, Dynamically Restructurable Fault – Tolerant Processor Network Arhitecture, in: IEEE transaction on computers, May 1985. [2] S. I. Kartashev, S. P. Kartashev, A Multicomputer System with Dynamic Arhitecture, in: IEEE transactions on computers, October 1979. [3] S. P. Kartashev, S. I. Kartashev, Adaptable Software for Dynamic Architecture, in: Computer, February 1986. [4] S. P. Kartashev, S. I. Kartashev, Analysis and Synthesis of Dynamic Multicomputer Networks that Reconfigure into Rings, Trees and Stars, in: IEE transactions on computers, July 1987. [5] S. I. Kartashev, S. P. Kartashev, Problems of Designing Supersystems with Dynamic Architectures, in: IEE transactions on computers, December, 1980. [6] S. P. Kartashev, S. I. Kartashev, Data Exchange Optimiationin reconfigurable Binary Trees, in: IEE transactions on computers, March, 1986. [7] S. Ylamanchili, J. K. Aggarwall, Reconfiguration strategies for Parallel Architectures, in: Computer, December, 1985. [8] C. K. Baru, S., Y. W. Su, The Architecture of SM3: A Dynamically Partitionable Bulticomputer System, in: IEE transactions on computers, September, 1986. [9] M. Popa, Des possinlites de reconfiguration des reseaux de type arbre, anneau et etoile, in: Le Bulletin Scientifique et Technique de l’Universite Technique de Timisoara, 1994. |