Generative communication in Linda
ACM Transactions on Programming Languages and Systems (TOPLAS)
Characterizing the parallel performance of a large-scale, particle-in-cell plasma simulation code
Concurrency: Practice and Experience
Strand: new concepts in parallel programming
Strand: new concepts in parallel programming
Performance of a particle-in-cell plasma simulation code on the BBN TC20000
Concurrency: Practice and Experience
The Organization of Computations for Uniform Recurrence Equations
Journal of the ACM (JACM)
Assembly Environment for Development of Application Parallel Program
HPCN Europe 1994 Proceedings of the nternational Conference and Exhibition on High-Performance Computing and Networking Volume II: Networking and Tools
Realizing an Equational Specification
Proceedings of the 8th Colloquium on Automata, Languages and Programming
Distributed communication via global buffer
PODC '82 Proceedings of the first ACM SIGACT-SIGOPS symposium on Principles of distributed computing
ACM SIGPLAN Notices
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The main features of an integrated system to support the technology of application problem parallelization, development (assembly) of parallel programs, and tuning to available resources of specific multiprocessor system in the course of their execution are presented. Also the notion of functionality is discussed. Contrary to partitioning, the assembly approach supports synthesis (in a broad sense) of the whole problem solution on the basis of elementary ready made fragments. It enable us to use the unified technology for the solution of wide range application problems (in seismic data and image processing, nuclear physics, modeling of natural phenomena etc.) in the framework of the same parallel programming system. This approach is a generalization of our experience in solution of big-size problems.