During the past decade there has been a tremendous surge in understanding the nature of parallel computation. A number of parallel computers are commercially available. However, there are some problems in developing application programs on these computers;This dissertation considers various issues involved in implementing parallel algorithms on Multiple Instruction Multiple Data (MIMD) machines with a bounded number of processors. Strategies for implementing divide-and-conquer algorithms on MIMD machines are proposed. Results linking time complexity, communication complexity and the complexity of divide-and-combine functions of divide-and-conquer algorithms are analyzed. An efficient criterion for partitioning a parallel program is proposed...
Divide{and{conquer algorithms obtain the solution to a problem by recursively dividing it into subpr...
Mapping of parallel programs onto parallel computers for efficient execution is a fundamental proble...
We develop a generic divide and conquer algorithm for a parallel tree machine. From the generic algo...
this paper we evaluate the performance of several parallel divide--and--conquer algorithms which are...
Divide-and-conquer is an important algorithm strategy, but it is not widely used in image processing...
Algorithms with a divide-and-conquer structure are suitable candidates for parallelization. The idea...
Abstract. In this paper we present a system that automatically partitions sequential divide{and{conq...
[[abstract]]We discuss how to design parallel algorithms based upon the divide-and-conquer strategy....
Abstract: "This paper studies the relationship between parallel computation cost and communication c...
AbstractA strategy for designing divide-and-conquer algorithms that was originally presented in a pr...
A tree machine consists of a number of processors (each with its own memory) mutually connected via ...
Recent advances in microelectronics have brought closer to feasibility the construction of computer...
Multicore systems are widely gaining popularity because of the significant avail-ability and perform...
Thesis (Ph. D.)--University of Washington. 1979. Subsequently published in the UR CSD technical repo...
Multicomputers are cost-effective alternatives to the conventional supercomputers. Contemporary proc...
Divide{and{conquer algorithms obtain the solution to a problem by recursively dividing it into subpr...
Mapping of parallel programs onto parallel computers for efficient execution is a fundamental proble...
We develop a generic divide and conquer algorithm for a parallel tree machine. From the generic algo...
this paper we evaluate the performance of several parallel divide--and--conquer algorithms which are...
Divide-and-conquer is an important algorithm strategy, but it is not widely used in image processing...
Algorithms with a divide-and-conquer structure are suitable candidates for parallelization. The idea...
Abstract. In this paper we present a system that automatically partitions sequential divide{and{conq...
[[abstract]]We discuss how to design parallel algorithms based upon the divide-and-conquer strategy....
Abstract: "This paper studies the relationship between parallel computation cost and communication c...
AbstractA strategy for designing divide-and-conquer algorithms that was originally presented in a pr...
A tree machine consists of a number of processors (each with its own memory) mutually connected via ...
Recent advances in microelectronics have brought closer to feasibility the construction of computer...
Multicore systems are widely gaining popularity because of the significant avail-ability and perform...
Thesis (Ph. D.)--University of Washington. 1979. Subsequently published in the UR CSD technical repo...
Multicomputers are cost-effective alternatives to the conventional supercomputers. Contemporary proc...
Divide{and{conquer algorithms obtain the solution to a problem by recursively dividing it into subpr...
Mapping of parallel programs onto parallel computers for efficient execution is a fundamental proble...
We develop a generic divide and conquer algorithm for a parallel tree machine. From the generic algo...