A model of computation based on random access machines operating in parallel and sharing a common memory is presented. The computational power of this model is related to that of traditional models. In particular, deterministic parallel RAM's can accept in polynomial time exactly the sets accepted by polynomial tape bounded Turing machines; nondeterministic RAM's can accept in polynomial time exactly the sets accepted by nondeterministic exponential time bounded Turing machines. Similar results hold for other classes. The effect of limiting the size of the common memory is also considered
Abstract. The power of shared-memory in models of parallel computation is studied, and a novel distr...
In the realm of sequential computing the random access machine has successufully provided an underly...
AbstractWe study the time relationships between several models of computation (variants of counter m...
170 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.In this thesis, we compare th...
AbstractThe PRAM model of parallel computation is examined with respect to wordsize, the number of b...
We consider random access machines with a multiplication operation, having the added capability of c...
This paper gives an overview of some models of computation which have proved successful in laying a ...
Recent advances in microelectronics have brought closer to feasibility the construction of computer...
In this thesis we examine some of the central problems in the theory of computational complexity, l...
The purpose of a model of computation is to provide the algorithm designer with a device for running...
AbstractWe prove that the class of languages accepted in polynomial time by Parallel Random Access M...
The RAM, an abstract model for a random access computer, is introduced. A unique feature of the mode...
AbstractWe prove that polynomial time on a parallel random access machine (PRAM) with unit-cost mult...
The Parallel Random Access Machine (PRAM) is an abstract parallel machine consisting of a synchrono...
The relative power of several computational models is considered. These models are the Turing machin...
Abstract. The power of shared-memory in models of parallel computation is studied, and a novel distr...
In the realm of sequential computing the random access machine has successufully provided an underly...
AbstractWe study the time relationships between several models of computation (variants of counter m...
170 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.In this thesis, we compare th...
AbstractThe PRAM model of parallel computation is examined with respect to wordsize, the number of b...
We consider random access machines with a multiplication operation, having the added capability of c...
This paper gives an overview of some models of computation which have proved successful in laying a ...
Recent advances in microelectronics have brought closer to feasibility the construction of computer...
In this thesis we examine some of the central problems in the theory of computational complexity, l...
The purpose of a model of computation is to provide the algorithm designer with a device for running...
AbstractWe prove that the class of languages accepted in polynomial time by Parallel Random Access M...
The RAM, an abstract model for a random access computer, is introduced. A unique feature of the mode...
AbstractWe prove that polynomial time on a parallel random access machine (PRAM) with unit-cost mult...
The Parallel Random Access Machine (PRAM) is an abstract parallel machine consisting of a synchrono...
The relative power of several computational models is considered. These models are the Turing machin...
Abstract. The power of shared-memory in models of parallel computation is studied, and a novel distr...
In the realm of sequential computing the random access machine has successufully provided an underly...
AbstractWe study the time relationships between several models of computation (variants of counter m...