It is known that isolated executions of parallel backtrack search exhibit speedup anomalies. In this paper we present analytical models and experimental results on the average case behavior of parallel backtracking. We consider two types of backtrack search algorithms: 1) simple backtracking (which does not use any heuristic information); 2) heuristic backtracking (which uses heuristics to order and prune search). We present analytical models to compare the average number of nodes visited in sequential and parallel search for each case. For simple backtracking, we show that the average speedup obtained is 1) linear when distribution of solutions is uniform and 2) superlinear when distribution of solutions is nonuniform. For heuristic backtr...
AbstractThis paper analyzes the performances of parallel branch and bound algorithm with best-first ...
We present space-efficient parallel strategies for two fundamental combinatorial search problems, na...
This paper addresses the following question: what is the essential difference between stochastic loc...
We consider the problem of parallelizing restarted backtrack search. With few notable exceptions, mo...
AbstractThe backtrack search problem involves visiting all the nodes of an arbitrary binary tree giv...
The backtrack search problem involves visiting all the nodes of an arbitrary binary tree given a poi...
Real-time heuristic search algorithms are suitable for situated agents that need to make their decis...
Consider an infinite binary search tree in which the branches have independent random costs. Suppose...
The backtrack search problem involves visiting all the nodes of an arbitrary binary tree given a poi...
This paper derives upper bounds on the expected number of search tree nodes visited during an m-solu...
In recent years numerous new backtracking algorithms have been proposed The algorithms are usually...
AbstractSeveral articles have noted the usefulness of a retrieval algorithm called sequential interp...
In recent years, numerous new backtracking algorithms have been proposed. The algorithms are usually...
Abstract: A genera! technique for solving a wide variety of search problems is the branch-and-bound ...
. We present a new parallel tree search method for ønding one solution to a constraint satisfaction ...
AbstractThis paper analyzes the performances of parallel branch and bound algorithm with best-first ...
We present space-efficient parallel strategies for two fundamental combinatorial search problems, na...
This paper addresses the following question: what is the essential difference between stochastic loc...
We consider the problem of parallelizing restarted backtrack search. With few notable exceptions, mo...
AbstractThe backtrack search problem involves visiting all the nodes of an arbitrary binary tree giv...
The backtrack search problem involves visiting all the nodes of an arbitrary binary tree given a poi...
Real-time heuristic search algorithms are suitable for situated agents that need to make their decis...
Consider an infinite binary search tree in which the branches have independent random costs. Suppose...
The backtrack search problem involves visiting all the nodes of an arbitrary binary tree given a poi...
This paper derives upper bounds on the expected number of search tree nodes visited during an m-solu...
In recent years numerous new backtracking algorithms have been proposed The algorithms are usually...
AbstractSeveral articles have noted the usefulness of a retrieval algorithm called sequential interp...
In recent years, numerous new backtracking algorithms have been proposed. The algorithms are usually...
Abstract: A genera! technique for solving a wide variety of search problems is the branch-and-bound ...
. We present a new parallel tree search method for ønding one solution to a constraint satisfaction ...
AbstractThis paper analyzes the performances of parallel branch and bound algorithm with best-first ...
We present space-efficient parallel strategies for two fundamental combinatorial search problems, na...
This paper addresses the following question: what is the essential difference between stochastic loc...