AbstractThis paper extends the author's parallel nested dissection algorithm (Pan and Reif, Technical Report 88-18, Computer Science Department, SUNY Albany, 1988) originally devised for solving sparse linear systems. We present a class of new applications of the nested dissection method, this time to path algebra computations (in both cases of the single source path problems and of the all pair path problems), where the path algebra problem is defined by a symmetric matrix A whose associated undirected graph G has a known family of separators of small size s(n) (in many cases of interest, s(n) = O(√n).) The assumption that G has known separators is reasonable in a large variety of practical dynamic situations, where G is fixed and the entr...
Given an input directed graph G = (V, E), the all pairs shortest path problem (APSP) is to compute ...
AbstractGiven a biconnected planar graph G and a pair of vertices s and t, the two disjoint problem ...
AbstractWe consider the problem of preprocessing a tree T with edge labels drawn from a semigroup su...
AbstractThis paper extends the author's parallel nested dissection algorithm (Pan and Reif, Technica...
AbstractWe present a new parallel algorithm for computing a least-squares solution to a sparse overd...
AbstractWe give a linear-time algorithm for single-source shortest paths in planar graphs with nonne...
AbstractWe consider the problem of preprocessing an n-vertex digraph with real edge weights so that ...
We present the first $m\,\text{polylog}(n)$ work, $\text{polylog}(n)$ time algorithm in the PRAM mod...
AbstractA calculational derivation is given of two abstract path algorithms. The first is an all-pai...
We study algorithmic questions for concurrent systems where the transitions are labeled from a com...
There are a number of fundamental problems in computational geometry for which work-optimal algorith...
Separator decompositions have proven to be useful for efficient parallel shortest- path computation...
We present a simple parallel algorithm for the {\em single-source shortest path problem} in {\em pla...
Separator decompositions have proven to be useful for e cient parallel shortest-path computation. In...
AbstractWe investigate time-space tradeoffs for traversing undirected graphs, using a variety of str...
Given an input directed graph G = (V, E), the all pairs shortest path problem (APSP) is to compute ...
AbstractGiven a biconnected planar graph G and a pair of vertices s and t, the two disjoint problem ...
AbstractWe consider the problem of preprocessing a tree T with edge labels drawn from a semigroup su...
AbstractThis paper extends the author's parallel nested dissection algorithm (Pan and Reif, Technica...
AbstractWe present a new parallel algorithm for computing a least-squares solution to a sparse overd...
AbstractWe give a linear-time algorithm for single-source shortest paths in planar graphs with nonne...
AbstractWe consider the problem of preprocessing an n-vertex digraph with real edge weights so that ...
We present the first $m\,\text{polylog}(n)$ work, $\text{polylog}(n)$ time algorithm in the PRAM mod...
AbstractA calculational derivation is given of two abstract path algorithms. The first is an all-pai...
We study algorithmic questions for concurrent systems where the transitions are labeled from a com...
There are a number of fundamental problems in computational geometry for which work-optimal algorith...
Separator decompositions have proven to be useful for efficient parallel shortest- path computation...
We present a simple parallel algorithm for the {\em single-source shortest path problem} in {\em pla...
Separator decompositions have proven to be useful for e cient parallel shortest-path computation. In...
AbstractWe investigate time-space tradeoffs for traversing undirected graphs, using a variety of str...
Given an input directed graph G = (V, E), the all pairs shortest path problem (APSP) is to compute ...
AbstractGiven a biconnected planar graph G and a pair of vertices s and t, the two disjoint problem ...
AbstractWe consider the problem of preprocessing a tree T with edge labels drawn from a semigroup su...