Fourth International Workshop on Parallel Processing by Cellular Automata and Arrays, Berlin, GDR, October 17-21, 1988
First Statement of Responsibility
by Gottfried Wolf, Tamas Legendi, Udo Schendel.
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Berlin, Heidelberg
Name of Publisher, Distributor, etc.
Springer Berlin Heidelberg
Date of Publication, Distribution, etc.
1989
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
1
SERIES
Series Title
Lecture notes in computer science, 342.
CONTENTS NOTE
Text of Note
Multiprocessor arrays: Topology, efficiency and fault-tolerance.- Unsolved theoretical problems in homogeneous structures.- On simultaneous realizations of boolean functions, with applications.- Parallel microprogramming as a tool for multi-microprocessor systems.- A survey of parallel computational geometry algorithms.- Parallel memories for straight line and rectangle access.- Programming with active data.- Prolog implementations for cellular architectures.- Modular highly-parallel computation and architectures.- Parallel computation and supercomputers and applications.- Fast parallel algorithms and the complexity of parallelism (basic issues and recent advances).- Process-structured architectures to transform information flowing through.- Basic research for cellular processing.- Parallel algorithms in image processing.- VLSI arrays implementing parallel line-drawing algorithms.- Parallel conflict-free optimal access to complete extended q-ary trees.- Systolic preconditioning algorithms for the jacobi iterative solution of sparse linear systems.- Multiprocessor systems for large numerical applications.- Systolic array for eigenvalue of jacobi matrix.- A transitive closure algorithm for a 16-state cellprocessor.- Control of sensory processing - A hypothesis on and simulation of the architecture of an elementary cortical processor.- Bounds for l-selection and related problems on grids of processors.- Recursive design of communication schemes for parallel computation with relacs.- Solution of dense systems of linear equations using cellular processors.- Running order statistics on a bit-level systolic array.- Realization of sets of permutations by permutation networks.- Simulation of learning networks.- Given's rotation on an instruction systolic array.- Worst case analysis for reducing algorithms on instruction systolic arrays with simple instruction sets.- Self-checking processing elements in cellular arrays.- Cellular diagnostic in parallel systems.- Reliable networks for boolean functions with small complexity.- Pipeline-automata - A model for acyclic systolic systems.