default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDScientific Programming, Volume 3
Volume 3, Number 1, 1994
- Stefan Gerber, Helmar Burkhart:
Number-Crunching Software and the Input Problem: Guidelines and a Case Study. 1-11 - Amir Averbuch, Eran Gabber, Samuel Itzikowitz, Barack Shoham:
On the Parallel Elliptic Single/Multigrid Solutions about Aligned and Nonaligned Bodies Using the Virtual Machine for Multiprocessors. 13-32 - Gita Alaghband, Harry F. Jordan:
Overview of the Force Scientific Parallel Language. 33-47 - Adam Beguelin, Jack J. Dongarra, George Al Geist II, Robert Manchek, Keith Moore:
HeNCE: A Heterogeneous Network Computing Environment. 49-60 - Timothy G. Mattson:
The Efficiency of Linda for General Purpose Scientific Programming. 61-71 - Ravi Ponnusamy, Nashat Mansour, Alok N. Choudhary, Geoffrey Charles Fox:
Graph Contraction for Mapping Data on Parallel Computers: A Quality-Cost Tradeoff. 73-82 - William George, Ralph G. Brickner, S. Lennart Johnsson:
POLYSHIFT Communications Software for the Connection Machine System CM-200. 83-99
Volume 3, Number 2, 1994
- Michael W. Berry
, Jack J. Dongarra, Brian H. Larose, Todd A. Letsche:
PDS: A Performance Database Server. 147-156 - Willi Schönauer, Hartmut Häfner:
Explaining the Gap between Theoretical Peak Performance and Real Performance for Supercomputer Architectures. 157-168
Volume 3, Number 3, 1994
- Matthew Rosing, Robert B. Schnabel:
Flexible Language Constructs for Large Parallel Programs. 169-186 - Allan Knies, Matthew O'Keefe, Tom MacDonald:
High Performance Fortran: A Practical Analysis. 187-199 - Can C. Özturan, Balaram Sinharoy, Boleslaw K. Szymanski:
Compiler Technology for Parallel Scientific Computation. 201-225 - Douglas M. Pase, Tom MacDonald, Andrew Meltzer:
The CRAFT Fortran Programming Model. 227-253 - Michael Hind, Michael G. Burke, Paul R. Carini, Samuel P. Midkiff:
An Empirical Study of Precise Interprocedural Array Analysis. 255-271
Volume 3, Number 4, 1994
- Min-You Wu, Wolfgang Schröder-Preikschat:
Operating System Support for Massively Parallel Computer Architectures: An Introduction. 273-274 - Stephen R. Wheat, Arthur B. Maccabe, Rolf Riesen, David W. van Dresser, T. Mack Stallcup:
PUMA: An Operating System for Massively Parallel Systems. 275-288 - Henning Schmidt:
Using Naming Strategies to Make Massively Parallel Systems Work. 289-300 - David R. Kohr Jr., Xingbin Zhang, Mustafizur Rahman, Daniel A. Reed:
The Performance of an Object-Oriented, Parallel Operating System. 301-324 - Steve J. Chapin, Eugene H. Spafford:
Support for Implementing Scheduling Algorithms Using MESSIAHS. 325-340 - Wei Shu:
Adaptive Dynamic Process Scheduling on Distributed Memory Parallel Computers. 341-352 - Craig A. Morgenstern:
Methods for Precise Submesh Allocation. 353-364
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
last updated on 2024-11-07 20:34 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
