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ORCIDJSSPP 1996: Honolulu, Hawaii, USA
- Dror G. Feitelson, Larry Rudolph:
Job Scheduling Strategies for Parallel Processing, IPPS'96 Workshop, Honolulu, Haiwai, USA, April 16, 1996, Proceedings. Lecture Notes in Computer Science 1162, Springer 1996, ISBN 3-540-61864-3 - Dror G. Feitelson
, Larry Rudolph:
Towards Convergence in Job Schedulers for Parallel Supercomputers. 1-26 - Steven Hotovy:
Workload Evolution on the Cornell Theory Center IBM SP2. 27-40 - Joseph Skovira, Waiman Chan, Honbo Zhou, David A. Lifka:
The EASY - LoadLeveler API Project. 41-47 - Michael Wan, Reagan W. Moore, George Kremenek, Ken Steube:
A Batch Scheduler for the Intel Paragon MPP System with a Non-contiguous Node Allocation Algorithm. 48-64 - Jörn Gehring, Friedhelm Ramme:
Architecture-Independent Request-Scheduling with Tight Waiting-Time Estimations. 65-88 - Dror G. Feitelson:
Packing Schemes for Gang Scheduling. 89-110 - Fang Wang, Hubertus Franke, Marios C. Papaefthymiou, Pratap Pattnaik, Larry Rudolph, Mark S. Squillante:
A Gang Scheduling Design for Multiprogrammed Parallel Computing Environments. 111-125 - Atsushi Hori, Hiroshi Tezuka, Yutaka Ishikawa, Noriyuki Soda, Hiroki Konaka, Munenori Maeda:
Implementation of Gang-Scheduling on Workstation Cluster. 126-139 - Jim Pruyne, Miron Livny:
Managing Checkpoints for Parallel Programs. 140-154 - Thu D. Nguyen, Raj Vaswani, John Zahorjan:
Using Runtime Measured Workload Characteristics in Parallel Processor Scheduling. 155-174 - Thu D. Nguyen, Raj Vaswani, John Zahorjan:
Parallel Application Characteristics for Multiprocessor Scheduling Policy Design. 175-199 - Su-Hui Chiang, Mary K. Vernon:
Dynamic vs. Static Quantum-Based Parallel Processor Allocation. 200-223 - Jitendra Padhye, Lawrence W. Dowdy:
Dynamic versus Adaptive Processor Allocation Policies for Message Passing Parallel Computers: An Empirical Comparison. 224-243 - Nayeem Islam, Andreas L. Prodromidis, Mark S. Squillante:
Dynamic Partitioning in Different Distributed-Memory Environments. 244-270 - Frank Bellosa:
Locality Information Based Scheduling in Shared Memory Multiprocessors. 271-289
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