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ORCIDSCI 1999
- Hermann Hellwagner
, Alexander Reinefeld:
SCI: Scalable Coherent Interface, Architecture and Software for High-Performance Compute Clusters. Lecture Notes in Computer Science 1734, Springer 1999, ISBN 3-540-66696-6
Part I. SCI and Competitive Interconnects for Cluster Computing
- Hermann Hellwagner:
The SCI Standard and Applications of SCI. 3-37 - Christian Kurmann, Thomas Stricker:
A Comparison of Three Gigabit Technologies: SCI, Myrinet and SGI/Cray T3D. 39-68
Part II: SCI Hardware
- Marius Christian Liaaen, Hugo Kohmann:
Dolphin SCI Adapter Cards. 71-87 - Georg Acher, Wolfgang Karl, Markus Leberecht:
The TUM/SCI Adapter. 89-101
Part III: Interconnection Networks with SCI
- Andreas C. Döring, Wolfgang Obelöer, Gunther Lustig, Erik Maehle:
Low-Level SCI Protocols and Their Application to Flexible Switches. 105-123 - Harald Richter, Richard Kleber, Matthias Ohlenroth:
SCI Rings, Switches, and Networks for Data Acquisition Systems. 125-149 - Geir Horn:
Scalability of SCI Ringlets. 151-166 - Hakon O. Bugge, Knut Omang:
Affordable Scalability Using Multi-Cubes. 167-175
Part IV. Device Driver Software and Low-Level APIs
- Roger Butenuth, Hans-Ulrich Heiss:
Interfacing SCI Device Drivers to LINUX. 179-190 - Volker Lindenstruth, David B. Gustavson:
SCI Physical Layer API. 191-208
Part V. Message Passing Libraries
- Hermann Hellwagner, Josef Weidendorfer:
SCI Sockets Library. 209-229 - Hüseyin Taskin, Roger Butenuth:
TCP/IP over SCI under LINUX. 231-237 - Markus Fischer, Alexander Reinefeld:
PVM for SCI Clusters. 239-248 - Lars Paul Huse, Knut Omang, Hakon O. Bugge, H. Ry, A. T. Haugsdal, E. Rustad:
ScaMPI-Design and Implementation. 249-261
Part VI. Shared Memory Programming Models and Runtime Mechanisms
- Maximilian Ibel, Michael Schmitt, Klaus E. Schauser, Anurag Acharya:
Shared Memory vs Message Passing on SCI: A Case Study Using Split-C. 267-280 - Marcus Dormanns, Karsten Scholtyssik, Thomas Bemmerl:
A Shared Memory Programming Interface for SCI Clusters. 281-290 - Martin Schulz:
True Shared Memory Programming on SCI-Based Clusters. 291-311 - Povl T. Koch, Jorgen S. Hansen, Emmanuel Cecchet, Xavier Rousset de Pina:
Implementing a File System Interface to SCI. 313-331 - Thierry Priol, Christophe René, Guillaume Alléon:
Programming SCI Clusters Using Parallel CORBA. 333-348 - Markus Leberecht:
The MuSE Runtime System for SCI Clusters: A Flexible Combination of On-Stack Execution and Work Stealing. 349-364
Part VII: Benchmark Results and Application Experiences
- Jens Simon, Alexander Reinefeld, Oliver Heinz:
Large-Scale SCI Clusters in Practice: Architecture and Performance. 367-381 - Marcus Dormanns:
Shared Memory Parallelization of the GROMOS96 Molecular Dynamics Code. 383-396 - A. Belias, Andreas Johannes Bogaerts, D. Botteril, J. Dawson, Ervin Denes, Francesco Giacomini, Reiner Hauser, Christian Hörtnagl, Richard Hughes-Jones, S. Kolya, D. Mercer, R. Middleton, J. Schlereth, Per Werner, F. Wickens:
SCI Prototyping for the Second Level Trigger System of the ATLAS Experiment. 397-414
Part VIII. Tools for SCI Clusters
- Wolfgang Karl, Markus Leberecht, Michael Oberhuber:
SCI Monitoring Hardware and Software: Supporting Performance Evaluation and Debugging. 417-432 - Matthias Maier-Stahel, Roger Butenuth, Hans-Ulrich Heiss:
Monitoring SCI Clusters. 433-441 - Matthias Brune, Axel Keller, Alexander Reinefeld:
Multi-User System Management on SCI Clusters. 443-461
Part IX. Perspectives
- David B. Gustavson:
Industrial Takeup od SCI and Future Developments. 465-480
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