Abstract is missing.
- The Omega test: a fast and practical integer programming algorithm for dependence analysisWilliam Pugh. 4-13 [doi]
- Pointer target tracking - an empirical studyJon Loeliger, Robert Metzger, Mark Seligman, Sean Stroud. 14-23 [doi]
- On-the-fly detection of data races for programs with nested fork-join parallelismJohn M. Mellor-Crummey. 24-33 [doi]
- Programming costs of explicit memory localization on a large scale shared memory multiprocessorSilvio Picano, Eugene D. Brooks III, Joseph E. Hoag. 36-45 [doi]
- A conflict-free memory design for multiprocessorsHonda Shing, Lionel M. Ni. 46-55 [doi]
- A ultra fast Euclidean division algorithm for prime memory systemsBenoît Dupont de Dinechin. 56-65 [doi]
- A high school supercomputing challengeMarion Cohen, Marilyn Foster, David Kratzer, Patricia Malone, Ann Solem. 68-75 [doi]
- Compiler optimizations for Fortran D on MIMD distributed-memory machinesSeema Hiranandani, Ken Kennedy, Chau-Wen Tseng. 86-100 [doi]
- Tiling multidimensional iteration spaces for nonshared memory machinesJ. Ramanujam, P. Sadayappan. 111-120 [doi]
- A new approach for automatic parallelization of blocked linear Algebra computationsH. T. Kung, Jaspal Subhlok. 122-129 [doi]
- Wide format floating-point math librariesVictoria Markstein, Peter W. Markstein, Tung Nguyen, Steve Poole. 130-138 [doi]
- Distributing the comparison of DNA and protein sequences across heterogeneous supercomputersHugh B. Nicholas, Grace Giras, Vasilili Hartonas-Garmhausen, Michael Kopko, Christopher Maher, Alexander Ropelewski. 139-146 [doi]
- Panel: parallel computing in the undergraduate computer science curriculumNan C. Schaller. 148 [doi]
- A performance comparison of three supercomputers: Fujitsu VP-2600, NEC SX-3, and CRAY Y-MPMargaret L. Simmons, Harvey J. Wasserman, Olaf M. Lubeck, Christopher Eoyang, Raul Mendez, Hiroo Harada, Misako Ishiguro. 150-157 [doi]
- The NAS parallel benchmarks - summary and preliminary resultsDavid H. Bailey, E. Barszcz, J. T. Barton, D. S. Browning, Robert L. Carter, Leonardo Dagum, Rod Fatoohi, Paul O. Frederickson, T. A. Lasinski, Robert Schreiber, Horst D. Simon, V. Venkatakrishnan, Sisira Weeratunga. 158-165 [doi]
- Performance results for two of the NAS parallel benchmarksDavid H. Bailey, Paul O. Frederickson. 166-173 [doi]
- An effective on-chip preloading scheme to reduce data access penaltyJean-Loup Baer, Tien-Fu Chen. 176-186 [doi]
- Delayed consistency and its effects on the miss rate of parallel programsMichel Dubois, Jin-Chin Wang, Luiz André Barroso, Kangwoo Lee, Yung-Syau Chen. 197-206 [doi]
- Architecture-independent scientific programming in data parallel C: three case studiesPhilip J. Hatcher, Michael J. Quinn, Ray J. Anderson, Anthony J. Lapadula, Bradley K. Seevers, Andrew F. Bennett. 208-217 [doi]
- Solution functions of PDEQSOL (Partial differential EQuation SOlver language) for fluid problemsHiroyuki Hirayama, Miiko Ikeda, Nobutoshi Sagawa. 218-227 [doi]
- Computing turbulent flow in complex geometries on a massively parallel processorJames A. Sethian, Jean-Philippe Brunet, Adam Greenberg, Jill P. Mesirov. 230-241 [doi]
- A lattice Boltzmann method for a two-dimensional viscous Burgers equation: computational resultsBracy H. Elton. 242-252 [doi]
- Distribution of a climate model across high-speed networksCarlos R. Mechoso, Chung-Chun Ma, John D. Farrara, Joseph A. Spahr. 253-260 [doi]
- Retire Fortran? A debate rekindledDavid C. Cann. 264-272 [doi]
- Object oriented parallel programming: experiments and resultsJenq Kuen Lee, Dennis Gannon. 273-282 [doi]
- High level support for divide-and-conquer parallelismAttila Gürsoy, Laxmikant V. Kalé. 283-292 [doi]
- Vector/parallel implementation of a porous media flow codeRichard E. Ewing, Patrick O Leary, J. S. Sochacki. 294-303 [doi]
- Seismic modeling at 14 gigaflops on the connection machineJacek Myczkowski, Guy L. Steele Jr.. 316-326 [doi]
- Gordon Bell prize lecturesJack Dongarra, Alan H. Karp, Ken Miura, Horst D. Simon. 328-337 [doi]
- Compiler parallelization of an elliptic grid generator for 1990 Gordon Bell prizeGary Sabot, Lisa Tennies, Alex Vasilevsky, Richard Shapiro. 338-346 [doi]
- GPFP: an array processing element for the next generation of massively parallel supercomputer architecturesDonald F. Beal, Costas Lambrinoudakis. 348-357 [doi]
- A new parallel architecture for sparse matrix computation based on finite projective geometriesNarendra Karmarkar. 358-369 [doi]
- Time multiplexed optical computersHarry F. Jordan, Vincent P. Heuring. 370-378 [doi]
- Universal multistage networks via linear permutationsCharles M. Feduccia, Elaine M. Jacobson. 380-389 [doi]
- Design and analysis of efficient hierarchical interconnection networksSizheng Wei, Saul Levy. 390-399 [doi]
- Alleviation of tree saturation in multistage interconnection networksMatthew K. Farrens, Brad Wetmore, Allison Woodruff. 400-409 [doi]
- An evaluation of automatic and interactive parallel programming toolsDoreen Cheng, Douglas M. Pase. 412-423 [doi]
- Interprocedural transformations for parallel code generationMary W. Hall, Ken Kennedy, Kathryn S. McKinley. 424-434 [doi]
- Graphical development tools for network-based concurrent supercomputingAdam Beguelin, Jack Dongarra. 435-444 [doi]
- Synthetic aperture radar image processing on parallel supercomputersSteve Plimpton, Gary Mastin, Denni Ghiglia. 446-452 [doi]
- Parallel approaches to short range molecular dynamics simulationsPablo Tamayo, Jill P. Mesirov, Bruce M. Boghosian. 462-470 [doi]
- Visualizing the behavior of massively parallel programsMark Friedell, Mark Vincent LaPolla, Sandeep Kochhar, Steve Sistare, Janusz Juda. 472-480 [doi]
- Performance debugging shared memory multiprocessor programs with MTOOLAaron J. Goldberg, John L. Hennessy. 481-490 [doi]
- Graphical animation of parallel Fortran programsSue Utter-Honig, Cherri M. Pancake. 491-499 [doi]
- Scheduling parallel programs with non-uniform parallelism profilesYao-Jen Chang, Jean-Lien C. Wu, Jingshown Wu. 502-511 [doi]
- Intelligent mapping of communicating processes in distributed computing systemsArthur Ieumwananonthachai, Akiko N. Aizawa, Steven R. Schwartz, Benjamin W. Wah, Jerry C. Yan. 512-521 [doi]
- Load balancing by function distribution on the EM-4 prototypeYuetsu Kodama, Shuichi Sakai, Yoshinori Yamaguchi. 522-531 [doi]
- Gigascale integration (GSI) technologyJames D. Meindl. 534-538 [doi]
- Exploration geophysics, parallel computing and realityDennis E. Willen. 540 [doi]
- Application issues for large scale reservoir simulation on massively parallel computersJeffrey M. Rutledge, David R. Jones, Wen H. Chen, Ernest Y. Chung. 541 [doi]
- Vectorizing C compilers: how good are they?Lauren L. Smith. 544-553 [doi]
- Characterizing memory hot spots in a shared memory MIMD machineRaymond R. Glenn, Daniel V. Pryor, John M. Conroy, Theodore Johnson. 554-566 [doi]
- Towards efficient parallel implementation of the CG method applied to a class of block tridiagonal linear systemsAnthony T. Chronopoulos. 578-587 [doi]
- PILS: an iterative linear solver package for ill-conditioned systemsClaude Pommerell, Wolfgang Fichtner. 588-599 [doi]
- Threshold pivoting for dense LU factorization on distributed memory multiprocessorsJoël M. Malard. 600-607 [doi]
- Factoring: a practical and robust method for scheduling parallel loopsSusan Flynn Hummel, Edith Schonberg, Lawrence E. Flynn. 610-632 [doi]
- A fast static scheduling algorithm for DAGs on an unbounded number of processorsTao Yang, Apostolos Gerasoulis. 633-642 [doi]
- Time-division optical communications in multiprocessor arraysChunming Qiao, Rami G. Melhem. 644-653 [doi]
- Fully-adaptive routing: packet switching performance and wormhole algorithmsSergio A. Felperin, Luis Gravano, Gustavo D. Pifarré, Jorge L. C. Sanz. 654-663 [doi]
- Network-based multicomputers: an emerging parallel architectureH. T. Kung, Robert D. Sansom, Steven Schlick, Peter Steenkiste, Matthieu Arnould, Francois J. Bitz, Fred Christianson, Eric C. Cooper, Onat Menzilcioglu, Denise Ombres, Brian Zill. 664-673 [doi]
- Computing climate change: can we beat nature?Robert C. Malone, Robert Chervin, Richard Smith, William P. Dannevik, John B. Drake. 676 [doi]
- Climate modeling with parallel vector supercomputersRobert Chervin. 677 [doi]
- Computing modeling in a MIMD environmentWilliam P. Dannevik. 678 [doi]
- Ocean modeling on the connection machineR. D. Smith, J. K. Dukowicz, Robert C. Malone. 679 [doi]
- A semantics-directed partitioning of a processor architecturePeter L. Bird, Uwe F. Pleban. 702-709 [doi]
- Radix sort for vector multiprocessorsMarco Zagha, Guy E. Blelloch. 712-721 [doi]
- A method of vector processing for shared symbolic dataYasusi Kanada. 722-731 [doi]
- Optimal bounded-degree VLSI networks for sorting in a constant number of roundsHussein M. Alnuweiri. 732-739 [doi]
- Whither massive parallelism? Howard Jay Siegel. 740 [doi]
- An efficient parallel algorithm for all pairs examinationKevin B. Theobald, Guang R. Gao. 742-753 [doi]
- Parallel power-of-two FFTs on hypercubesMahn-ling Woo, Rosemary A. Renaut. 754-763 [doi]
- Analysis of replicated data algorithms on processor array architecturesP. J. Narayanan. 764-773 [doi]
- Design of a highly reliable cube-connected cycles architectureNian-Feng Tzeng. 776-785 [doi]
- Three-dimensional finite-element analyses: implications for computer architecturesValerie E. Taylor, Abhiram G. Ranade, David G. Messerschmitt. 786-795 [doi]
- Massively parallel computing and the mid-course tracking problemJames L. Tomkins, J. P. VanDyke. 796-804 [doi]
- Measurement of memory access contentions in multiple vector processor systemsIngrid Y. Bucher, Margaret L. Simmons. 806-817 [doi]
- Comparison and analysis of software and directory coherence schemesYung-Chin Chen, Alexander V. Veidenbaum. 818-829 [doi]
- Performance prediction of distributed load balancing on multicomputer systemsIshfaq Ahmad, Arif Ghafoor, Kishan Mehrotra. 830-839 [doi]
- Efficient Doacross execution on distributed shared-memory multiprocessorsHong-Men Su, Pen-Chung Yew. 842-853 [doi]
- Detecting redundant accesses to array dataElana D. Granston, Alexander V. Veidenbaum. 854-865 [doi]
- Effects of partitioning and scheduling sparse matrix factorization on communication and load balanceSesh Venugopal, Vijay K. Naik. 866-875 [doi]
- Mass storage requirements in the intelligence communityTom Myers, Elizabeth Williams. 878-889 [doi]
- A virtual memory translation mechanism to support checkpoint and rollback recoveryNicholas S. Bowen, Dhiraj K. Pradhan. 890-899 [doi]
- The K2 distributed memory parallel processor: architecture, compiler, and operating systemMarco Annaratone, Marco Fillo, M. Halbherr, Roland Rühl, P. Steiner, Marc A. Viredaz. 900-909 [doi]