Table of Contents

• FAULT: an environment for programming parallel scientific applicationsVincent A. Guarna Jr., Dennis Gannon, Yogesh Gaur, David Jablonowski. 3-10 [doi]
• Parallel algorithm development workbenchSiamak Arya, Blaine Gaither. 11-17 [doi]
• Growing discord: programming philosophy and hardware designKenneth W. Neves. 18-26 [doi]
• The horizon supercomputing system: architecture and softwareJames T. Kuehn, Burton J. Smith. 28-34 [doi]
• A processor architecture for horizonMark R. Thistle, Burton J. Smith. 35-41 [doi]
• Performance prediction for the horizon super computerRaymond R. Glenn. 48-50 [doi]
• Assessing the benefits of fine-grain parallelism in dataflow programsDavid E. Culler, G. K. Maa. 60-69 [doi]
• Tokenless static data flow using associative templatesThomas L. Sterling, D. Scott Wills, Ellery Y. Chan. 70-79 [doi]
• Elimination of bottlenecks in dynamic dataflow processorsKeki B. Irani, K. Q. Luc. 80-87 [doi]
• I-NET mechanism for issuing multiple instructionsLingtao Wang, Chuan-lin Wu. 88-95 [doi]
• Vectorizing compilers: a test suite and resultsDavid Callahan, Jack Dongarra, D. Levine. 98-105 [doi]
• An evaluation of vector Fortran 200 generated by Cyber 205 and ETA-10 pre-compilation toolsR. N. Braswell, Malcolm S. Keech. 106-113 [doi]
• Cedar Fortran and other Vector and parallel Fortran dialectsM. D. Guzzi, Jay Hoeflinger, David A. Padua, Duncan H. Lawrie. 114-121 [doi]
• Polycyclic Vector scheduling vs. Chaining on 1-Port Vector supercomputersJ. H. Tang, Edward S. Davidson, J. Tong. 122 [doi]
• Interactive scientific visualization and parallel display techniquesJames A. Sethian, J. B. Salem, A. F. Ghoniem. 132-139 [doi]
• Design and implementation of a supercomputer frame buffer systemJ. D. Fowler, A. F. McGrowen. 140-147 [doi]
• Distributed scientific video movie makingWilliam E. Johnston, Dennis E. Hall, J. Hang, M. Rible, David W. Robertson. 156-162 [doi]
• Compiling issues for supercomputersM. Gikar, Constantine D. Polychronopoulos. 164-173 [doi]
• Compiling techniques for first-order liner recurrences on a Vector computerY. Tanaka, K. Iwasawa, S. Gotoo, Yukio Umetani. 174-181 [doi]
• V-Pascal: an automatic vectorizing compiler for Pascal with no language extensionsTakao Tsuda, Yoshitoshi Kunieda. 182-189 [doi]
• Using Linda for supercomputing on a local area networkRobert A. Whiteside, Jerrold Leichter. 192-199 [doi]
• Development of job-job step scheduler for NAL numerical simulatorS. Hatayama, M. Tsuchiya, Y. Shinkai, H. Morishige. 200-206 [doi]
• The symbolic hyperplane transformation for recursively defined arraysMaya Gokhale, Todd C. Torgersen. 207-214 [doi]
• Profiles in mass storage: a tale of two systemsWilliam Collins, David L. Kitts, Marjorie Devaney. 222-228 [doi]
• Vector and parallel processing of the nuclear reactor transient analysis code RELAPSM. Ishiguro, M. Makino, N. Shinozawa. 230-236 [doi]
• Squeezing more CPU performance out of a Cray-2 by Vector block schedulingChristine Eisenbeis, William Jalby, Alain Lichnewsky. 237-246 [doi]
• Parallel processing on supercomputers: a set of computional experimentsNikhil Balram, C. Belo, José M. F. Moura. 247-257 [doi]
• Optimal scheduling policies for mixed scalar-vector multiprocessor supercomputersY. Liu, Olin Johnson. 258-265 [doi]
• FACOM 6443 magneto-optic disk sub-systemY. Inouye, S. Hatayama. 266-271 [doi]
• A scheme for data compression in supercomputersMostafa A. Bassiouni, N. Ranganathan, Amar Mukherjee. 272-278 [doi]
• Performance comparison of the Cray-2 and Cray X-MP/416 supercomputersMargaret L. Simmons, Harvey J. Wasserman. 288-295 [doi]
• The birth of the second generation: the Hitachi S-820/80Christopher Eoyang, Raul Mendez, Olaf M. Lubeck. 296-303 [doi]
• Benchmarking the connection machine 2Richard K. Sato, Paul N. Swarztrauber. 304-309 [doi]
• Some patterns of technological change in high-performance computersJack Worlton. 312-320 [doi]
• The convex C240 architectureM. Chastain, G. Gostin, James E. Mankovich, Steven Wallach. 321-329 [doi]
• Warp: an integrated solution of high-speed parallel computingShekhar Borkar, Robert Cohn, George W. Cox, Sha Gleason, Thomas R. Gross. 330-339 [doi]
• A training program for scientific supercomputing usersFloyd B. Hanson, T. Moher, N. Sabelli, Ann Solem. 342-349 [doi]
• The design of a lockup-free cache for high-performance multiprocessorsChristoph Scheurich, Michel Dubois. 352-359 [doi]
• CRegs: a new kind of memory for referencing arrays and pointersHenry G. Dietz, Chi-Hung Chi. 360-367 [doi]
• An efficient pipelined dataflow processor architectureJack B. Dennis, Guang R. Gao. 368-373 [doi]
• Efficient vector processing on dataflow supercomputer SIGMA-1Kei Hiraki, Satoshi Sekiguchi, Toshio Shimada. 374-381 [doi]
• Vectorized Monte Carlo molecular aerodynamics simulation of the Reyleigh problemDaniel V. Pryor, Patrick J. Burns. 384-391 [doi]
• Highly vectorized algorithm for transient simulation of space reactor systemsB. Nassersharif, J. S. Peery, M. D. DeHart. 393-399 [doi]
• A parallel QR factorization algorithm using local pivotingChristian H. Bischof. 400-499 [doi]
• Vectorization of conjugate-gradient methods for large-scale minimizationI. Michael Navon, P. K. H. Phua, M. Ramamurthy. 410-418 [doi]
• A Strassen-Newton algorithm for high-speed parallelizable matrix inversionDavid H. Bailey, H. R. P. Gerguson. 419-424 [doi]
• On high-speed computing with a programmable linear arrayPeiZong Lee, Zvi M. Kedem. 425-432 [doi]
• A transformational approach to the derivation of hardware algorithms from recurrence equationsN. Yoshida. 433-440 [doi]
• Supercomputer integration program at BoeingR. B. Griffin, Janusz S. Kowalik, M. R. Scott. 442-449 [doi]
• The joint research councils supercomputing unitB. W. Davies, R. G. Evans, T. Daniels, D. J. Rigby. 450 [doi]