Table of Contents

• QCD with dynamical fermions on the connection machineClive F. Baillie, Ralph G. Brickner, Rajan Gupta, S. Lennart Johnsson. 2-9 [doi]
• Vectorization on Monte Carlo particle transport: an architectural study using the LANL benchmark "GAMTEB"Patrick J. Burns, Mark Christon, Roland Schweitzer, Olaf M. Lubeck, Harvey J. Wasserman. 10-20 [doi]
• Parallelizing a large scientific code - methods, issues, and concernsEdward A. Carmona. 21-31 [doi]
• Benchmark calculations with an unstructured grid flow solver on a SIMD computerJeffrey S. Clary, George A. Howell, Steve L. Karman Jr.. 32-41 [doi]
• Implementation of a hypersonic rarefied flow particle simulation on the connection machineLeonardo Dagum. 42-49 [doi]
• Computational aerothermodynamicsGeorge S. Deiwert. 51-57 [doi]
• Practical parallel supercomputing: examples from chemistry and physicsGeoffrey Charles Fox, Paul Hipes, John K. Salmon. 58-69 [doi]
• Capability of current supercomputers for the computational fluid dynamicsKozo Fujii, Yoshiaki Tamura. 71-80 [doi]
• Supercomputing of circuits simulationYoshinari Fukui, Hirotoshi Yoshida, Shigefumi Higono. 81-85 [doi]
• Computations of soil temperature rise due to HVDC ground returnHany Greiss, Dinkar Mukhedkar, Pierre J. Lagacé. 86-95 [doi]
• A radar simulation program for a 1024-processor hypercubeJohn L. Gustafson, Robert E. Benner, Mark P. Sears, Thomas D. Sullivan. 96-105 [doi]
• Parallel MIMD programming for global models of atmospheric flowR. Jakob, James J. Hack. 106-112 [doi]
• Computational fluid dynamic-current capabilities and directions for the futurePaul Kutler. 113-122 [doi]
• Parallel algorithm and VLSI architecture for a robot's inverse kinematicsJim Z. C. Lai, Ming Chao. 123-132 [doi]
• Supercomputers in computational ocean acousticsDing Lee, Martin H. Schultz, Faisal Saied. 133-140 [doi]
• A study of dissipation operators for the euler equations and a three- dimensional channel flowPelle Olsson, S. Lennart Johnsson. 141-151 [doi]
• A computer assisted optimal depth lower bound for sorting networks with nine inputsIan Parberry. 152-161 [doi]
• Realities associated with parallel processingDaniel E. Platt, Ryan A. Rossi, J. W. Wells, J. Becker. 162-174 [doi]
• How a SIMD machine can implement a complex cellular automata? a case study: von Neumann's 29-state cellular automatonJacqueline Signorini. 175-186 [doi]
• Automatic vectorization of character string manipulation and relational operations in PascalTakao Tsuda, Yoshitoshi Kunieda, Piyaporn Atipas. 187-196 [doi]
• Neural network simulation on shared-memory vector multiprocessorsChia-Jiu Wang, Chwan-Hwa John Wu, S. Sivasindaram. 197-204 [doi]
• Concurrent and vectorized Monte Carlo simulation of the evolution of an assembly of particles increasing in numberChwan-Hwa John Wu, Chia-Jiu Wang. 205-214 [doi]
• Protein structure prediction by a data-level parallel algorithmXiru Zhang, David L. Waltz, Jill P. Mesirov. 215-223 [doi]
• Vector and parallel algorithms for Cholesky factorization on IBM 3090Ramesh C. Agarwal, Fred G. Gustavson. 225-233 [doi]
• FFTs in external of hierarchical memoryDavid H. Bailey. 234-242 [doi]
• Macrotasking the singluar value decomposition of block circulant matrices on the Cray-2John R. Baker. 243-247 [doi]
• A block QR factorization algorithm using restricted pivotingChristian H. Bischof. 248-256 [doi]
• Tuning the rank-n update in a wavefront solver for peak performanceMark A. Johnson, Sen-Ming Chang. 257-265 [doi]
• Load balancing and task decomposition techniques for parallel implementation of integrated vision systems algorithmsAlok N. Choudhary, Janak H. Patel. 266-275 [doi]
• Efficient computation of the singular value decomposition on cube connected SIMD machineHenry Y. H. Chuang, Ling Chen. 276-282 [doi]
• Knowledge representation on the connection machineMatthew P. Evett, Lee Spector, Jim Hendler. 283-293 [doi]
• d embedding of a hyper-pyramid into a hypercubeChing-Tien Ho, S. Lennart Johnsson. 294-303 [doi]
• Parallel characteristics of sequence alignment algorithmsArun Iyengar. 304-313 [doi]
• N-cube multiprocessorJai Eun Jang, Sung Woon Choi, Won-Kyung Cho. 314-325 [doi]
• Matrix multiplication on the connection machineS. Lennart Johnsson, Tim Harris, Kapil K. Mathur. 326-332 [doi]
• Parallel solution of pentadiagonal systems using generalized odd-even eliminationCreon Levit. 333-336 [doi]
• Element order and convergence rate of the conjugate gradient method for data parallel stress analysisKapil K. Mathur, S. Lennart Johnsson. 337-343 [doi]
• Parallel algorithms for geometric searching problemsSeoung-Jun Oh, M. Suk. 344-350 [doi]
• A parallel algorithm for the quadratic assignment problemPanos M. Pardalos, James V. Crouse. 351-360 [doi]
• Efficient circuit partitioning algorithms for parallel logic simulationSrinivas Patil, Prithviraj Banerjee, Constantine D. Polychronopoulos. 361-370 [doi]
• Communication reduction for distributed sparse matrix factorization on a processor meshPonnuswamy Sadayappan, Sailesh K. Rao. 371-379 [doi]
• Parallel algorithms for super performanceD. John Shakshober. 380-388 [doi]
• A dynamic scheduling strategy for the Chare-Kernel systemWei Wennie Shu, Laxmikant V. Kalé. 389-398 [doi]
• On the mapping problem for multi-level systemsSotirios G. Ziavras. 399-408 [doi]
• High performance parallel architecturesRoger E. Anderson. 410-415 [doi]
• Static synchronization beyond VLIWHenry G. Dietz, Thomas Schwederski, Matthew T. O'Keefe, Abderrazek Zaafrani. 416-425 [doi]
• The HCN: a versatile interconnection network based on cubesKanad Ghose, Kiran Raghavendra Desai. 426-435 [doi]
• Communication in iWarp systemsThomas Gross. 436-445 [doi]
• Optical digital computersAlan Huang. 446-449 [doi]
• TM 64-bit supercomputing microprocessorLeslie Kohn, Neal Margulis. 450-456 [doi]
• Multiprocessor simulation of neural networks with NERVReinhard Männer, H. Horner, Rainer Hauser, A. Genthner. 457-465 [doi]
• 2MP: a cache-coherent, distributed memory multiprocessor-systemDouglas E. Marquardt, Hasan S. AlKhatib. 466-475 [doi]
• DASP: a general-purpose MIMD parallel computer using distributed associative processingY. Park, C. Walter, H. Yee, T. Roden, Simon Y. Berkovich. 476-484 [doi]
• Combining produce and consume operations in a pipelined shared memory multiprocessorBernardo J. Rodriquez, Harry F. Jordan. 485-494 [doi]
• QCDPAX-an MIMD array of vector processors for the numerical simulation of quantum chromodynamicsTomonori Shirakawa, Takeshi Hoshino, Yoshio Oyanagi, Yohei Iwasaki, T. Yoshié. 495-504 [doi]
• A high performance reconfigurable parallel processing architectureRichard R. Shively, E. B. Morgan, T. W. Copley, Allen L. Gorin. 505-509 [doi]
• Using PAGE-AHEAD for large FORTRAN programsRenzo Di Antonio, John Eilert, Marcello Vitaletti. 511-520 [doi]
• Building analytical models into an interactive performance prediction toolD. Arapattu, Dennis Gannon. 521-530 [doi]
• GTS: parallelization and vectorization of tight recurrencesEduard Ayguadé, Jesús Labarta, Jordi Torres, Patricia Borensztejn. 531-539 [doi]
• The parascope editor: an interactive parallel programming toolVasanth Balasundaram, Ken Kennedy, Ulrich Kremer, Kathryn S. McKinley, Jaspal Subhlok. 540-550 [doi]
• Automatic data/program partitioning using the single assignment principleLubomir Bic, Mark Nagel, John M. A. Roy. 551-556 [doi]
• The composition of concurrent programsK. Mani Chandy. 557-561 [doi]
• FUTURES: a mechanism for concurrency among objectsArunodaya Chatterjee. 562-567 [doi]
• HDB-a high level debuggingDoreen Cheng. 568-573 [doi]
• File concepts for parallel I/OThomas W. Crockett. 574-579 [doi]
• Event synchronization analysis for debugging parallel programsPerry A. Emrath, Sanjoy Ghosh, David A. Padua. 580-588 [doi]
• An environment for performance experiment on multiprocessorsYogesh Gaur, Vincent A. Guarna Jr., David Jablonowski. 589-596 [doi]
• Visualizing relativistic effects in spacetimePing-Kang Hsiung, Robert H. P. Dunn. 597-606 [doi]
• Refined Fortran: an updateDavid Klappholz, Xiangyun Kong, Apostolos D. Kalis. 607-615 [doi]
• Parallel language constructs for tensor product computations on loosely coupled architecturesPiyush Mehrotra, John Van Rosendale. 616-626 [doi]
• Models for visualization in parallel debuggersCherri M. Pancake, Sue Utter-Honig. 627-636 [doi]
• A methodology for parallelizing programs for multicomputers and complex memory multiprocessorsJ. Ramanujam, P. Sadayappan. 637-646 [doi]
• Visualization of supercomputer simulations in physicsVal Watson, Gordon V. Bancroft, Todd Plessel, Fergus Merritt, Pamela P. Walatka. 647-654 [doi]
• More iteration space tilingMichael Wolfe. 655-664 [doi]
• Parallel processor balance through loop spreadingYoufeng Wu, Ted G. Lewis. 665-674 [doi]
• A preceding activation scheme with graph unfolding for the parallel processing system-arrayHayato Yamana, Takashi Hagiwara, Jun Kohdate, Yoichi Muraoka. 675-684 [doi]
• LIMITS-a system for UNIX resource administrationAndrew Bettison, Frank Adcock, Peter Chubb, Andrew Gollan, Chris Maltby. 686-692 [doi]
• UNIX security in a supercomputing environmentMatt Bishop. 693-698 [doi]
• Optimal selection theory for superconcurrencyRichard F. Freund. 699-703 [doi]
• Comparative performance of circuit-switched networks based on blocking probabilityCarl Hein. 704-712 [doi]
• Multiple crossbar network integrated supercomputing frameworkRandy Hoebelheinrich, Richard Thomsen. 713-720 [doi]
• Effective use of Cray supercomputersWilliam T. C. Kramer, J. M. Crawer. 721-731 [doi]
• Type of service wide area networkingJohn Lekashman. 732-736 [doi]
• Construction of internet for Japanese academic communitiesJun Murai, Hiroyuki Kusumoto, Suguru Yamaguchi, Akira Kato. 737-746 [doi]
• High performance file system for supercomputing environmentH. Nishino, S. Naka, K. Ikumi, W. Leslie. 747-756 [doi]
• Computing performance as a function of the speed, quantity, and cost of the processorsM. L. Barton, G. R. Withers. 759-764 [doi]
• K9: a simulator of distributed-memory parallel processorsPeter Beadle, Claude Pommerell, Marco Annaratone. 765-774 [doi]
• Some results in memory conflict analysisDonald A. Calahan. 775-778 [doi]
• Vector performance analysis of three supercomputers: Cray 2, Cray Y-MP, and ETA 10-QRod A. Fatoohi. 779-788 [doi]
• Implementing parallel sorting algorithms on a linear array of transputersWalter Parks Goodwin, Sajal K. Das. 789-796 [doi]
• Performance analysis of high-speed computersJukka Helin, Kimmo Kaski. 797-808 [doi]
• A radix-2 FFT on connection machineS. Lennart Johnsson, Robert L. Krawitz, Roger Frye, Douglas MacDonald. 809-819 [doi]
• A comparison study of automatically vectorizing Fortran compilersHiromu Nobayashi, Christopher Eoyang. 820-825 [doi]
• Memory conflicts and machine performancePeixiong Tang, Raul Mendez. 826-831 [doi]
• Measuring the scalability of parallel computer systemsJ. R. Zirbas, D. J. Reble, R. E. vanKooten. 832-841 [doi]
• Hardware technology and architecture of the NEC SX-3/SX-X supercomputer systemT. Watanabe, H. Matsumoto, P. D. Tannenbaum. 842-846 [doi]