Proceedings of the Third Conference on Hypercube Concurrent Computers and Applications - Architecture, Software, Computer Systems, and General Issues, C³P, Pasadena, California, USA, January 19-20, 1988 - researchr publication

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Geoffrey C. Fox, editor, Proceedings of the Third Conference on Hypercube Concurrent Computers and Applications - Architecture, Software, Computer Systems, and General Issues, C³P, Pasadena, California, USA, January 19-20, 1988. ACM, 1988. [doi]

Conference: c3p1988

Abstract is missing.

Finite-grain message passing concurrent computersWilliam J. Dally. 2-12 [doi]

Multiprocessor architectures are convergingErik P. DeBenedictis. 13-20 [doi]

Problems and approaches for a Teraflop processorA. H. Frey, Geoffrey C. Fox. 21-25 [doi]

Hardware support for distributed objects in a hypercubeJ. L. Kozarek. 26-32 [doi]

The architecture and programming of the Ametek series 2010 multicomputerCharles L. Seitz, William C. Athas, Charles M. Flaig, Alain J. Martin, Jakov N. Seizovic, Craig S. Steele, Wen-King Su. 33-37 [doi]

iPSC/2 system: a second generation hypercubeRamune Arlauskas. 38-42 [doi]

The iPSC/2 node architectureP. Close. 43-50 [doi]

The iPSC/2 direct-connect communications technologyS. F. Nugent. 51-60 [doi]

The second generation FPS T series: an enhanced parallel vector supercomputerR. J. Fazzari, J. D. Lynch. 61-70 [doi]

Mark IIIfp hypercube concurrent processor architectureJesus O. Tuazon, John C. Peterson, Moshe Pniel. 71-80 [doi]

A parallel computer for lattice Gauge theoriesT.-W. Chiu. 81-91 [doi]

PC-CUBE, a personal computer based hypercubeAlex Ho, Geoffrey C. Fox, David W. Walker, S. Snyder, D. Chang, S. Chen, M. Breaden, Terry Cole. 92-97 [doi]

MAC-CUBE, the Macintosh-based hypercubeAlex Ho, Geoffrey C. Fox, David W. Walker, M. Breaden, S. Chen, A. Knutson, S. Kuwamoto, Terry Cole. 98-103 [doi]

Reconfigurable transputer systemsChris R. Jesshope. 105-114 [doi]

Practical parallel processing with transputersAnthony J. G. Hey. 115-121 [doi]

Esprit project P1085 - reconfigurable transputer projectJ. G. Harp. 122-127 [doi]

Transputers + virtual tree kernel = real speedupsD. L. McBurney, M. Ronan Sleep. 128-137 [doi]

An OCCAM approach to transputer engineeringPeter H. Welch. 138-147 [doi]

Application performance improvement on the iPSC/2 computerS. Arshi, R. Asbury, Joseph Brandenburg, Dan Scott 0002. 149-154 [doi]

Comparisons of concurrent tracking on various hypercubesClive F. Baillie, Thomas D. Gottschalk, Adam Kolawa. 155-166 [doi]

Comparing communication in concurrent processor operating systemsClive F. Baillie. 167-172 [doi]

Performance evaluation of scientific programs on advanced architecture computersDavid W. Walker, D. W. Messina, Clive F. Baillie. 173-179 [doi]

Performance of a QCD code on the NCUBE hypercubeDavid W. Walker. 180-187 [doi]

The pebble crurching model for load balancing in concurrent hypercube ensemblesJacob Barhen, Sandeep Gulati, S. S. Iyengar 0001. 189-199 [doi]

A graph-oriented mapping strategy for a hypercubeWoei-kae Chen, Edward F. Gehringer. 200-209 [doi]

Task allocation onto a hypercube by recursive mincut bipartitioningFikret Erçal, J. Ramanujam, P. Sadayappan. 210-221 [doi]

Distributing resources in hypercube computersMarilynn Livingston, Quentin F. Stout. 222-231 [doi]

Parallel placement of parallel processesChrisila C. Pettey, Michael R. Leuze. 232-238 [doi]

A mathematical analysis of the scattered decompositionJohn K. Salmon. 239-240 [doi]

Load balancing loosely synchronous problems with a neural networkGeoffrey C. Fox, Wojtek Furmanski. 241-278 [doi]

A dynamic load balancer on the Intel hypercubeJefferey G. Koller. 279-284 [doi]

A string theory for time dependent complex systems and its application to automatic decompositionGeoffrey C. Fox, Wojtek Furmanski. 285-305 [doi]

A novel approach to system-level fault tolerance in hypercube multiprocessorsPrithviraj Banerjee, Craig B. Stunkel. 307-311 [doi]

Message routing in an injured hypercubeMing-Syan Chen, Kang G. Shin. 312-317 [doi]

Hypercube message routing in the presence of faultsJesse M. Gordon, Quentin F. Stout. 318-327 [doi]

Hypercube management in the presence of node failuresDilip D. Kandlur, Kang G. Shin. 328-336 [doi]

Embedding triple-modular redundancy into a hypercube architectureDaniel L. Kiskis, Kang G. Shin. 337-345 [doi]

Routing and broadcasting in faulty hypercube computersTze Chiang Lee, John P. Hayes. 346-354 [doi]

A fault-tolerant communication system for the B-Hive generalized hypercube multiprocessorB. D. Harry, R. A. Balla, Dharma P. Agrawal, T. K. Miller, Edward F. Gehringer. 355-362 [doi]

Picasso: an experiment in hypercube operating system designBradley Doherty, Bobby A. A. Nazief, Dirk Grunwald, Daniel A. Reed. 364-373 [doi]

Trillium operating systemGreg D. Burns, Andrew K. Pfiffer, David L. Fielding, Alison A. Brown. 374-376 [doi]

Rapid prototyping of a parallel operating system for a generalized hypercubeEdward F. Gehringer, B. D. Harry. 377-380 [doi]

The SIMPLEX operating systemDavid W. Krumme. 381-383 [doi]

The NX/2 operating systemPaul Pierce. 384-390 [doi]

Moose: a multi-tasking operating system of hypercubesJohn K. Salmon, S. Callahan, Jon Flower, Adam Kolawa. 391-396 [doi]

Ada on hypercubeRussell M. Clapp, Trevor N. Mudge. 399-408 [doi]

Ada tasking on the sequent balanceMike Griffiths. 409-416 [doi]

Crystal: from functional description to efficient parallel codeMarina C. Chen, Young-il Choo, Jingke Li. 417-433 [doi]

Object-oriented concurrent programming in CSTWilliam J. Dally, Andrew A. Chien. 434-439 [doi]

Coherent parallel CEdward W. Felten, Steve W. Otto. 440-450 [doi]

Distributed programs and subroutines for multiprocessorsErik P. DeBenedictis. 451-457 [doi]

Programming environments for highly parallel multiprocessorsAnthony P. Reeves. 458-467 [doi]

SCHEDULE: a hypercube implementationA. L. Beguelin. 468-471 [doi]

Dino: summary and examplesMatthew Rosing, Robert B. Schnabel, Robert P. Weaver. 472-484 [doi]

HyperflowD. DeForest, Antony A. Faustini, R. Lee. 482-488 [doi]

Implementing functional programs on a hypercube multiprocessorBenjamin Goldberg, Paul Hudak. 489-504 [doi]

A dataflow-based APL for the hypercubeAlan S. Mazer. 505-512 [doi]

Environment for enhancing iPSC/2 programmer productivityD. Ertel. 513-519 [doi]

A message-passing model for highly concurrent computationAlain J. Martin. 520-527 [doi]

A programming model for the Mark III hypercube with multiple processor nodesBarbara A. Zimmermann, G. A. Crichton. 528-535 [doi]

A canonical form for parallel programsDaniel E. Stevenson. 536-538 [doi]

Message passing in parallel real time continuous systems simulationsA. M. Baum, D. J. McMillan. 540-549 [doi]

Structured asynchronous communication routines for the FPS T-seriesB. R. Carlile, D. Miles. 550-559 [doi]

A safe vertexEdward W. Felten, Steve W. Otto. 560-564 [doi]

Generalized signals: an interrupt-based communication system for hypercubesEdward W. Felten. 563-568 [doi]

A global object name space for the Intel hypercubeWilliam L. Bain. 570-574 [doi]

Virtual memory for a hypercube multiprocessorJoan M. Francioni, David A. Poplawski, S. Pahwa. 575-579 [doi]

Topologies' - computational messaging for multicomputersKarsten Schwan, Win Bo. 580-593 [doi]

Performance analysis of the hypercube line switchKjell Bratbergsengen. 595-599 [doi]

High performance hypercube communicationsGregory D. Buzzard, Trevor N. Mudge. 600-609 [doi]

Networks for parallel processors: measurements and prognosticationsDirk Grunwald, Daniel A. Reed. 610-619 [doi]

Communication/computation paradigms for hypercubesR. E. Horan, David A. Poplawski. 620-624 [doi]

Adaptive packet routing in a hypercubeChong-kwon Kim, Daniel A. Reed. 625-630 [doi]

Distributed multi-destination routing in hypercube multiprocessorsYouran Lan, L. M. Li, Abdol-Hossein Esfahanian. 631-639 [doi]

Message routing schemes in a hypercube machineD. Raghupathy, Michael R. Leuze, Stephen R. Schach. 640-647 [doi]

Optimal communication algorithms for regular decompositions on the hypercubeGeoffrey C. Fox, Wojtek Furmanski. 648-713 [doi]

Crystal RouterGeoffrey C. Fox, Wojtek Furmanski. 714-724 [doi]

Optimal algorithms for stable dimension permutations on Boolean cubesChing-Tien Ho, S. Lennart Johnsson. 725-736 [doi]

The status of the time warp operating systemDavid R. Jefferson, Brian Beckman, Leo Blume, M. Diloreto, Phil Hontalas, Peter L. Reiher, Kathy Sturdevant, Jack Tupman, John J. Wedel, Frederick Wieland, Herb Younger. 738-744 [doi]

Hypersim: distributed discrete-event simulation on an iPSCThomas C. Hartrum, Brian J. Donlan. 745-747 [doi]

g - A compact language for real-time graphicsWojtek Furmanski, D. Gates. 749-759 [doi]

Interactive performance display and debugging using the NCUBE real-time graphicssystemR. Morison. 760-765 [doi]

Graphics facility useful for performance monitoring on an NCUBEDave Tolle. 766-771 [doi]

Graphics techniques in concurrent simulationV. Warren. 772-785 [doi]

Fortran cubix: definition and implementationIan G. Angus. 787-791 [doi]

Hypersim: a hypercube simulator for parallel systems performance modelingWilliam L. Bain, Shala Arshi. 792-800 [doi]

On allocating subcubes in a hypercube multiprocessorShantanu Dutt, John P. Hayes. 801-810 [doi]

Parallel programming in comfortJon Flower, Roy D. Williams. 811-822 [doi]

A concurrent debugger for iPSC/2 programmersWumo Pan, V. Jackson. 823-831 [doi]

A collection of NCUBE UNIX utilitiesDave Tolle. 832-834 [doi]

Series 2010 multicomputerCorporate Ametek. 836-839 [doi]

T series hypercubeCorporate Floating Point Systems. 840-842 [doi]

The Intel iPSC/2 system: the concurrent supercomputer for production applicationsCorporate Intel. 843-846 [doi]

The NCUBE family of high-performance parallel computer systemsCorporate Ncube. 847-851 [doi]

The Meiko computing surface: an example of a massively parallel systemCorporate Meiko. 852-859 [doi]

Transputer-based parallel processing productsCorporate Computer System Architects. 860-863 [doi]

Transputer systems for the MacintoshCorporate Levco. 864-871 [doi]

The JPL/Caltech Mark IIIfp hypercubePhil Burns, Jerry Crichton, David W. Curkendall, Björn Eng, Chuck Goodhart, Roger Lee, Ray Livingston, John C. Peterson, Moshe Pniel, Jesus O. Tuazon, Barbara A. Zimmermann. 872-884 [doi]

Interwork II concurrent programming toolkitWilliam L. Bain. 886-888 [doi]

Passage: a finite element program for analysis of internal flowsAkin Ecer, Hasan U. Akay, V. Gurdogan, B. Geddes. 889-892 [doi]

A portable programming environment for parallel computersCorporate Parasoft Corporation. 893-895 [doi]

What have we learnt from using real parallel machines to solve real problems?Geoffrey C. Fox. 897-955 [doi]

Hypercube data analysis in astronomy: optical interferometry and millisecond pulsar searchesP. Gorham, Thomas A. Prince, S. Anderson. 957-962 [doi]

Statistical gravitational lensing on the Mark III hypercubeJohn Apostolakis, C. S. Kochanek. 963-970 [doi]

An O(NlogN) hypercube N-body integratorMichael S. Warren, John K. Salmon. 971-975 [doi]

Piriform (Olfactory) cortex model on the hypercubeJames M. Bower, Mark E. Nelson, Matthew A. Wilson, Geoffrey C. Fox, Wojtek Furmanski. 977-999 [doi]

Collective steropsis on the hypercubeRoberto Battiti. 1000-1006 [doi]

Parallel vision techniques on the hypercube computerAlan H. Bond, D. Fashena. 1007-1010 [doi]

Pattern recognition by neural network model on hypercubesWojtek Furmanski. 1011-1021 [doi]

A concurrent on-board vision system for a mobile robotJ. P. Jones. 1022-1032 [doi]

Region growing on a hypercube multiprocessorMarc Willebeek-LeMair, Anthony P. Reeves. 1033-1042 [doi]

Polymer simulation on the hypercubeH.-Q. Ding. 1044-1050 [doi]

Chemical reaction dynamics: integration of coupled sets of ordinary differential equations on the Caltech hypercubeP. G. Hipes, T. Mattson, Y. S. Wu, A. Kuppermann. 1051-1061 [doi]

Waveform relaxation for concurrent dynamic simulation of distillation columnsAnthony Skjellum, Manfred Morari, S. Nattisson. 1062-1071 [doi]

Implementing the beam and warming method on the hypercubeJohn L. Bruno, Peter R. Cappello. 1073-1087 [doi]

Finite difference time domain solution of electromagnetic scattering on the hypercubeRuel H. Calalo, James R. Lyons, William A. Imbriale. 1088-1100 [doi]

A universal concurrent algorithm for plasma particle-in-cell simulation codesPaulette C. Liewer, Viktor K. Decyk, John M. Dawson, Geoffrey C. Fox. 1101-1107 [doi]

Logic fault simulation on a vector hypercube multiprocessorFüsun Özgüner, Cevdet Aykanat, O. Khalid. 1108-1116 [doi]

The Flux-corrected transport algorithm on the NCUBE hypercubeDavid W. Walker, Geoffrey C. Fox, Gary R. Montry. 1117-1126 [doi]

Solution of the 3-D Euler equations for the flow about a fighter aircraft configuration using a hypercube parallel processorD. A. Weissbein, J. F. Mangus, Michael W. George. 1127-1136 [doi]

An interactive system for seismic velocity analysisCliff A. Addison, J. M. Cook, L. R. Hagen. 1138-1145 [doi]

Hypercube performance for 2-D seismic finite-difference modelingLaura Baker. 1146-1156 [doi]

Acoustic wavefield propagation using paraxial extrapolatorsR. W. Clayton, R. W. Graves. 1157-1175 [doi]

Finite element solution of thermal convection on a hypercube concurrent computerMichael Gurnis, Arthur Raefsky, Gregory Lyzenga, Bradford H. Hager. 1176-1179 [doi]

Seismic migration algorithms on parallel computersVijay K. Madisetti, David G. Messerschmitt. 1180-1186 [doi]

Evaluation of a vector hypercube for seismic modellingR. Renaut, J. Petersen. 1187-1192 [doi]

A hypercube Ray-tracerJohn Salmon, Jeffrey Goldsmith. 1194-1206 [doi]

Implementation of Ray tracing on the hypercubeD. E. Orcutt. 1207-1210 [doi]

Dynamic computational geometry on parallel computersLaurence Boxer, Russ Miller. 1212-1219 [doi]

Computational geometry on hypercube computersRuss Miller, Quentin F. Stout. 1220-1229 [doi]

Implementation and performance analysis of parallel assignment algorithms on a hypercube computerBarry A. Carpenter, Nathaniel J. Davis IV. 1231-1235 [doi]

Multi-sensor integration on the NCUBE hypercube computerCharles W. Glover. 1236-1246 [doi]

Concurrent multiple target trackingThomas D. Gottschalk. 1247-1268 [doi]

Implementing a distributed combat simulation on the Time Warp operating systemFrederick Wieland, L. Hawley, A. Feinberg. 1269-1276 [doi]

Lattice gauge theory on the hypercubeJon Flower, John Apostolakis, Clive F. Baillie, H.-Q. Ding. 1278-1287 [doi]

QED on the connection machineClive F. Baillie, S. Lennart Johnsson, Luis F. Ortiz, G. Stuart Pawley. 1288-1295 [doi]

Non-local path integral Monte Carlo on the hypercubeD. Callahan. 1296-1302 [doi]

Molecular dynamics simulation on an iPSC of defects in crystalsPaul A. Flinn. 1303-1312 [doi]

Dynamical simulations of granular materials using the Caltech hypercubeB. T. Werner, P. K. Haff. 1313-1318 [doi]

Design and implementation of a concurrent image processing workstation based on the Mark III hypercubeSteven L. Groom, M. Lee, Alan S. Mazer, W. I. Williams. 1320-1321 [doi]

The prime factor non-binary discrete Fourier transform and use of Crystal_Router as a general purpose communication routineGiovanni Aloisio, Nicola Veneziani, Jai Sam Kim, Geoffrey C. Fox. 1322-1327 [doi]

Chess on a hypercubeEdward W. Felten, Steve W. Otto. 1329-1341 [doi]

Large-scale concurrent computing in artificial intelligence researchLes Gasser. 1342-1351 [doi]

Parallel expert system search techniques for a real-time applicationGary B. Lamont, D. J. Shakley. 1352-1359 [doi]

Blitz: a rule-based system for massively parallel architecturesK. Morgan. 1360-1363 [doi]

FCP: a summary of performance resultsStephen Taylor, R. Shapiro, Ehud Shapiro. 1364-1373 [doi]

A distributed hypercube file systemRobert J. Flynn, Haldun Hadimioglu. 1375-1381 [doi]

ADAMS interface languageJohn L. Pfaltz, Sang H. Son 0001, James C. French. 1382-1389 [doi]

Reliability mechanisms for ADAMSSang H. Son 0001, John L. Pfaltz. 1390-1397 [doi]

Concurrent I/O system for the hypercube multiprocessorA. Witkowski, K. Chandrakumar, G. Macchio. 1398-1407 [doi]

Use of the hypercube for symbolic quantum chromodynamicsAdam Kolawa, Geoffrey C. Fox. 1408-1419 [doi]

Shift-register sequence random number generators on the hypercube conurrent computersT.-W. Chiu. 1421-1429 [doi]

Comparison of two-dimensional FFT methods on the hypercubeC. Y. Chu. 1430-1437 [doi]

Portable programming within a message-passing model: the FFT as an exampleDavid W. Walker. 1438-1450 [doi]

The fast Hartley transform on the hypercube multiprocessorsX. Lin, Tony F. Chan, Walter J. Karplus. 1451-1454 [doi]

Binsorting on hypercubes with d-port communicationSteven R. Seidel, W. L. George. 1455-1461 [doi]

Granularity issues for solving polynomial systems via globally convergent algorithms on a hypercubeDonald C. S. Allison, Amal Chakraborty, Layne T. Watson. 1463-1472 [doi]

Hypercube implementation of the simplex algorithmCraig B. Stunkel, Daniel A. Reed. 1473-1482 [doi]

A concurrent neural network algorithm for the traveling salesman problemNikzad Benny Toomarian. 1483-1490 [doi]

Parallel branch and bound algorithms on hypercube multiprocessorsT. S. Abdel-Rahman, Trevor N. Mudge. 1492-1499 [doi]

Best-first branch-and bound on a hypercubeEdward W. Felten. 1500-1504 [doi]

A dynamic load balancer for a parallel branch and bound algorithmR. P. Ma, F. S. Tsung, M.-H. Ma. 1505-1513 [doi]

Branch-and-bound algorithms on a hypercubeRoy P. Pargas, D. E. Wooster. 1514-1519 [doi]

Process and workload migration for a parallel branch-and-bound algorithm on a hypercube multicomputerKarsten Schwan, J. Gawkowski, Ben A. Blake. 1520-1530 [doi]

Implemention of a divide and conquer cyclic reduction algorithm on the FPS T-20 hypercubeChristopher L. Cox. 1532-1538 [doi]

Prefix algorithms for tridiagonal systems on hypercube multiprocessorsÖmer Egecioglu, Çetin Kaya Koç, Alan J. Laub. 1539-1545 [doi]

A hybrid hypercube algorithm for the symmetric tridiagonal eigenvalue problemJ. A. Jackson, Lorie M. Liebrock, Lynn R. Ziegler. 1546-1547 [doi]

An analytic model for parallel Gaussian elimination on a binary N-Cube architectureVirgílio A. F. Almeida, Lawrence W. Dowdy, Michael R. Leuze. 1550-1553 [doi]

Block-matrix operations using orthogonal treesAnne C. Elster, Anthony P. Reeves. 1554-1561 [doi]

Solving the algebraic Riccati equation on a hypercube multiprocessorJudith D. Gardiner, Alan J. Laub. 1562-1568 [doi]

Implementing Gauss Jordan on a hypercube multicomputerApostolos Gerasoulis, Nikolaos M. Missirlis, Izzy Nelken, Richard L. Peskin. 1569-1576 [doi]

Finding eigenvalues and eigenvectors of unsymmetric matrices using a hypercube multiprocessorGeorge Al Geist II, Robert C. Ward, George J. Davis, Robert E. Funderlic. 1577-1582 [doi]

Large-grain pipelining on hypercube multiprocessorsChung-Ta King, Lionel M. Ni. 1583-1591 [doi]

Cholesky downdating on a hypercubeCharles S. Henkel, Michael T. Heath, Robert J. Plemmons. 1592-1598 [doi]

Expressing Boolean cube matrix algorithms in shared memory primitivesS. Lennart Johnsson, Ching-Tien Ho. 1599-1609 [doi]

Distributed orthogonal factorizationAlex Pothen, Padma Raghavan. 1610-1620 [doi]

Gauss-Jordan inversion with pivoting on the Caltech Mark II hypercubePaul G. Hipes, A. Kuppermann. 1621-1634 [doi]

LU decomposition of banded matrices and the solution of linear systems on hypercubesDavid W. Walker, T. Aldcroft, A. Cisneros, Geoffrey C. Fox, Wojtek Furmanski. 1635-1655 [doi]

Optimal matrix algorithms on homogeneous hypercubesGeoffrey C. Fox, Wojtek Furmanski, David W. Walker. 1656-1673 [doi]

The preconditioned conjugate gradient method on the hypercubeG. Abe, K. Hane. 1676-1686 [doi]

Implementation of the conjugate gradient algorithm on a vector hypercube multiprocessorCevdet Aykanat, Füsun Özgüner, D. S. Scott. 1687-1697 [doi]

An experimental study of methods for parallel preconditioned Krylov methodsDoug Baxter, Joel H. Saltz, Martin H. Schultz, Stanley C. Eisenstat, Kay Crowley. 1698-1711 [doi]

A comparison of several methods of integrating stiff ordinary differential equations on parallel computing architecturesA. Bose, I. Nelken, Jack Gelfand. 1712-1716 [doi]

An iterative solution to speical linear systems on a vector hypercubeLisette G. de Pillis, J. Petersen, John de Pillis. 1717-1725 [doi]

Intrinsically parallel multiscale algorithms for hypercubesPaul O. Frederickson, Oliver A. McBryan. 1726-1734 [doi]

Parallel implementation of domain decomposition techniques on Intel's hypercubeM. Haghoo, Wlodzimierz Proskurowski. 1735-1745 [doi]

A Schwarz splitting variant of cubic spline collocation methods for elliptic PDEsElias N. Houstis, John R. Rice, Emmanuel A. Vavalis. 1746-1754 [doi]

Implementing finite element software on hypercube machinesGregory Lyzenga, Arthur Raefsky, Bahram Nour-Omid. 1755-1761 [doi]

Vectorized dissection on the hypercubeT.-H. Olesen, J. Petersen. 1762-1769 [doi]

DIME: a programming environment for unstructured triangular meshes on a distributed-memory parallel processorRoy D. Williams. 1770-1787 [doi]

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