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ORCID3rd C³P 1988: Pasadena, CA, USA
- Geoffrey C. Fox:
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, ISBN 978-0-89791-278-5
Volume 1
- William J. Dally:
Finite-grain message passing concurrent computers. 2-12 - Erik P. DeBenedictis:
Multiprocessor architectures are converging. 13-20 - A. H. Frey, Geoffrey C. Fox:
Problems and approaches for a Teraflop processor. 21-25 - J. L. Kozarek:
Hardware support for distributed objects in a hypercube. 26-32 - Charles L. Seitz, William C. Athas, Charles M. Flaig, Alain J. Martin, Jakov N. Seizovic, Craig S. Steele, Wen-King Su:
The architecture and programming of the Ametek series 2010 multicomputer. 33-37 - Ramune Arlauskas:
iPSC/2 system: a second generation hypercube. 38-42 - P. Close:
The iPSC/2 node architecture. 43-50 - S. F. Nugent:
The iPSC/2 direct-connect communications technology. 51-60 - Rodney J. Fazzari, John D. Lynch:
The second generation FPS T series: an enhanced parallel vector supercomputer. 61-70 - Jesus O. Tuazon, John C. Peterson, Moshe Pniel:
Mark IIIfp hypercube concurrent processor architecture. 71-80 - T. W. Chiu:
A parallel computer for lattice Gauge theories. 81-91 - Alex Ho, Geoffrey C. Fox, David W. Walker, Scott Snyder, Douglas Chang, Stanley Chen
, Matt Breaden, Terry Cole:
PC-CUBE, a personal computer based hypercube. 92-97 - Alex Ho, Geoffrey C. Fox, David W. Walker, M. Breaden, S. Chen, A. Knutson, S. Kuwamoto, Terry Cole:
MAC-CUBE, the Macintosh-based hypercube. 98-103 - Chris R. Jesshope:
Reconfigurable transputer systems. 105-114 - Anthony J. G. Hey:
Practical parallel processing with transputers. 115-121 - J. G. Harp:
Esprit project P1085 - reconfigurable transputer project. 122-127 - D. L. McBurney, M. Ronan Sleep:
Transputers + virtual tree kernel = real speedups. 128-137 - Peter H. Welch:
An OCCAM approach to transputer engineering. 138-147 - S. Arshi, R. Asbury, Joseph Brandenburg, Dan Scott:
Application performance improvement on the iPSC/2 computer. 149-154 - Clive F. Baillie, Thomas D. Gottschalk, Adam Kolawa:
Comparisons of concurrent tracking on various hypercubes. 155-166 - Clive F. Baillie:
Comparing communication in concurrent processor operating systems. 167-172 - David W. Walker, D. W. Messina, Clive F. Baillie:
Performance evaluation of scientific programs on advanced architecture computers. 173-179 - David W. Walker:
Performance of a QCD code on the NCUBE hypercube. 180-187 - Jacob Barhen, Sandeep Gulati, S. S. Iyengar:
The pebble crurching model for load balancing in concurrent hypercube ensembles. 189-199 - Woei-Kae Chen, Edward F. Gehringer:
A graph-oriented mapping strategy for a hypercube. 200-209 - Fikret Erçal, J. Ramanujam, P. Sadayappan:
Task allocation onto a hypercube by recursive mincut bipartitioning. 210-221 - Marilynn Livingston, Quentin F. Stout:
Distributing resources in hypercube computers. 222-231 - Chrisila C. Pettey, Michael R. Leuze:
Parallel placement of parallel processes. 232-238 - John K. Salmon:
A mathematical analysis of the scattered decomposition. 239-240 - Geoffrey C. Fox, Wojtek Furmanski:
Load balancing loosely synchronous problems with a neural network. 241-278 - Jefferey G. Koller:
A dynamic load balancer on the Intel hypercube. 279-284 - Geoffrey C. Fox, Wojtek Furmanski:
A string theory for time dependent complex systems and its application to automatic decomposition. 285-305 - Prithviraj Banerjee, Craig B. Stunkel:
A novel approach to system-level fault tolerance in hypercube multiprocessors. 307-311 - Ming-Syan Chen, Kang G. Shin:
Message routing in an injured hypercube. 312-317 - Jesse M. Gordon, Quentin F. Stout:
Hypercube message routing in the presence of faults. 318-327 - Dilip D. Kandlur, Kang G. Shin:
Hypercube management in the presence of node failures. 328-336 - Daniel L. Kiskis, Kang G. Shin:
Embedding triple-modular redundancy into a hypercube architecture. 337-345 - Tze Chiang Lee, John P. Hayes:
Routing and broadcasting in faulty hypercube computers. 346-354 - Brian D. Harry, Ruth Ann Balla, Dharma P. Agrawal, Thomas K. Miller, Edward F. Gehringer:
A fault-tolerant communication system for the B-Hive generalized hypercube multiprocessor. 355-362 - Bradley Doherty, Bobby A. A. Nazief, Dirk Grunwald, Daniel A. Reed:
Picasso: an experiment in hypercube operating system design. 364-373 - Gregory D. Burns, Andrew K. Pfiffer, David L. Fielding, Alison A. Brown:
Trillium operating system. 374-376 - Edward F. Gehringer, Brian D. Harry:
Rapid prototyping of a parallel operating system for a generalized hypercube. 377-380 - David W. Krumme:
The SIMPLEX operating system. 381-383 - Paul Pierce:
The NX/2 operating system. 384-390 - John K. Salmon, S. Callahan, Jon Flower, Adam Kolawa:
Moose: a multi-tasking operating system of hypercubes. 391-396 - Russell M. Clapp, Trevor N. Mudge:
Ada on hypercube. 399-408 - Mike Griffiths:
Ada tasking on the sequent balance. 409-416 - Marina C. Chen, Young-il Choo, Jingke Li:
Crystal: from functional description to efficient parallel code. 417-433 - William J. Dally, Andrew A. Chien:
Object-oriented concurrent programming in CST. 434-439 - Edward W. Felten, Steve W. Otto:
Coherent parallel C. 440-450 - Erik P. DeBenedictis:
Distributed programs and subroutines for multiprocessors. 451-457 - Anthony P. Reeves:
Programming environments for highly parallel multiprocessors. 458-467 - A. L. Beguelin:
SCHEDULE: a hypercube implementation. 468-471 - Matthew Rosing, Robert B. Schnabel, Robert P. Weaver:
Dino: summary and examples. 472-484 - D. DeForest, Antony A. Faustini, R. Lee:
Hyperflow. 482-488 - Benjamin Goldberg, Paul Hudak:
Implementing functional programs on a hypercube multiprocessor. 489-504 - Alan S. Mazer:
A dataflow-based APL for the hypercube. 505-512 - D. Ertel:
Environment for enhancing iPSC/2 programmer productivity. 513-519 - Alain J. Martin:
A message-passing model for highly concurrent computation. 520-527 - Barbara A. Zimmermann, G. A. Crichton:
A programming model for the Mark III hypercube with multiple processor nodes. 528-535 - Daniel E. Stevenson:
A canonical form for parallel programs. 536-538 - Alan M. Baum, Donald J. McMillan:
Message passing in parallel real time continuous systems simulations. 540-549 - B. R. Carlile, D. Miles:
Structured asynchronous communication routines for the FPS T-series. 550-559 - Edward W. Felten, Steve W. Otto:
A safe vertex. 560-564 - Edward W. Felten:
Generalized signals: an interrupt-based communication system for hypercubes. 563-568 - William L. Bain:
A global object name space for the Intel hypercube. 570-574 - Joan M. Francioni, David A. Poplawski, Seema Pahwa:
Virtual memory for a hypercube multiprocessor. 575-579 - Karsten Schwan, Win Bo:
Topologies' - computational messaging for multicomputers. 580-593 - Kjell Bratbergsengen:
Performance analysis of the hypercube line switch. 595-599 - Gregory D. Buzzard, Trevor N. Mudge:
High performance hypercube communications. 600-609 - Dirk Grunwald, Daniel A. Reed:
Networks for parallel processors: measurements and prognostications. 610-619 - R. E. Horan, David A. Poplawski:
Communication/computation paradigms for hypercubes. 620-624 - Chong-kwon Kim, Daniel A. Reed:
Adaptive packet routing in a hypercube. 625-630 - Youran Lan, L. M. Li, Abdol-Hossein Esfahanian:
Distributed multi-destination routing in hypercube multiprocessors. 631-639 - D. Raghupathy, Michael R. Leuze, Stephen R. Schach:
Message routing schemes in a hypercube machine. 640-647 - Geoffrey C. Fox, Wojtek Furmanski:
Optimal communication algorithms for regular decompositions on the hypercube. 648-713 - Geoffrey C. Fox, Wojtek Furmanski:
Hypercube algorithms for neural network simulation: the Crystal_Accumulator and the Crystal Router. 714-724 - Ching-Tien Ho, S. Lennart Johnsson:
Optimal algorithms for stable dimension permutations on Boolean cubes. 725-736 - David R. Jefferson, Brian Beckman, Leo Blume, M. Diloreto, Phil Hontalas, Peter L. Reiher, Kathy Sturdevant, Jack Tupman, John J. Wedel, Frederick Wieland, Herb Younger:
The status of the time warp operating system. 738-744 - Thomas C. Hartrum, Brian J. Donlan:
Hypersim: distributed discrete-event simulation on an iPSC. 745-747 - Wojtek Furmanski, D. Gates:
g - A compact language for real-time graphics. 749-759 - R. Morison:
Interactive performance display and debugging using the NCUBE real-time graphicssystem. 760-765 - Dave Tolle:
Graphics facility useful for performance monitoring on an NCUBE. 766-771 - V. Warren:
Graphics techniques in concurrent simulation. 772-785 - Ian G. Angus:
Fortran cubix: definition and implementation. 787-791 - William L. Bain, Shala Arshi:
Hypersim: a hypercube simulator for parallel systems performance modeling. 792-800 - Shantanu Dutt, John P. Hayes:
On allocating subcubes in a hypercube multiprocessor. 801-810 - Jon Flower, Roy D. Williams:
Parallel programming in comfort. 811-822 - Wumo Pan, V. Jackson:
A concurrent debugger for iPSC/2 programmers. 823-831 - Dave Tolle:
A collection of NCUBE UNIX utilities. 832-834 - Corporate Ametek:
Series 2010 multicomputer. 836-839 - Corporate Floating Point Systems:
T series hypercube. 840-842 - Corporate Intel:
The Intel iPSC/2 system: the concurrent supercomputer for production applications. 843-846 - Corporate Ncube:
The NCUBE family of high-performance parallel computer systems. 847-851 - Corporate Meiko:
The Meiko computing surface: an example of a massively parallel system. 852-859 - Corporate Computer System Architects:
Transputer-based parallel processing products. 860-863 - Corporate Levco:
Transputer systems for the Macintosh. 864-871 - Phil 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:
The JPL/Caltech Mark IIIfp hypercube. 872-884 - William L. Bain:
Interwork II concurrent programming toolkit. 886-888 - Akin Ecer, Hasan U. Akay, V. Gurdogan, B. Geddes:
Passage: a finite element program for analysis of internal flows. 889-892 - Corporate Parasoft Corporation:
A portable programming environment for parallel computers. 893-895
Volume 2
- Geoffrey C. Fox:
What have we learnt from using real parallel machines to solve real problems? 897-955 - Peter Gorham, Thomas A. Prince, S. Anderson:
Hypercube data analysis in astronomy: optical interferometry and millisecond pulsar searches. 957-962 - John Apostolakis, C. S. Kochanek:
Statistical gravitational lensing on the Mark III hypercube. 963-970 - Michael S. Warren, John K. Salmon:
An O(NlogN) hypercube N-body integrator. 971-975 - James M. Bower, Mark E. Nelson, Matthew A. Wilson, Geoffrey C. Fox, Wojtek Furmanski:
Piriform (Olfactory) cortex model on the hypercube. 977-999 - Roberto Battiti:
Collective steropsis on the hypercube. 1000-1006 - Alan H. Bond, D. Fashena:
Parallel vision techniques on the hypercube computer. 1007-1010 - Wojtek Furmanski:
Pattern recognition by neural network model on hypercubes. 1011-1021 - Judson P. Jones:
A concurrent on-board vision system for a mobile robot. 1022-1032 - Marc Willebeek-LeMair, Anthony P. Reeves:
Region growing on a hypercube multiprocessor. 1033-1042 - Hong-Qiang Ding:
Polymer simulation on the hypercube. 1044-1050 - Paul G. Hipes, Tim Mattson, Mark Y.-S. Wu, Aron Kuppermann:
Chemical reaction dynamics: integration of coupled sets of ordinary differential equations on the Caltech hypercube. 1051-1061 - Anthony Skjellum, Manfred Morari, S. Nattisson:
Waveform relaxation for concurrent dynamic simulation of distillation columns. 1062-1071 - John L. Bruno, Peter R. Cappello:
Implementing the beam and warming method on the hypercube. 1073-1087 - Ruel H. Calalo, James R. Lyons, William A. Imbriale:
Finite difference time domain solution of electromagnetic scattering on the hypercube. 1088-1100 - Paulette C. Liewer, Viktor K. Decyk, John M. Dawson, Geoffrey C. Fox:
A universal concurrent algorithm for plasma particle-in-cell simulation codes. 1101-1107 - Füsun Özgüner, Cevdet Aykanat, O. Khalid:
Logic fault simulation on a vector hypercube multiprocessor. 1108-1116 - David W. Walker, Geoffrey C. Fox, Gary R. Montry:
The Flux-corrected transport algorithm on the NCUBE hypercube. 1117-1126 - D. A. Weissbein, J. F. Mangus, Michael W. George:
Solution of the 3-D Euler equations for the flow about a fighter aircraft configuration using a hypercube parallel processor. 1127-1136 - Cliff A. Addison, J. M. Cook, L. R. Hagen:
An interactive system for seismic velocity analysis. 1138-1145 - Laura Baker:
Hypercube performance for 2-D seismic finite-difference modeling. 1146-1156 - R. W. Clayton, R. W. Graves:
Acoustic wavefield propagation using paraxial extrapolators. 1157-1175 - Michael Gurnis, Arthur Raefsky, Gregory Lyzenga, Bradford H. Hager:
Finite element solution of thermal convection on a hypercube concurrent computer. 1176-1179 - Vijay K. Madisetti, David G. Messerschmitt:
Seismic migration algorithms on parallel computers. 1180-1186 - Rosemary A. Renaut, J. Petersen:
Evaluation of a vector hypercube for seismic modelling. 1187-1192 - John Salmon, Jeffrey Goldsmith:
A hypercube Ray-tracer. 1194-1206 - D. E. Orcutt:
Implementation of Ray tracing on the hypercube. 1207-1210 - Laurence Boxer, Russ Miller:
Dynamic computational geometry on parallel computers. 1212-1219 - Russ Miller, Quentin F. Stout:
Computational geometry on hypercube computers. 1220-1229 - Barry A. Carpenter, Nathaniel J. Davis IV:
Implementation and performance analysis of parallel assignment algorithms on a hypercube computer. 1231-1235 - Charles W. Glover:
Multi-sensor integration on the NCUBE hypercube computer. 1236-1246 - Thomas D. Gottschalk:
Concurrent multiple target tracking. 1247-1268 - Frederick Wieland, L. Hawley, A. Feinberg:
Implementing a distributed combat simulation on the Time Warp operating system. 1269-1276 - Jon Flower, John Apostolakis, Clive F. Baillie, Hong-Qiang Ding:
Lattice gauge theory on the hypercube. 1278-1287 - Clive F. Baillie, S. Lennart Johnsson, Luis F. Ortiz, G. Stuart Pawley:
QED on the connection machine. 1288-1295 - D. Callahan:
Non-local path integral Monte Carlo on the hypercube. 1296-1302 - Paul A. Flinn:
Molecular dynamics simulation on an iPSC of defects in crystals. 1303-1312 - B. T. Werner, P. K. Haff:
Dynamical simulations of granular materials using the Caltech hypercube. 1313-1318 - Steven L. Groom, M. Lee, Alan S. Mazer, W. I. Williams:
Design and implementation of a concurrent image processing workstation based on the Mark III hypercube. 1320-1321 - Giovanni Aloisio, Nicola Veneziani, Jai Sam Kim, Geoffrey C. Fox:
The prime factor non-binary discrete Fourier transform and use of Crystal_Router as a general purpose communication routine. 1322-1327 - Edward W. Felten, Steve W. Otto:
Chess on a hypercube. 1329-1341 - Les Gasser:
Large-scale concurrent computing in artificial intelligence research. 1342-1351 - Gary B. Lamont, D. J. Shakley:
Parallel expert system search techniques for a real-time application. 1352-1359 - Keith Morgan:
Blitz: a rule-based system for massively parallel architectures. 1360-1363 - Stephen Taylor, R. Shapiro, Ehud Shapiro:
FCP: a summary of performance results. 1364-1373 - Robert J. Flynn, Haldun Hadimioglu:
A distributed hypercube file system. 1375-1381 - John L. Pfaltz, Sang H. Son, James C. French:
ADAMS interface language. 1382-1389 - Sang H. Son, John L. Pfaltz:
Reliability mechanisms for ADAMS. 1390-1397 - A. Witkowski, K. Chandrakumar, G. Macchio:
Concurrent I/O system for the hypercube multiprocessor. 1398-1407 - Adam Kolawa, Geoffrey C. Fox:
Use of the hypercube for symbolic quantum chromodynamics. 1408-1419 - T.-W. Chiu:
Shift-register sequence random number generators on the hypercube conurrent computers. 1421-1429 - C. Y. Chu:
Comparison of two-dimensional FFT methods on the hypercube. 1430-1437 - David W. Walker:
Portable programming within a message-passing model: the FFT as an example. 1438-1450 - X. Lin, Tony F. Chan, Walter J. Karplus:
The fast Hartley transform on the hypercube multiprocessors. 1451-1454 - Steven R. Seidel, W. L. George:
Binsorting on hypercubes with d-port communication. 1455-1461 - Donald C. S. Allison, Amal Chakraborty, Layne T. Watson:
Granularity issues for solving polynomial systems via globally convergent algorithms on a hypercube. 1463-1472 - Craig B. Stunkel, Daniel A. Reed:
Hypercube implementation of the simplex algorithm. 1473-1482 - Nikzad Benny Toomarian:
A concurrent neural network algorithm for the traveling salesman problem. 1483-1490 - Tarek Saad Abdel-Rahman, Trevor N. Mudge:
Parallel branch and bound algorithms on hypercube multiprocessors. 1492-1499 - Edward W. Felten:
Best-first branch-and bound on a hypercube. 1500-1504 - Richard P. Ma, Fu-Sheng Tsung, Mae-Hwa Ma:
A dynamic load balancer for a parallel branch and bound algorithm. 1505-1513 - Roy P. Pargas, D. E. Wooster:
Branch-and-bound algorithms on a hypercube. 1514-1519 - Karsten Schwan, J. Gawkowski, Ben A. Blake:
Process and workload migration for a parallel branch-and-bound algorithm on a hypercube multicomputer. 1520-1530 - Christopher L. Cox:
Implemention of a divide and conquer cyclic reduction algorithm on the FPS T-20 hypercube. 1532-1538 - Ömer Egecioglu, Çetin Kaya Koç, Alan J. Laub:
Prefix algorithms for tridiagonal systems on hypercube multiprocessors. 1539-1545 - J. A. Jackson, Lorie M. Liebrock, Lynn R. Ziegler:
A hybrid hypercube algorithm for the symmetric tridiagonal eigenvalue problem. 1546-1547 - Virgílio A. F. Almeida, Lawrence W. Dowdy, Michael R. Leuze:
An analytic model for parallel Gaussian elimination on a binary N-Cube architecture. 1550-1553 - Anne C. Elster, Anthony P. Reeves:
Block-matrix operations using orthogonal trees. 1554-1561 - Judith D. Gardiner, Alan J. Laub:
Solving the algebraic Riccati equation on a hypercube multiprocessor. 1562-1568 - Apostolos Gerasoulis, Nikolaos M. Missirlis, Izzy Nelken, Richard L. Peskin:
Implementing Gauss Jordan on a hypercube multicomputer. 1569-1576 - George Al Geist II, Robert C. Ward, George J. Davis, Robert E. Funderlic:
Finding eigenvalues and eigenvectors of unsymmetric matrices using a hypercube multiprocessor. 1577-1582 - Chung-Ta King, Lionel M. Ni:
Large-grain pipelining on hypercube multiprocessors. 1583-1591 - Charles S. Henkel, Michael T. Heath, Robert J. Plemmons:
Cholesky downdating on a hypercube. 1592-1598 - S. Lennart Johnsson, Ching-Tien Ho:
Expressing Boolean cube matrix algorithms in shared memory primitives. 1599-1609 - Alex Pothen, Padma Raghavan:
Distributed orthogonal factorization. 1610-1620 - Paul G. Hipes, Aron Kuppermann:
Gauss-Jordan inversion with pivoting on the Caltech Mark II hypercube. 1621-1634 - David W. Walker, T. Aldcroft, A. Cisneros, Geoffrey C. Fox, Wojtek Furmanski:
LU decomposition of banded matrices and the solution of linear systems on hypercubes. 1635-1655 - Geoffrey C. Fox, Wojtek Furmanski, David W. Walker:
Optimal matrix algorithms on homogeneous hypercubes. 1656-1673 - G. Abe, K. Hane:
The preconditioned conjugate gradient method on the hypercube. 1676-1686 - Cevdet Aykanat, Füsun Özgüner, D. S. Scott:
Implementation of the conjugate gradient algorithm on a vector hypercube multiprocessor. 1687-1697 - Doug Baxter, Joel H. Saltz, Martin H. Schultz, Stanley C. Eisenstat, Kay Crowley:
An experimental study of methods for parallel preconditioned Krylov methods. 1698-1711 - A. Bose, I. Nelken, Jack Gelfand:
A comparison of several methods of integrating stiff ordinary differential equations on parallel computing architectures. 1712-1716 - Lisette G. de Pillis, J. Petersen, John de Pillis:
An iterative solution to speical linear systems on a vector hypercube. 1717-1725 - Paul O. Frederickson, Oliver A. McBryan:
Intrinsically parallel multiscale algorithms for hypercubes. 1726-1734 - M. Haghoo, Wlodzimierz Proskurowski:
Parallel implementation of domain decomposition techniques on Intel's hypercube. 1735-1745 - Elias N. Houstis, John R. Rice, Emmanuel A. Vavalis:
A Schwarz splitting variant of cubic spline collocation methods for elliptic PDEs. 1746-1754 - Gregory Lyzenga, Arthur Raefsky, Bahram Nour-Omid:
Implementing finite element software on hypercube machines. 1755-1761 - T.-H. Olesen, J. Petersen:
Vectorized dissection on the hypercube. 1762-1769 - Roy D. Williams:
DIME: a programming environment for unstructured triangular meshes on a distributed-memory parallel processor. 1770-1787
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