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ORCIDFuture Generation Computer Systems, Volume 10
Volume 10, Number 1, April 1994
- Daniel Etiemble, Jean-Claude Syre:
Parallel architecture and language in Europe. 1-2 - T. Collette, Hassane Essafi, Didier Juvin, J. Kaiser:
SYMPATIX: A SIMD computer performing the low and intermediate levels of image processing. 3-13 - Jean-Marc Kuntz:
Performance evaluation of cache architectures in tightly coupled multiprocessor systems. 15-27 - Yasuo Hidaka, Hanpei Koike, Hidehiko Tanaka:
Architecture of parallel management kernel for PIE64. 29-43 - José Duato
:
Improving the efficiency of virtual channels with time-dependent selection functions. 45-58 - Jean-Marc Jézéquel, F. Bergheul, Françoise André:
Programming massively parallel architectures with sequential object oriented languages. 59-70 - Gopal Gupta, Vítor Santos Costa:
Optimal implementation of and-or parallel Prolog. 71-92 - Jean-Marie Jacquet, Koenraad De Bosschere:
On the semantics of μ Log. 93-135 - Paul Anderson, David Bolton, Paul H. J. Kelly:
Paragon specifications: Structure, analysis and implementation. 137-148
Volume 10, Numbers 2-3, June 1994
- Louis O. Hertzberger:
Editorial. 151 - D. J. Wallace:
HPCN in Europe: A personal perspective. 153-158 - Rick Stevens:
High-performance computing and communications. 159-167 - Darrell James Parsons:
HPCN applications in finance. 169-172 - E. Haug, J. Dubois, Jan Clinckemaillie, Stefanos Vlachoutsis, Guy Lonsdale:
Transport vehicle crash, safety and manufacturing simulation in the perspective of high performance computing and networking. 173-181 - Pietro Rossi:
Science and industry in HPCN. 183-188 - F. T. M. Nieuwstadt, J. G. M. Eggels, R. J. A. Janssen, M. B. J. M. Pourquié:
Direct and large-eddy simulations of turbulence in fluids. 189-205 - Daan Frenkel:
Computation challenges in complex liquids: Entropy-driven phase transitions. 207-212 - M. J. Gillan:
First-principles calculations on materials using massively parallel computing. 213-222 - Matthew Witten:
The role of high performance computing in medicine and public health. 223-232 - Robert Cooper:
The SuperJANET project. 233-240 - Roberto Bisiani:
High performance computing systems: Present and future. 241-248 - Gianluigi Castelli:
Software development environments for massively parallel systems. 249-256 - Ute Gärtel, Wolfgang Joppich, Anton Schüller, Horst Schwichtenberg, Ulrich Trottenberg, G. Winter:
Two strategies in parallel computing: Porting existing software versus developing new parallel algorithms - two examples. 257-262 - Maurice Schlumberger:
Software developments for industrial research. 263-267 - Eric Violard, Guy-René Perrin:
PEI: A simple unifying model to design parallel programs. 269-272 - Farhad Arbab, Ivan Herman:
Manifold. 273-277 - Frédéric Desprez, Bernard Tourancheau:
LOCCS: Low overhead communication and computation subroutines. 279-284 - Uwe Geuder, Monika Härdtner, Bernhard Wörner, Roland Zink:
GRIDS - A programming system for grid-based technical and scientific applications on parallel systems. 285-289 - Emilio Luque, Remo Suppi, Joan Sorribes:
Simulation of parallel systems: PSEE (Parallel System Evaluation Environment). 291-294 - Emilio Luque, Miquel A. Senar, Daniel Franco, Porfidio Hernández, Elisa Heymann, Juan C. Moure:
Programming environment for a transputer based computer. 295-299 - Emilio Luque, Ana Ripoll, Tomàs Margalef, Ana Cortés:
Scheduling of parallel programs including dynamic loops. 301-304 - Jan F. de Ronde, Peter M. A. Sloot, Marcel Beemster, Louis O. Hertzberger:
The CAMAS workbench: Computer Aided Migration of Applications System. 305-308 - Margreet Louter-Nool:
A parallel multigrid code with a fast vectorized ILU-relaxation. 309-313 - Kitty Potma, Walter Hoffmann:
Boosting the performance of the linear algebra part in an ODE solver for shared memory systems. 315-319 - Walter Hoffmann, Kitty Potma, Gera Pronk:
Solving dense linear systems by Gauss-Huard's method on a distributed memory system. 321-325 - P. A. van Mourik:
Vectorization and parallelization of a multi-block Navier-Stokes flow solver on different computer architectures. 327-329 - L. T. Wille, J. L. Rogers, C. P. Burmester, R. Gronsky:
Towards first-principles theories of materials and biological systems - The need for massive parallelism. 331-338 - J. P. Goedbloed, Stefaan Poedts, G. T. A. Huysmans, G. Halberstadt, H. Holties, A. J. C. Beliën:
Magnetohydrodynamic spectroscopy: Large scale computation of the spectrum of waves in plasmas. 339-343 - R. W. C. P. Verstappen, Jan G. Wissink, W. Cazemier, Arthur E. P. Veldman:
Direct numerical simulations of turbulent flow in a driven cavity. 345-350 - Tino Lourens, Nicolai Petkov, Peter Kruizinga:
Large scale natural vision simulations. 351-358 - J. M. Voogd, Peter M. A. Sloot, R. van Dantzig:
Crystallization on a sphere. 359-361
Volume 10, Number 4, November 1994
- E. Znaty:
BECAUSE European workshop Sophia-Antipolis (France) 14-16 October 1992. General presentation of the BECAUSE Benchmark Set: BBS. 365-379 - Jean-Michel Malé:
Parallel calculations on the CM-2: BBS test programs and spectral methods. 381-389 - François Bodin, Thierry Priol:
Overview of the KOAN programming environment for the iPSC/2 and performance evaluation of the BECAUSE test program 2.51. 391-401 - T. Z. Kalamboukis:
Communication performance of a message passing MIMD computer. 403-409 - Armel de La Bourdonnaye:
A new technique for reducing the cost of integral equations in axisymmetric cases. 411-417 - C. P. Riley, J. Simkin:
The serial performance standards for the BBS test program. 419-428 - Johannes Linden, Guy Lonsdale, Hubert Ritzdorf, Anton Schüller:
Scalability aspects of parallel multigrid. 429-439
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