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Computer science --- Computer architecture. Operating systems --- Parallel processing (Electronic computers) --- 681.3*C1 --- High performance computing --- Multiprocessors --- Parallel programming (Computer science) --- Supercomputers --- Processor architectures (Computer systems organization) --- Parallel processing (Electronic computers). --- Parallel programming (Computer science). --- 681.3*C1 Processor architectures (Computer systems organization) --- Computer programming
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Artificial intelligence. Robotics. Simulation. Graphics --- Information systems --- Natural language processing (Computer science) --- Parallel processing (Electronic computers) --- Traitement automatique des langues naturelles --- Parallélisme (Informatique) --- Academic collection --- High performance computing --- Multiprocessors --- Parallel programming (Computer science) --- Supercomputers --- NLP (Computer science) --- Artificial intelligence --- Electronic data processing --- Human-computer interaction --- Semantic computing --- Parallélisme (Informatique)
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Computer algorithms --- Parallel processing (Electronic computers) --- Algorithmes --- Parallélisme (Informatique) --- Parallel algorithms. --- Parallel algorithms --- 519.6 --- 681.3 *G10 --- High performance computing --- Multiprocessors --- Parallel programming (Computer science) --- Supercomputers --- Algorithms --- Computational mathematics. Numerical analysis. Computer programming --- Computerwetenschap--?*G10 --- Parallel processing (Electronic computers). --- 519.6 Computational mathematics. Numerical analysis. Computer programming --- Parallélisme (Informatique) --- Calcul parallele
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Written by the team that developed the software, this tutorial is the definitive resource for scientists, engineers, and other computer users who want to use PVM to increase the flexibility and power of their high-performance computing resources.Written by the team that developed the software, this tutorial is the definitive resource for scientists, engineers, and other computer users who want to use PVM to increase the flexibility and power of their high-performance computing resources. PVM introduces distributed computing, discusses where and how to get the PVM software, provides an overview of PVM and a tutorial on setting up and running existing programs, and introduces basic programming techniques including putting PVM in existing code. There are program examples and details on how PVM works on UNIX and multiprocessor systems, along with advanced topics (portability, debugging, improving performance) and troubleshooting.PVM (Parallel Virtual Machine) is a software package that enables the computer user to define a networked heterogeneous collection of serial, parallel, and vector computers to function as one large computer. It can be used as stand-alone software or as a foundation for other heterogeneous network software. PVM may be configured to contain various machine architectures, including sequential processors, vector processors, and multicomputers, and it can be ported to new computer architectures that may emerge.
Parallel computers --- Computer networks --- Parallel computers. --- Computer networks. --- COMPUTER SCIENCE/High Performance Computing --- Communication systems, Computer --- Computer communication systems --- Data networks, Computer --- ECNs (Electronic communication networks) --- Electronic communication networks --- Networks, Computer --- Teleprocessing networks --- Data transmission systems --- Digital communications --- Electronic systems --- Information networks --- Telecommunication --- Cyberinfrastructure --- Electronic data processing --- Network computers --- Electronic digital computers --- Distributed processing
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