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  • 1
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    The science of computing - Parallel computation (1985)
    In:  Other Sources
    Details
    Publication Date: 2011-08-19
    Description: Although parallel computation architectures have been known for computers since the 1920s, it was only in the 1970s that microelectronic components technologies advanced to the point where it became feasible to incorporate multiple processors in one machine. Concommitantly, the development of algorithms for parallel processing also lagged due to hardware limitations. The speed of computing with solid-state chips is limited by gate switching delays. The physical limit implies that a 1 Gflop operational speed is the maximum for sequential processors. A computer recently introduced features a 'hypercube' architecture with 128 processors connected in networks at 5, 6 or 7 points per grid, depending on the design choice. Its computing speed rivals that of supercomputers, but at a fraction of the cost. The added speed with less hardware is due to parallel processing, which utilizes algorithms representing different parts of an equation that can be broken into simpler statements and processed simultaneously. Present, highly developed computer languages like FORTRAN, PASCAL, COBOL, etc., rely on sequential instructions. Thus, increased emphasis will now be directed at parallel processing algorithms to exploit the new architectures.
    Keywords: COMPUTER SYSTEMS
    Type: American Scientist (ISSN 0003-0996); 73; 322
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    NASA TECHNICAL REPORTS
  • 2
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    White paper: A plan for cooperation between NASA and DARPA to establish a center for advanced architectures (1986)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: Large, complex computer systems require many years of development. It is recognized that large scale systems are unlikely to be delivered in useful condition unless users are intimately involved throughout the design process. A mechanism is described that will involve users in the design of advanced computing systems and will accelerate the insertion of new systems into scientific research. This mechanism is embodied in a facility called the Center for Advanced Architectures (CAA). CAA would be a division of RIACS (Research Institute for Advanced Computer Science) and would receive its technical direction from a Scientific Advisory Board established by RIACS. The CAA described here is a possible implementation of a center envisaged in a proposed cooperation between NASA and DARPA.
    Keywords: COMPUTER SYSTEMS
    Type: NASA-TM-89388 , RIACS-TR-86.10 , NAS 1.15:89388
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    NASA TECHNICAL REPORTS
  • 3
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    Speeding up parallel processing (1988)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now called Amdahl's law, became part of the computing folklore and has inspired much skepticism about the ability of the current generation of massively parallel processors to efficiently deliver all their computing power to programs. The widely publicized recent results of a group at Sandia National Laboratory, which showed speedup on a 1024 node hypercube of over 500 for three fixed size problems and over 1000 for three scalable problems, have convincingly challenged this bit of folklore and have given new impetus to parallel scientific computing.
    Keywords: COMPUTER SYSTEMS
    Type: NASA-CR-184646 , NAS 1.26:184646 , RIACS-TR-88.15
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 4
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    Highly parallel computation (1990)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: Highly parallel computing architectures are the only means to achieve the computation rates demanded by advanced scientific problems. A decade of research has demonstrated the feasibility of such machines and current research focuses on which architectures designated as multiple instruction multiple datastream (MIMD) and single instruction multiple datastream (SIMD) have produced the best results to date; neither shows a decisive advantage for most near-homogeneous scientific problems. For scientific problems with many dissimilar parts, more speculative architectures such as neural networks or data flow may be needed.
    Keywords: COMPUTER SYSTEMS
    Type: NASA-CR-188871 , NAS 1.26:188871 , RIACS-TR-90-35
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    NASA TECHNICAL REPORTS
  • 5
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    The ARPANET after twenty years (1989)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: The ARPANET began operations in 1969 with four nodes as an experiment in resource sharing among computers. It has evolved into a worldwide research network of over 60,000 nodes, influencing the design of other networks in business, education, and government. It demonstrated the speed and reliability of packet-switching networks. Its protocols have served as the models for international standards. And yet the significance of the ARPANET lies not in its technology, but in the profound alterations networking has produced in human practices. Network designers must now turn their attention to the discourses of scientific technology, business, education, and government that are being mixed together in the milieux of networking, and in particular the conflicts and misunderstandings that arise from the different world views of these discourses.
    Keywords: COMPUTER SYSTEMS
    Type: NASA-CR-188853 , NAS 1.26:188853 , RIACS-TR-89-38
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  • 6
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    On evaluating parallel computer systems (1985)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: A workshop was held in an attempt to program real problems on the MIT Static Data Flow Machine. Most of the architecture of the machine was specified but some parts were incomplete. The main purpose for the workshop was to explore principles for the evaluation of computer systems employing new architectures. Principles explored were: (1) evaluation must be an integral, ongoing part of a project to develop a computer of radically new architecture; (2) the evaluation should seek to measure the usability of the system as well as its performance; (3) users from the application domains must be an integral part of the evaluation process; and (4) evaluation results should be fed back into the design process. It is concluded that the general organizational principles are achievable in practice from this workshop.
    Keywords: COMPUTER SYSTEMS
    Type: NASA-CR-185399 , NAS 1.26:185399 , RIACS-TR-85.3
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    NASA TECHNICAL REPORTS
  • 7
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    Massive parallelism in the future of science (1988)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: Massive parallelism appears in three domains of action of concern to scientists, where it produces collective action that is not possible from any individual agent's behavior. In the domain of data parallelism, computers comprising very large numbers of processing agents, one for each data item in the result will be designed. These agents collectively can solve problems thousands of times faster than current supercomputers. In the domain of distributed parallelism, computations comprising large numbers of resource attached to the world network will be designed. The network will support computations far beyond the power of any one machine. In the domain of people parallelism collaborations among large groups of scientists around the world who participate in projects that endure well past the sojourns of individuals within them will be designed. Computing and telecommunications technology will support the large, long projects that will characterize big science by the turn of the century. Scientists must become masters in these three domains during the coming decade.
    Keywords: COMPUTER SYSTEMS
    Type: NASA-CR-185416 , NAS 1.26:185416 , RIACS-TR-88.33
    Format: application/pdf
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