TECHNIQUES FOR HIGH-PRECISION DIGITAL FILTERING WITH MULTIPLE MICROPROCESSORS.

William Kenneth Jenkins

    Research output: Contribution to conferencePaper

    5 Citations (Scopus)

    Abstract

    A hybrid digital-filter implementation technique is presented that combines a combinatorial vector multiplication technique with a residue number architecture. The hybrid technique eliminates general multiplication and leads to a parallel residue structure that is suitable for implementation with multiple microprocessors. The implementation is efficient because each processor operates with simple residue arithmetic; i. e. , none of the processors is required to handle multibyte operands. An alternative residue algorithm is described for microprocessor implementation of nonrecursive adaptive filters.

    Original languageEnglish (US)
    Pages58-62
    Number of pages5
    StatePublished - Jan 1 1977
    EventProc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ - Lubbock, TX, USA
    Duration: Aug 15 1977Aug 17 1977

    Other

    OtherProc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ
    CityLubbock, TX, USA
    Period8/15/778/17/77

    Fingerprint

    Microprocessor chips
    Adaptive filters
    Digital filters

    All Science Journal Classification (ASJC) codes

    • Engineering(all)

    Cite this

    Jenkins, W. K. (1977). TECHNIQUES FOR HIGH-PRECISION DIGITAL FILTERING WITH MULTIPLE MICROPROCESSORS.. 58-62. Paper presented at Proc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ, Lubbock, TX, USA, .
    Jenkins, William Kenneth. / TECHNIQUES FOR HIGH-PRECISION DIGITAL FILTERING WITH MULTIPLE MICROPROCESSORS. Paper presented at Proc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ, Lubbock, TX, USA, .5 p.
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    abstract = "A hybrid digital-filter implementation technique is presented that combines a combinatorial vector multiplication technique with a residue number architecture. The hybrid technique eliminates general multiplication and leads to a parallel residue structure that is suitable for implementation with multiple microprocessors. The implementation is efficient because each processor operates with simple residue arithmetic; i. e. , none of the processors is required to handle multibyte operands. An alternative residue algorithm is described for microprocessor implementation of nonrecursive adaptive filters.",
    author = "Jenkins, {William Kenneth}",
    year = "1977",
    month = "1",
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    language = "English (US)",
    pages = "58--62",
    note = "Proc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ ; Conference date: 15-08-1977 Through 17-08-1977",

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    Jenkins, WK 1977, 'TECHNIQUES FOR HIGH-PRECISION DIGITAL FILTERING WITH MULTIPLE MICROPROCESSORS.', Paper presented at Proc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ, Lubbock, TX, USA, 8/15/77 - 8/17/77 pp. 58-62.

    TECHNIQUES FOR HIGH-PRECISION DIGITAL FILTERING WITH MULTIPLE MICROPROCESSORS. / Jenkins, William Kenneth.

    1977. 58-62 Paper presented at Proc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ, Lubbock, TX, USA, .

    Research output: Contribution to conferencePaper

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    N2 - A hybrid digital-filter implementation technique is presented that combines a combinatorial vector multiplication technique with a residue number architecture. The hybrid technique eliminates general multiplication and leads to a parallel residue structure that is suitable for implementation with multiple microprocessors. The implementation is efficient because each processor operates with simple residue arithmetic; i. e. , none of the processors is required to handle multibyte operands. An alternative residue algorithm is described for microprocessor implementation of nonrecursive adaptive filters.

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    Jenkins WK. TECHNIQUES FOR HIGH-PRECISION DIGITAL FILTERING WITH MULTIPLE MICROPROCESSORS.. 1977. Paper presented at Proc of the Midwest Symp on Circuits and Syst, 20th, Tex Tech Univ, Lubbock, TX, USA, .