A VLSI coder is presented that can function either as an encoder or decoder for Reed-Solomon codes. Full-custom VLSI is used to achieve both circuit density and speed, and allows control of the amount of interconnect. Speed, which is a function of capacitance, which is a function of interconnect, is an important parameter in high-performance VLSI. A single 8.2 mm*8.4 mm, 200000 transistor CMOS chip implementation of the Reed-Solomon code required by the Hubble Space Telescope is reported. The chip features a 10-MHz sustained byte rate independent of error pattern. The 1.6- mu m CMOS integrated circuit has complete decoder and encoder functions and uses a single data/system clock. Block lengths up to 255 bytes and shortened codes are supported with no external buffering. Erasure corrections and random error corrections are supported with programmable correction of up to 10 symbol errors. Correction time is independent of error pattern and the number of errors in the incoming message.


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    Title :

    Custom CMOS Reed Solomon coder for the Hubble Space Telescope


    Additional title:

    Übliche CMOS-Reed-Solomon-Codierer für das Hubble-Raumteleskop


    Contributors:
    Whitaker, S. (author) / Cameron, K. (author) / Owsley, P. (author) / Maki, G. (author)


    Publication date :

    1990


    Size :

    5 Seiten, 4 Quellen


    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English




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