In this paper, an innovative fault tolerant solid state mass memory (FTSSMM) architecture is described. Solid state mass memories (SSMMs) are particularly suitable for space applications and more in general for harsh environments such us, for example, nuclear accelerators or avionics. The presented FTSSMM design has been entirely based on commercial off the shelf (COTS) components. In fact, cost competitive and very high performance SSMMs cannot be easily implemented by using space qualified components, due the technological gap and very high cost characterizing these components. In order to match the severe reliability requirements of space applications a COTS-based apparatus must be designed by using suitable system level methodologies (Kluth, 1996 and Fichna, 1998). In the proposed architecture, error-correcting codes are used to strengthen the commercial dynamic random access memory (DRAM) chips, while the system controller has been designed by applying suitable fault tolerant design techniques. Different from other proposed solutions, our architecture fully exploits the reconfiguration capabilities of Reed-Solomon (RS) codes, discriminates between permanent and transient faults reducing the use of spare elements, and provides dynamic reconfiguration and graceful degradation capability, i.e., the FTSSMM performances are gracefully reduced in case of permanent faults, maintaining part of the system functionality. The paper shows the FTSSMM design methodology, the architecture, the reliability analysis, some simulation results, and a description of its implementation based on fast prototyping techniques.


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    Title :

    Fault tolerant solid state mass memory for space applications


    Contributors:
    Cardarilli, G.C. (author) / Ottavi, M. (author) / Pontarelli, S. (author) / Re, M. (author) / Salsano, A. (author)


    Publication date :

    2005-10-01


    Size :

    3737681 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English



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