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    Performance analysis of OTFT-based SRAM topologies

    New search for: Taniza Marium
    New search for: S.M. Ishraqul Huq
    New search for: Oli Lowna Baroi
    New search for: Md. Shaikh Abrar Kabir
    New search for: Satyendra N. Biswas

    In terms of mechanical flexibility, organic SRAM offers better designs and a commercially feasible option with the ability to deliver acceptable performance. This paper investigates the implementation of different SRAM topologies based on organic thin film transistors (OTFTs). In this work, a compact spice model is used to simulate pOTFT and nOTFT in LTSpice software. Time delays, power consumption, the power delay product (PDP), and static noise margin (SNM) for read and write operations are calculated, and a comparative analysis of OTFT based 6T, 7T, 8T, and 9T SRAM topologies is performed. Among different topologies, 9T OTFT SRAM cell achieves a 1.67× increase in SNM, compared to conventional 6T OTFT-based SRAM cell. The highest figure of merit value of 9T SRAM cell indicates its suitability for various applications.

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    Performance analysis of OTFT-based SRAM topologies

    New search for: Taniza Marium
    New search for: S.M. Ishraqul Huq
    New search for: Oli Lowna Baroi
    New search for: Md. Shaikh Abrar Kabir
    New search for: Satyendra N. Biswas

    In terms of mechanical flexibility, organic SRAM offers better designs and a commercially feasible option with the ability to deliver acceptable performance. This paper investigates the implementation of different SRAM topologies based on organic thin film transistors (OTFTs). In this work, a compact spice model is used to simulate pOTFT and nOTFT in LTSpice software. Time delays, power consumption, the power delay product (PDP), and static noise margin (SNM) for read and write operations are calculated, and a comparative analysis of OTFT based 6T, 7T, 8T, and 9T SRAM topologies is performed. Among different topologies, 9T OTFT SRAM cell achieves a 1.67× increase in SNM, compared to conventional 6T OTFT-based SRAM cell. The highest figure of merit value of 9T SRAM cell indicates its suitability for various applications.

    Access

    Download

    Performance analysis of OTFT-based SRAM topologies

    New search for: Taniza Marium
    New search for: S.M. Ishraqul Huq
    New search for: Oli Lowna Baroi
    New search for: Md. Shaikh Abrar Kabir
    New search for: Satyendra N. Biswas

    In terms of mechanical flexibility, organic SRAM offers better designs and a commercially feasible option with the ability to deliver acceptable performance. This paper investigates the implementation of different SRAM topologies based on organic thin film transistors (OTFTs). In this work, a compact spice model is used to simulate pOTFT and nOTFT in LTSpice software. Time delays, power consumption, the power delay product (PDP), and static noise margin (SNM) for read and write operations are calculated, and a comparative analysis of OTFT based 6T, 7T, 8T, and 9T SRAM topologies is performed. Among different topologies, 9T OTFT SRAM cell achieves a 1.67× increase in SNM, compared to conventional 6T OTFT-based SRAM cell. The highest figure of merit value of 9T SRAM cell indicates its suitability for various applications.

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    Title:

    Performance analysis of OTFT-based SRAM topologies

    Contributors:

    Taniza Marium (author) / S.M. Ishraqul Huq (author) / Oli Lowna Baroi (author) / Md. Shaikh Abrar Kabir (author) / Satyendra N. Biswas (author)

    Published in:

    Memories - Materials, Devices, Circuits and Systems, Vol 5, Iss , Pp 100077- (2023)

    Publication date:

    2023

    ISSN:

    2773-0646

    DOI:

    https://doi.org/10.1016/j.memori.2023.100077

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Organic thin film transistor (OTFT) , SRAM , Static noise margin (SNM) , Power delay product (PDP) , Electric apparatus and materials. Electric circuits. Electric networks , TK452-454.4 , Computer engineering. Computer hardware , TK7885-7895

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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