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    Energy-efficient Hadamard-based SATD architectures

    New search for: Brascher, Andre Beims
    New search for: Seidel, Ismael
    New search for: Guntzel, Jose Luis

    In this paper we present energy-efficient Hadamard-based Sum of Absolute Transformed Differences (SATD) architectures. We relied on two state of the art methods for SATD, one using the Fast Hadamard Transform (FHT) butterfly and another one using the so-called Transform-Exempted (TE) SATD algorithm. Those were combined with architectural decisions, as the use of a transpose buffer. A total of six Hadamard-based SATD architectures were synthesized for a commercial 45 nm standard cell library. The best energy results are related to TE-SATD architectures: down to 7.62 pJ/SATD in the case of parallel architecture with pipeline. However, considering also the area results when evaluating energy, the best results are achieved when both methods are applied to the transpose buffer base architecture: nearly 10 pJ/SATD with up to 71% smaller area compared with parallel base architectures.

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    Energy-efficient Hadamard-based SATD architectures

    New search for: Brascher, Andre Beims
    New search for: Seidel, Ismael
    New search for: Guntzel, Jose Luis

    In this paper we present energy-efficient Hadamard-based Sum of Absolute Transformed Differences (SATD) architectures. We relied on two state of the art methods for SATD, one using the Fast Hadamard Transform (FHT) butterfly and another one using the so-called Transform-Exempted (TE) SATD algorithm. Those were combined with architectural decisions, as the use of a transpose buffer. A total of six Hadamard-based SATD architectures were synthesized for a commercial 45 nm standard cell library. The best energy results are related to TE-SATD architectures: down to 7.62 pJ/SATD in the case of parallel architecture with pipeline. However, considering also the area results when evaluating energy, the best results are achieved when both methods are applied to the transpose buffer base architecture: nearly 10 pJ/SATD with up to 71% smaller area compared with parallel base architectures.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Energy-efficient Hadamard-based SATD architectures

    New search for: Brascher, Andre Beims
    New search for: Seidel, Ismael
    New search for: Guntzel, Jose Luis

    In this paper we present energy-efficient Hadamard-based Sum of Absolute Transformed Differences (SATD) architectures. We relied on two state of the art methods for SATD, one using the Fast Hadamard Transform (FHT) butterfly and another one using the so-called Transform-Exempted (TE) SATD algorithm. Those were combined with architectural decisions, as the use of a transpose buffer. A total of six Hadamard-based SATD architectures were synthesized for a commercial 45 nm standard cell library. The best energy results are related to TE-SATD architectures: down to 7.62 pJ/SATD in the case of parallel architecture with pipeline. However, considering also the area results when evaluating energy, the best results are achieved when both methods are applied to the transpose buffer base architecture: nearly 10 pJ/SATD with up to 71% smaller area compared with parallel base architectures.

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    Title:

    Energy-efficient Hadamard-based SATD architectures

    Contributors:

    Cancellier, Luiz Henrique (author) / Brascher, Andre Beims (author) / Seidel, Ismael (author) / Guntzel, Jose Luis (author)

    Published in:

    2014 27th Symposium on Integrated Circuits and Systems Design (SBCCI) ; 1-6

    Publication date:

    2014-09-01

    Size:

    336183 byte

    ISBN:

    978-1-4799-6873-2

    DOI:

    https://doi.org/10.1145/2660540.2661004

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

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