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Most of the research in digital multipliers in the last few decades has focused on reducing the delay of partial products accumulation. In the era of pervasive computing, however, the emphasis of VLSI design is on both high speed and low power operation. This book has presented several new insights into the high speed and energy-efficient redundant binary (RB) multipliers. Advances in the architectural innovation have been made over previous RB multiplier architectures. A structural approach has also been proposed to analyze the performance of N×N-bit RB multiplier constructed with a…mehr

Produktbeschreibung
Most of the research in digital multipliers in the last few decades has focused on reducing the delay of partial products accumulation. In the era of pervasive computing, however, the emphasis of VLSI design is on both high speed and low power operation. This book has presented several new insights into the high speed and energy-efficient redundant binary (RB) multipliers. Advances in the architectural innovation have been made over previous RB multiplier architectures. A structural approach has also been proposed to analyze the performance of N×N-bit RB multiplier constructed with a conglomerate of redundant binary partial products generation, encoding, reduction and conversion methods. Based on this analysis, the RB multiplier design space can be further enlarged through the informed decisions of the relative merits and tradeoffs of these architectural options.
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Autorenporträt
Associate Professor in the University of Electronic Science and Technology of China. She received the Ph.D from the Nanyang Technological University, Singapore, and has been with the Institute of Microelectronics, Singapore and STMicroelectronics. Her research interests include computer arithmetic circuits and low-power IC design.