High speed multiplier design using Decomposition Logic | Zendy

P. Ramanathan | Zendy; Thangapandian Vanathi | Zendy; Sundeepkumar Agarwal | Zendy

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High speed multiplier design using Decomposition Logic

Author(s) -

P. Ramanathan,

Thangapandian Vanathi,

Sundeepkumar Agarwal

Publication year - 2009

Publication title -

serbian journal of electrical engineering

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.133

H-Index - 5

eISSN - 2217-7183

pISSN - 1451-4869

DOI - 10.2298/sjee0901033r

Subject(s) - multiplier (economics) , dissipation , electronic engineering , digital signal processor , computer science , logic gate , digital signal processing , computer hardware , arithmetic , mathematics , engineering , physics , economics , macroeconomics , thermodynamics

The multiplier forms the core of a Digital Signal Processor and is a major source of power dissipation. Often, the multiplier forms the limiting factor for the maximum speed of operation of a Digital Signal Processor. Due to continuing integrating intensity and the growing needs of portable devices, low-power, high-performance design is of prime importance. A new technique of implementing a multiplier circuit using Decomposition Logic is proposed here which improves speed with very little increase in power dissipation when compared to tree structured Dadda multipliers. Tanner EDA was used for simulation in the TSMC 180nm technology

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