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A DESIGN OF AREA AND POWER EFFICIENT HIGH SPEED DATA PATH LOGIC SYSTEM
Author(s) -
G. N. Murthy,
R. Trinath
Publication year - 2015
Publication title -
international journal of electrical and electronics engineering
Language(s) - English
Resource type - Journals
ISSN - 2231-5284
DOI - 10.47893/ijeee.2015.1164
Subject(s) - adder , computer science , arithmetic , power (physics) , cmos , path (computing) , power consumption , computer hardware , parallel computing , mathematics , telecommunications , electronic engineering , engineering , programming language , physics , quantum mechanics , latency (audio)
Carry Select Adder (CSLA) is one of the fastest adders use in many data-processing processors to perform fast arithmetic functions. From the structure of the CSLA, it is clear that there is scope for reducing the area and power consumption in the CSLA. This work uses a simple and efficient gate-level modification to significantly reduce the area and power of the CSLA. Based on this modification 8-, 16-, 32-, and 64-b square-root CSLA (SQRT CSLA) architecture have been developed and compared with the regular SQRT CSLA architecture. The proposed design has reduced area and power as compared with the regular SQRT CSLA with only a slight increase in the delay. This work evaluates the performance of the proposed designs in terms of delay, area, power, and their products by hand with logical effort and through custom design and layout in 0.18- m CMOS process technology. The results analysis shows that the proposed CSLA structure is better than the regular SQRT CSLA.

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