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Design of Low Power and area efficient SQRT Carry Select Adder using Parallel Prefix Adder Structure


Affiliations
1 ECE Department, Yadavindra College of Engineering, Talwandi Sabo, India
 

The SQRT Carry Select Adder (CSA) architectures using parallel prefix adder instead of Ripple Carry Adders (RCA) are implemented and analyzed in this paper. Brent Kung (BK) parallel prefix structure uses to designed a Square Root Carry-Select Adder (SQRT CSA) at different word size and reduced area and power dissipation as compared to that of conventional SQRT CSA. Ripple Carry Adder (RCA) takes longer computation time and Carry Look-ahead scheme (CLA) used to derive fast results but they increase in area and, the carry complexity increases by increasing the width of the adder for the higher bit. Carry Select Adder is a best compromise between RCA and CLA in term of area and delay. The architecture of 16-bit BK SQRT CSA is configured into five different stages and it extends up to 32-bit. Power, delay, PDP and Transistor count of 16 bit adder architectures are calculated at different stage level at 1.0v input voltage. The architecture has been synthesized at 32nm technology at 1.0v using Tanner EDA tool 13.0v. The simulations of Modified SQRT BKA CSA are performed in T-Spice. The results depict that Modified BKA SQRT CSA is better than all the other adder architectures in terms of power, delay and area.

Keywords

Parallel Prefix Adder(PPA), Modified Square Root Brent Kung Adder Carry Select adder (SQRT BKA CSA), Binary-to-excess-1 converter (BEC), etc.
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  • Design of Low Power and area efficient SQRT Carry Select Adder using Parallel Prefix Adder Structure

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Authors

Ikwinder Singh Maan
ECE Department, Yadavindra College of Engineering, Talwandi Sabo, India
Ashwani Kumar Singla
ECE Department, Yadavindra College of Engineering, Talwandi Sabo, India

Abstract


The SQRT Carry Select Adder (CSA) architectures using parallel prefix adder instead of Ripple Carry Adders (RCA) are implemented and analyzed in this paper. Brent Kung (BK) parallel prefix structure uses to designed a Square Root Carry-Select Adder (SQRT CSA) at different word size and reduced area and power dissipation as compared to that of conventional SQRT CSA. Ripple Carry Adder (RCA) takes longer computation time and Carry Look-ahead scheme (CLA) used to derive fast results but they increase in area and, the carry complexity increases by increasing the width of the adder for the higher bit. Carry Select Adder is a best compromise between RCA and CLA in term of area and delay. The architecture of 16-bit BK SQRT CSA is configured into five different stages and it extends up to 32-bit. Power, delay, PDP and Transistor count of 16 bit adder architectures are calculated at different stage level at 1.0v input voltage. The architecture has been synthesized at 32nm technology at 1.0v using Tanner EDA tool 13.0v. The simulations of Modified SQRT BKA CSA are performed in T-Spice. The results depict that Modified BKA SQRT CSA is better than all the other adder architectures in terms of power, delay and area.

Keywords


Parallel Prefix Adder(PPA), Modified Square Root Brent Kung Adder Carry Select adder (SQRT BKA CSA), Binary-to-excess-1 converter (BEC), etc.