Efficient carry select adder using 0.12&amp;#x00B5;m technology for low power applications

Reddy, Aditya; Parvathi, Muddapu

doi:10.1109/icacci.2013.6637231

Cited by 3 publications

(2 citation statements)

References 7 publications

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“…Thoidis et al concentrated on a set of innovative voltage-mode quaternary encoder and decoder circuits that implement level-up, level-down, logical-sum, logical-product, and level-conversion operations. These circuits include appropriately built depletion-and enhancement-modes [4,5]. In addition, dynamic and pseudo-static latches, a pass gate with a single signal control, and dynamic and static master-slave storage units were built.…”

Section: Related Workmentioning

confidence: 99%

Implementation of Full adder in Multiple valued Logic for Performance Optimization

Monica Kalbande, Tejswini Panse

2024

jes

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Multiple valued logic is now becoming more significant in real-world applications. Mathematical design blocks are essential in digital and mixed-signal systems. A system's arithmetic blocks often use the most power because of the high switching activity. Implementations of quaternary arithmetic may be a way to cut down on energy use while improving system performance. In this paper, quaternary adders are developed using three different approaches, and their binary equivalents are evaluated in terms of size, predicted logic depth, and performance estimation.

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Section: Related Workmentioning

confidence: 99%

Implementation of Full adder in Multiple valued Logic for Performance Optimization

Monica Kalbande, Tejswini Panse

2024

jes

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“…Carry select adders are known for their speed. A low power consuming Carry select adder can be an asset for any SOI [3], [4], [6]. An efficient full adder design can been used to optimize the big designs.…”

Section: Previous Workmentioning

confidence: 99%

Energy efficient and high performance 64-bit Arithmetic Logic Unit using 28nm technology

Murgai

Gupta

Muthukrishnan

2015

2015 International Conference on Advances in Computing, Communications and Informatics (ICACCI)

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Arithmetic Logic Units are one of the vital unit in general purpose processors and major source of power dissipation. In this paper we have demonstrated an optimized Arithmetic and Logic Unit through the use of an optimized carry select adder. Carry select adders have been considered as the best in their category in terms of power and delay. In this context a full adder optimized in terms of power has been used in synthesizing a carry select adder. Combined with the new adder structure, there is a substantial improvement in terms of power and delay. The total device power and hierarchy power has been reduced to 12.5 % and 53.39 % respectively. 3 % reduction in total completion time has also been observed. The circuit has been synthesized on kintex FPGA through Xilinx 14.3 using 28 nm technology in Verilog HDL and results has been simulated on Modelsim 10.3c. The design is verified using System Verilog on QuestaSim in UVM environment.

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