The Vedic Multiplier and the Reversible Logic Gates has Designed and actualized in the increase and Accumulate Unit (MAC) and that is appeared in this paper. A Vedic multiplier is composed by utilizing Urdhava Triyagbhayam sutra and the snake configuration is finished by utilizing reversible rationale entryway. Reversible rationales are likewise the crucial necessity for the developing field of Quantum processing. The Vedic multiplier is utilized for the increase unit in order to decrease halfway items and to get elite and lesser territory .The reversible rationale is utilized to get less power. The MAC is composed in Verilog HDL and the recreation is done in Xilinx 14.2 and blend is done utilizing Xilinx. The chip outline for the proposed ...
Recently, the increased use of portable devices, has driven the research world to design systems wit...
Multipliers are vital components of any processor or computing machine. More often than not, perform...
Now a days the speed of the multipliers is constrained by the speed of the adders used for partial p...
Multiplier design is always a challenging task; however many designs are proposed, the user needs ...
The need of high speed multiplier is increasing day by day because of high speed computer applicatio...
Multiplier Accumulator Unit (MAC) is a part of Digital Signal Processors. The speed of MAC depends o...
Reversible logic is a new technique to reduce the power dissipation. There is no loss of information...
Abstract — Multiplier Accumulator Unit (MAC) is a part of Digital Signal Processors. The speed of MA...
Abstract — A systems performance is generally determined by the speed of the multiplier since multip...
The technique incorporates a high-speed low law Mac multiplier by practicing protection of Vedic com...
ABSTRACT: This paper deals with 64X64 bit multiplier using “URDHVA TIRYAGBHYAM” sutra multiplicatio...
Multiplier design is always a challenging task; however many designs are proposed, the user needs d...
The design of optimized 64 bit multiplier and accumulator (MAC) unit is implemented in this paper. M...
Recently, the increased use of portable devices, has driven the research world to design systems wit...
Vedic mathematics can be aptly employed here to perform multiplication. Multiplier based on Vedic Ma...
Recently, the increased use of portable devices, has driven the research world to design systems wit...
Multipliers are vital components of any processor or computing machine. More often than not, perform...
Now a days the speed of the multipliers is constrained by the speed of the adders used for partial p...
Multiplier design is always a challenging task; however many designs are proposed, the user needs ...
The need of high speed multiplier is increasing day by day because of high speed computer applicatio...
Multiplier Accumulator Unit (MAC) is a part of Digital Signal Processors. The speed of MAC depends o...
Reversible logic is a new technique to reduce the power dissipation. There is no loss of information...
Abstract — Multiplier Accumulator Unit (MAC) is a part of Digital Signal Processors. The speed of MA...
Abstract — A systems performance is generally determined by the speed of the multiplier since multip...
The technique incorporates a high-speed low law Mac multiplier by practicing protection of Vedic com...
ABSTRACT: This paper deals with 64X64 bit multiplier using “URDHVA TIRYAGBHYAM” sutra multiplicatio...
Multiplier design is always a challenging task; however many designs are proposed, the user needs d...
The design of optimized 64 bit multiplier and accumulator (MAC) unit is implemented in this paper. M...
Recently, the increased use of portable devices, has driven the research world to design systems wit...
Vedic mathematics can be aptly employed here to perform multiplication. Multiplier based on Vedic Ma...
Recently, the increased use of portable devices, has driven the research world to design systems wit...
Multipliers are vital components of any processor or computing machine. More often than not, perform...
Now a days the speed of the multipliers is constrained by the speed of the adders used for partial p...