A unique design for an optimized N-bit multiplier is proposed and implemented which utilizes a modified divide-and-conquer technique. The conventional technique requires four N/2-bit multipliers to perform N-bit multiplication, whereas the proposed design uses only one multiplier module in hardware to perform the functionality of four modules. It uses Dadda algorithm in its multiplier module. It has been implemented using Verilog HDL, and a good accuracy of results was observed in simulations which effectively verify its functionality. Design was also synthesized on various FPGAs including Spartan 3E, Virtex-5 and Virtex-7. Performance summary, after place and route, showed that the proposed approach significantly reduces hardware utilizati...
Binary multiplication continues to be one of the essential arithmetic operations in digital circuits...
Abstract: Now a days the technology is growing day by day with faster rate. Particularly the usage o...
Modern IC Technology focuses on the planning of ICs considering additional space improvement and low...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematicappr...
Digital systems which are more effective are necessary due to the enormous growth in the technology....
ABSTRACT: In this paper, a novel BCD multiplier approach is proposed. The main highlight of the prop...
This study presents the form and performance of restricted configurable Booth encoding multiplier fo...
High speed multiplication in Field Programmable Gate Arrays is often performed either using logic ce...
Abstract-In this paper, a high performance, high throughput and area efficient architecture of a mul...
Multiplication is a fundamental operation in most arithmetic computing systems. Multipliers have lar...
Power and area efficient multiplier using CMOS logic circuits for applications in various digital si...
Abstract- High–speed multiplication has always been a fundamental requirement of high performance pr...
A new approach has been used for optimized design of multipliers based upon the concepts of Vedic ma...
The performance of multiplication in terms of speed and power is crucial for many Digital Signal met...
Binary multiplication continues to be one of the essential arithmetic operations in digital circuits...
Abstract: Now a days the technology is growing day by day with faster rate. Particularly the usage o...
Modern IC Technology focuses on the planning of ICs considering additional space improvement and low...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematicappr...
Digital systems which are more effective are necessary due to the enormous growth in the technology....
ABSTRACT: In this paper, a novel BCD multiplier approach is proposed. The main highlight of the prop...
This study presents the form and performance of restricted configurable Booth encoding multiplier fo...
High speed multiplication in Field Programmable Gate Arrays is often performed either using logic ce...
Abstract-In this paper, a high performance, high throughput and area efficient architecture of a mul...
Multiplication is a fundamental operation in most arithmetic computing systems. Multipliers have lar...
Power and area efficient multiplier using CMOS logic circuits for applications in various digital si...
Abstract- High–speed multiplication has always been a fundamental requirement of high performance pr...
A new approach has been used for optimized design of multipliers based upon the concepts of Vedic ma...
The performance of multiplication in terms of speed and power is crucial for many Digital Signal met...
Binary multiplication continues to be one of the essential arithmetic operations in digital circuits...
Abstract: Now a days the technology is growing day by day with faster rate. Particularly the usage o...
Modern IC Technology focuses on the planning of ICs considering additional space improvement and low...