Add to ORKGThe authors compare various array multiplier architectures based on (p,q) counter circuits. The tradeoff in multiplier design is always between adding complexity and increasing speed. It is shown that by using a (2,2,3) counter cell it is possible to gain a significant increase in speed over a conventional full-adder, carry-save array based approach. The increase in complexity should be easily accommodated using modern emitter-coupled-logic processes
Multipliers are extensively used in FIR filters, Microprocessors, DSP and communication applications...
Multiplication is a fundamental operation in most arithmetic computing systems. Multipliers have lar...
Abstract: Multipliers are the fundamental components of many digital systems. Low power and high spe...
Both the (5,3) counter and (2,2,3) counter multiplication techniques are investigated for the effici...
Abstract—- This paper presents a comparative analysis of three different multiplier architectures. T...
The performance of multiplication in terms of speed and power is crucial for many Digital Signal met...
High speed and competent addition of various operands is an essential operation in the design any co...
The progress of high-speed, low-power, and regular-layout multipliers is a latest in research. The m...
Conventional array multiplier based on carry save adders is optimized in this letter. Some specific ...
[[abstract]]A design of a parallel multiplier is presented in which the time-consuming multiplicatio...
High latency and efficient addition of multiple operands is an essential operation in any computatio...
AbstractÐThis paper presents a design methodology for high-speed Booth encoded parallel multiplier. ...
Abstract This paper proposes an efficient approach to design high‐speed, accurate multipliers. The p...
Multipliers are extensively used in FIR filters, Microprocessors, DSP and communication applications...
Abstract-This paper describes an efficient implementation of high speed multiplier at the algorithm ...
Multipliers are extensively used in FIR filters, Microprocessors, DSP and communication applications...
Multiplication is a fundamental operation in most arithmetic computing systems. Multipliers have lar...
Abstract: Multipliers are the fundamental components of many digital systems. Low power and high spe...
Both the (5,3) counter and (2,2,3) counter multiplication techniques are investigated for the effici...
Abstract—- This paper presents a comparative analysis of three different multiplier architectures. T...
The performance of multiplication in terms of speed and power is crucial for many Digital Signal met...
High speed and competent addition of various operands is an essential operation in the design any co...
The progress of high-speed, low-power, and regular-layout multipliers is a latest in research. The m...
Conventional array multiplier based on carry save adders is optimized in this letter. Some specific ...
[[abstract]]A design of a parallel multiplier is presented in which the time-consuming multiplicatio...
High latency and efficient addition of multiple operands is an essential operation in any computatio...
AbstractÐThis paper presents a design methodology for high-speed Booth encoded parallel multiplier. ...
Abstract This paper proposes an efficient approach to design high‐speed, accurate multipliers. The p...
Multipliers are extensively used in FIR filters, Microprocessors, DSP and communication applications...
Abstract-This paper describes an efficient implementation of high speed multiplier at the algorithm ...
Multipliers are extensively used in FIR filters, Microprocessors, DSP and communication applications...
Multiplication is a fundamental operation in most arithmetic computing systems. Multipliers have lar...
Abstract: Multipliers are the fundamental components of many digital systems. Low power and high spe...