Hardware implementations of arithmetic operators using signed digit arithmetic have lost some of their earlier popularity. However, SD is revisited and used to realise an efficient radix-16 generic multiplier, which has particular potential for low-power implementation. The SD multiplier algorithm reduces the number of partial products to as much as 1/4, and in initial tests reduces the estimated power consumption to only about 50% of that of the Booth multiplier. It is different from other previous high-radix methods in that it employs a novel method to generate its partial products with zero arithmetic logic
The radix-4 Booth algorithm is widely used to improve the performance of multiplier because it can r...
Abstract Reducing power consumption is a major challenge in developing integrated processors for sma...
In this paper, we introduce an architecture of pre-encoded multipliers for Digital Signal Processing...
In this paper, we introduce a novel high-radix binary signed digit (BSD) serial-parallel multiplier ...
Abstract- Real-time implementation of many digital signal processing (DSP) algorithms and multimedia...
Abstract—The Booth multiplier has been widely used for high performance signed multiplication by enc...
In this paper, we propose a new multiplier-and-accumulator (MAC) architecture for low power and high...
Algorithms from many application domains, such as linear algebra and image/signal processing, heavil...
Algorithms from many application domains, such as linear algebra and image/signal processing, heavil...
Digit-serial implementation styles are best suited for implementation of digital signal processing s...
In this paper the use of Signed Digit (SD) Arithmetic to better exploit some of the architectural ch...
The continuing demand for technological advances while dealing with mutual constraining characterist...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
Digit-serial architectures obtained using traditional unfolding techniques cannot be pipelined beyon...
This report provides a brief overview of the two popular schemes of performing large operand multipl...
The radix-4 Booth algorithm is widely used to improve the performance of multiplier because it can r...
Abstract Reducing power consumption is a major challenge in developing integrated processors for sma...
In this paper, we introduce an architecture of pre-encoded multipliers for Digital Signal Processing...
In this paper, we introduce a novel high-radix binary signed digit (BSD) serial-parallel multiplier ...
Abstract- Real-time implementation of many digital signal processing (DSP) algorithms and multimedia...
Abstract—The Booth multiplier has been widely used for high performance signed multiplication by enc...
In this paper, we propose a new multiplier-and-accumulator (MAC) architecture for low power and high...
Algorithms from many application domains, such as linear algebra and image/signal processing, heavil...
Algorithms from many application domains, such as linear algebra and image/signal processing, heavil...
Digit-serial implementation styles are best suited for implementation of digital signal processing s...
In this paper the use of Signed Digit (SD) Arithmetic to better exploit some of the architectural ch...
The continuing demand for technological advances while dealing with mutual constraining characterist...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
Digit-serial architectures obtained using traditional unfolding techniques cannot be pipelined beyon...
This report provides a brief overview of the two popular schemes of performing large operand multipl...
The radix-4 Booth algorithm is widely used to improve the performance of multiplier because it can r...
Abstract Reducing power consumption is a major challenge in developing integrated processors for sma...
In this paper, we introduce an architecture of pre-encoded multipliers for Digital Signal Processing...