In this paper, we introduce an architecture of pre-encoded multipliers for Digital Signal Processing applications based on off-line encoding of coefficients. To this extend, the Non-Redundant radix-4 Signed-Digit (NR4SD) encoding technique, which uses the digit values {-1, 0, +1, +2} or {-2,-1,0,+1}, is proposed leading to a multiplier design with less complex partial products implementation. Extensive experimental analysis verifies that the proposed pre-encoded NR4SD multipliers, including the coefficients memory, are more area and power efficient than the conventional Modified Booth scheme
There is a recent boom being witnessed in emerging areas like IoMT (Internet of Medical Things), Art...
IEEEIn this brief, we present a novel design methodology of cost-effective approximate radix-4 Booth...
The use of redundant binary (RB) arithmetic in the design of high-speed digital multi...
Multimedia and Digital Signal Processing (DSP) applications (e.g., Fast Fourier Transform (FFT), aud...
Because the multiplier is really a fundamental component for applying computationally intensive appl...
The radix-4 Booth algorithm is widely used to improve the performance of multiplier because it can r...
This study presents the form and performance of restricted configurable Booth encoding multiplier fo...
With the advent of the VLSI technology, designers could design simple chips with the more number of ...
Abstract—The Booth multiplier has been widely used for high performance signed multiplication by enc...
The method 2n + 1 multiplier is the congestion of a wide drift of applications from silt collection ...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
This paper proposes a new high speed and low power multiplier that uses a new encoding scheme, takin...
AbstractIn this paper, using Radix-4 Modified Booth Encoding (MBE) algorithm high accuracy fixed wid...
Hardware implementations of arithmetic operators using signed digit arithmetic have lost some of the...
Abstract- The conventional modified Booth encoding (MBE) generates an irregular partial product arra...
There is a recent boom being witnessed in emerging areas like IoMT (Internet of Medical Things), Art...
IEEEIn this brief, we present a novel design methodology of cost-effective approximate radix-4 Booth...
The use of redundant binary (RB) arithmetic in the design of high-speed digital multi...
Multimedia and Digital Signal Processing (DSP) applications (e.g., Fast Fourier Transform (FFT), aud...
Because the multiplier is really a fundamental component for applying computationally intensive appl...
The radix-4 Booth algorithm is widely used to improve the performance of multiplier because it can r...
This study presents the form and performance of restricted configurable Booth encoding multiplier fo...
With the advent of the VLSI technology, designers could design simple chips with the more number of ...
Abstract—The Booth multiplier has been widely used for high performance signed multiplication by enc...
The method 2n + 1 multiplier is the congestion of a wide drift of applications from silt collection ...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
This paper proposes a new high speed and low power multiplier that uses a new encoding scheme, takin...
AbstractIn this paper, using Radix-4 Modified Booth Encoding (MBE) algorithm high accuracy fixed wid...
Hardware implementations of arithmetic operators using signed digit arithmetic have lost some of the...
Abstract- The conventional modified Booth encoding (MBE) generates an irregular partial product arra...
There is a recent boom being witnessed in emerging areas like IoMT (Internet of Medical Things), Art...
IEEEIn this brief, we present a novel design methodology of cost-effective approximate radix-4 Booth...
The use of redundant binary (RB) arithmetic in the design of high-speed digital multi...