Redundant Number Systems have been widely used in fast arithmetic circuits design. Signed-Digit (SD) or generally High-Radix SD (HRSD) number system is one of the most important redundant number systems. HRSD additions are used in many arithmetic functions as basic operations. Hence, improving the additions characteristics will improve the performance of almost all arithmetic modules. Several HRSD adders have been introduced in literatures. In this paper a new maximally redundant HRSD adder is proposed. This adder is compared to some most efficient HRSD adders previously published. The proposed adder is fabricated using a standard TSMC 65nm CMOS technology at 1volt supply voltage. The adder consumes 2.5% less power than the best previous pu...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
Hardware implementations of arithmetic operators using signed digit arithmetic have lost some of the...
Addition on GF(p) and GF(2/sup p/) differs only in terms of the propagation of the carry. The unific...
The need for high speed digital circuits became more prominent as portable multimedia and communicat...
Binary Signed-Digit Residue Number System (BSD-RNS) has been proposed in the literatures as an appro...
Approximate high radix dividers (HR-AXDs) are proposed and investigated in this paper. High-radix di...
The continuing demand for technological advances while dealing with mutual constraining characterist...
[[abstract]]We propose an asymmetric high-radix signed-digit (AHSD) number system for fast binary ad...
A radix-10 multiplication is the foremost frequent operations employed by several monetary business ...
Arithmetic operations are widely used and play important role in various digital systems such as com...
A limitation is applied over the speed of latest computers while performing the arithmetic functions...
In this paper the use of Signed Digit (SD) Arithmetic to better exploit some of the architectural ch...
Speeding up addition is the key to faster digital signal processing (DSP). This can be achieved by e...
There is a growing demand for high-speed arithmetic co-processors for use in applications with compu...
In this paper a comparator is designed using Redundant Binary Signed Digit (RBSD) Number System. Rad...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
Hardware implementations of arithmetic operators using signed digit arithmetic have lost some of the...
Addition on GF(p) and GF(2/sup p/) differs only in terms of the propagation of the carry. The unific...
The need for high speed digital circuits became more prominent as portable multimedia and communicat...
Binary Signed-Digit Residue Number System (BSD-RNS) has been proposed in the literatures as an appro...
Approximate high radix dividers (HR-AXDs) are proposed and investigated in this paper. High-radix di...
The continuing demand for technological advances while dealing with mutual constraining characterist...
[[abstract]]We propose an asymmetric high-radix signed-digit (AHSD) number system for fast binary ad...
A radix-10 multiplication is the foremost frequent operations employed by several monetary business ...
Arithmetic operations are widely used and play important role in various digital systems such as com...
A limitation is applied over the speed of latest computers while performing the arithmetic functions...
In this paper the use of Signed Digit (SD) Arithmetic to better exploit some of the architectural ch...
Speeding up addition is the key to faster digital signal processing (DSP). This can be achieved by e...
There is a growing demand for high-speed arithmetic co-processors for use in applications with compu...
In this paper a comparator is designed using Redundant Binary Signed Digit (RBSD) Number System. Rad...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
Hardware implementations of arithmetic operators using signed digit arithmetic have lost some of the...
Addition on GF(p) and GF(2/sup p/) differs only in terms of the propagation of the carry. The unific...