The 'Straight division' algorithm is an in-place division technique that has been known in India as a mental computation technique. This technique is found to be suitable for implementing multiple-precision division on computers using existing single-precision operations. This paper presents some modifications carried out on this basic technique to improve the efficiency of the algorithm. It also discusses an implementation of multiple-precision division using this modified straight division technique on two different processor architectures. This is followed by an analysis of these implementations in comparison with other existing division techniques. It is found that the modified straight division is superior in performance to other known...
Abstract — A hardware algorithm for integer division is pro-posed. It is based on the digit-recurren...
Even though sophisticated synthesis strategies are used for optimization (e.g. area and power consum...
The implementations of division and square root in the FPU's of current microprocessors are bas...
Division is one of the basic arithmetic operations supported by every computer system. The operation...
ABSTRACT. The classical algorithm for multiple-precision division normalizes digits during each step...
This paper presents an e cient hardware algorithm for variable-precision division. The algorithm is ...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
[[abstract]]This paper describes the design of algorithms for unidirectional division. Rather than t...
The purpose of the thesis was to investigate and evaluate existing algorithms for division of comple...
In this paper, we present a new method of performing Division in Hardware and explore different ways...
The authors consider the possibility of designing architectures which combine in the best possible w...
For those divisors ending with digits 1, 3, 7, and 9 in the ones place, this paper presents a new di...
A divide-and-correct algorithm is described for multiple-precision division in the negative base num...
AbstractBack in the 1960s Goldschmidt presented a variation of Newton–Raphson iterations for divisio...
This paper presents different computational algorithms to implement single precision floating point ...
Abstract — A hardware algorithm for integer division is pro-posed. It is based on the digit-recurren...
Even though sophisticated synthesis strategies are used for optimization (e.g. area and power consum...
The implementations of division and square root in the FPU's of current microprocessors are bas...
Division is one of the basic arithmetic operations supported by every computer system. The operation...
ABSTRACT. The classical algorithm for multiple-precision division normalizes digits during each step...
This paper presents an e cient hardware algorithm for variable-precision division. The algorithm is ...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
[[abstract]]This paper describes the design of algorithms for unidirectional division. Rather than t...
The purpose of the thesis was to investigate and evaluate existing algorithms for division of comple...
In this paper, we present a new method of performing Division in Hardware and explore different ways...
The authors consider the possibility of designing architectures which combine in the best possible w...
For those divisors ending with digits 1, 3, 7, and 9 in the ones place, this paper presents a new di...
A divide-and-correct algorithm is described for multiple-precision division in the negative base num...
AbstractBack in the 1960s Goldschmidt presented a variation of Newton–Raphson iterations for divisio...
This paper presents different computational algorithms to implement single precision floating point ...
Abstract — A hardware algorithm for integer division is pro-posed. It is based on the digit-recurren...
Even though sophisticated synthesis strategies are used for optimization (e.g. area and power consum...
The implementations of division and square root in the FPU's of current microprocessors are bas...