This paper presents the design of a radix-4, 32-bit integer divider which uses a recursive, non-restoring division algorithm. The primary focus for this design is on high-speed operation while maintaining low power consumption. This implementation accepts 32-bit unsigned integers as input, and returns the quotient, remainder, and a special case divide-by-zero flag. Included in this paper is the motivation for this design, background information necessary to understand the algorithm in use, details of the algorithm's implementation, and the evaluation of the proposed design implemented in IBM/GF 32nm SOI technology, which is then compared against other division implementations.Electrical Engineerin
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...
[[abstract]]In recent years, computer applications have increased in the computational complexity. T...
In this thesis, a novel radix-100 divider is designed and implemented. The proposed divider is 3% fa...
International audienceThis paper shows the details of an implementation of variable radix floating-p...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
The speed of high-radix digit-recurrence dividers and square-root units is mainly determined by the ...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
The speed of high-radix digit-recurrence dividers is mainly determined by the hardware complexity of...
In this paper, we propose a class of division algorithms with the aim of reducing the delay of the s...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
This paper presents a derivation of four radix-2 division algorithms by digit recurrence. Each divis...
Abstract — A hardware algorithm for integer division is pro-posed. It is based on the digit-recurren...
textAs technology keeps changing, there is a need to explore different design tradeoffs and alterna...
A hardware algorithm for integer division proposed by Naofumi Takagi, ShunsukeKadowaki and Kazuyoshi...
Includes bibliographical references (page 143)This project details the theory and hardware implement...
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...
[[abstract]]In recent years, computer applications have increased in the computational complexity. T...
In this thesis, a novel radix-100 divider is designed and implemented. The proposed divider is 3% fa...
International audienceThis paper shows the details of an implementation of variable radix floating-p...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
The speed of high-radix digit-recurrence dividers and square-root units is mainly determined by the ...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
The speed of high-radix digit-recurrence dividers is mainly determined by the hardware complexity of...
In this paper, we propose a class of division algorithms with the aim of reducing the delay of the s...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
This paper presents a derivation of four radix-2 division algorithms by digit recurrence. Each divis...
Abstract — A hardware algorithm for integer division is pro-posed. It is based on the digit-recurren...
textAs technology keeps changing, there is a need to explore different design tradeoffs and alterna...
A hardware algorithm for integer division proposed by Naofumi Takagi, ShunsukeKadowaki and Kazuyoshi...
Includes bibliographical references (page 143)This project details the theory and hardware implement...
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...
[[abstract]]In recent years, computer applications have increased in the computational complexity. T...
In this thesis, a novel radix-100 divider is designed and implemented. The proposed divider is 3% fa...