International audienceThis paper shows the details of an implementation of variable radix floating-point complex division based on previous implementations of the algorithm. This implementation takes advantage of the easier prescaling offered by low-radix division and recodes it as necessary for higher radix iterations throughout the design. This, along with proper use of redundant digit sets, allows us to significantly altar performance characteristics relative to exclusively high-radix division implementations. Comparisons to existing architectures are shown, as well as common implementation optimizations for future iterations. Results are given in cmos32soi 32nm MTCMOS technology using ARMbased standard-cells and commercial EDA toolsets
This paper presents floating-point division algorithms and implementations forembedded VLIW integer ...
The speed of high-radix digit-recurrence dividers is mainly determined by the hardware complexity of...
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...
International audienceThis paper shows the details of an implementation of variable radix floating-p...
International audienceWe present a design and implementation of a radix-4 complex division unit with...
We propose a digit-recurrence algorithm for division in real and complex number domains using a vari...
We adapt the radix-r digit-recurrence division algorithm to complex division. By prescaling the oper...
This paper presents the design of a radix-4, 32-bit integer divider which uses a recursive, non-rest...
(eng) We adapt the radix-$r$ digit-recurrence division algorithm to complex division. By prescaling ...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
We adapt the radix-r digit-recurrence division algorithm to complex division. By prescaling the oper...
The speed of high-radix digit-recurrence dividers and square-root units is mainly determined by the ...
ISSN: 1063-6862 ISBN: 0-7695-2226-2We propose a radix-$r$ digit-recurrence algorithm for complex squ...
Journal ArticleFor use in the context of a linearly scalable arithmetic architecture supporting high...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
This paper presents floating-point division algorithms and implementations forembedded VLIW integer ...
The speed of high-radix digit-recurrence dividers is mainly determined by the hardware complexity of...
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...
International audienceThis paper shows the details of an implementation of variable radix floating-p...
International audienceWe present a design and implementation of a radix-4 complex division unit with...
We propose a digit-recurrence algorithm for division in real and complex number domains using a vari...
We adapt the radix-r digit-recurrence division algorithm to complex division. By prescaling the oper...
This paper presents the design of a radix-4, 32-bit integer divider which uses a recursive, non-rest...
(eng) We adapt the radix-$r$ digit-recurrence division algorithm to complex division. By prescaling ...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
We adapt the radix-r digit-recurrence division algorithm to complex division. By prescaling the oper...
The speed of high-radix digit-recurrence dividers and square-root units is mainly determined by the ...
ISSN: 1063-6862 ISBN: 0-7695-2226-2We propose a radix-$r$ digit-recurrence algorithm for complex squ...
Journal ArticleFor use in the context of a linearly scalable arithmetic architecture supporting high...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
This paper presents floating-point division algorithms and implementations forembedded VLIW integer ...
The speed of high-radix digit-recurrence dividers is mainly determined by the hardware complexity of...
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...