In this paper, we propose a class of division algorithms with the aim of reducing the delay of the selection of the quotient digit by introducing more concurrency and flexibility in its computation. From the proposed class of algorithms, we select one that moves part of the selection function out of the critical path, with a corresponding reduction in the critical path compared with existing alternatives. We present the algorithm and describe the architectures for radix 4 and for radix 16. For radix 16, we use the scheme of overlapping two radix-4 stages. In both cases, radix 4 and radix 16, we show that our algorithms allow the design of units with well-balanced critical paths with consequent decreases of the cycle times. Moreover, in the ...
Almost all recent microprocessors and DSP chips perform addition, subtraction, multiplication and di...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
Abstract—We present a radix-10 digit-recurrence algorithm for division using limited-precision multi...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
This paper presents a derivation of four radix-2 division algorithms by digit recurrence. Each divis...
The speed of high-radix digit-recurrence dividers and square-root units is mainly determined by the ...
We present a radix-8 divider that uses an over-redundant digit set for the quotient in order to obta...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
The speed of high-radix digit-recurrence dividers is mainly determined by the hardware complexity of...
We propose a digit-recurrence algorithm for division in real and complex number domains using a vari...
The speed of a divider based on a digit-recurrence algorithm depends mainly on the latency of the qu...
textThis thesis focuses on reducing the delay of non-restoring division. Although the digit recurre...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
Almost all recent microprocessors and DSP chips perform addition, subtraction, multiplication and di...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
Abstract—We present a radix-10 digit-recurrence algorithm for division using limited-precision multi...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
This paper presents a derivation of four radix-2 division algorithms by digit recurrence. Each divis...
The speed of high-radix digit-recurrence dividers and square-root units is mainly determined by the ...
We present a radix-8 divider that uses an over-redundant digit set for the quotient in order to obta...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
The speed of high-radix digit-recurrence dividers is mainly determined by the hardware complexity of...
We propose a digit-recurrence algorithm for division in real and complex number domains using a vari...
The speed of a divider based on a digit-recurrence algorithm depends mainly on the latency of the qu...
textThis thesis focuses on reducing the delay of non-restoring division. Although the digit recurre...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
Almost all recent microprocessors and DSP chips perform addition, subtraction, multiplication and di...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
Abstract—We present a radix-10 digit-recurrence algorithm for division using limited-precision multi...