The speed of a divider based on a digit-recurrence algorithm depends mainly on the latency of the quotient digit generation function. In this paper we present an analytical approach that extends the theory developed for standard SRT division and permits us to implement division schemes where a simpler function speculates the quotient digit. This leads to division units with shorter cycle time and variable latency since a speculation error may be produced and a post-correction of the quotient may be necessary. We have applied our algorithm to the design of a radix-16 speculative divider for double precision floating point numbers, that resulted in being faster than analogous implementations.Peer Reviewe
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
We present a radix-8 divider that uses an over-redundant digit set for the quotient in order to obta...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
The speed of a divider based on a digit-recurrence algorithm depends mainly on the latency of the qu...
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 and square-root units is mainly determined by the ...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
Almost all recent microprocessors and DSP chips perform addition, subtraction, multiplication and di...
The paper analyses an SRT radix-B division algorithm where the determination of the quotient digits ...
In this paper, we propose a class of division algorithms with the aim of reducing the delay of the s...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
High-radix division, developing several quotient bits per clock, is usually limited by the difficult...
[[abstract]]A new floating-point division architecture that complies with the IEEE 754-1985 standard...
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
We present a radix-8 divider that uses an over-redundant digit set for the quotient in order to obta...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
The speed of a divider based on a digit-recurrence algorithm depends mainly on the latency of the qu...
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 and square-root units is mainly determined by the ...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
Almost all recent microprocessors and DSP chips perform addition, subtraction, multiplication and di...
The paper analyses an SRT radix-B division algorithm where the determination of the quotient digits ...
In this paper, we propose a class of division algorithms with the aim of reducing the delay of the s...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
High-radix division, developing several quotient bits per clock, is usually limited by the difficult...
[[abstract]]A new floating-point division architecture that complies with the IEEE 754-1985 standard...
Abstract—Division and square root, based on the digit-recurrence algorithm, can be implemented in a ...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
We present a radix-8 divider that uses an over-redundant digit set for the quotient in order to obta...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...