[[abstract]]A new floating-point division architecture that complies with the IEEE 754-1985 standard is proposed in this paper. This architecture is based on the New Svoboda-Tung (NST) division algorithm and the radix-4 MROR (maximally redundant maximally recoded) signed digit number system. In NST division, the divisor and dividend must be prescaled. We summarize a general systematic method to accomplish the prescaling, and we also propose a hardware scheme such that the timing complexity is constant regardless of the bit length of the divisor. For the divider implementation, a new MROR signed digit adder with carry free characteristic is proposed for addition and subtraction, and this adder can improve the cycle time significantly. A 32-b...
Includes bibliographical references (page 143)This project details the theory and hardware implement...
The advantages of the convergence with the square of the Newton-Raphson method are combined with the...
The division operation is essential in many digital signal processing algorithms. For a hardware imp...
[[abstract]]In recent years, computer applications have increased in the computational complexity. T...
[[abstract]]A novel floating-point division architecture with IEEE 754-1985 standard is proposed in ...
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-...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
ISBN: 0818669055The development of a new general radix-b division algorithm, based on the Svoboda-Tu...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
We present a radix-8 divider that uses an over-redundant digit set for the quotient in order to obta...
The speed of a divider based on a digit-recurrence algorithm depends mainly on the latency of the qu...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
Abstract: The hardware organization of the high-radix SRT division is categorized into two classes w...
Includes bibliographical references (page 143)This project details the theory and hardware implement...
The advantages of the convergence with the square of the Newton-Raphson method are combined with the...
The division operation is essential in many digital signal processing algorithms. For a hardware imp...
[[abstract]]In recent years, computer applications have increased in the computational complexity. T...
[[abstract]]A novel floating-point division architecture with IEEE 754-1985 standard is proposed in ...
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-...
A new implementation for minimally redundant radix-4 SRT division with the recurrence in the signed-...
ISBN: 0818669055The development of a new general radix-b division algorithm, based on the Svoboda-Tu...
We describe a hardware-oriented design of a complex division algorithm proposed in.1 This algorithm ...
The speed of SRT-type dividers is mainly determined by the complexity of the quotient-digit selectio...
We present a radix-8 divider that uses an over-redundant digit set for the quotient in order to obta...
The speed of a divider based on a digit-recurrence algorithm depends mainly on the latency of the qu...
ISBN: 0818669055The digit-recurrence division relies on a sequence of addition/subtraction and shift...
Abstract: The hardware organization of the high-radix SRT division is categorized into two classes w...
Includes bibliographical references (page 143)This project details the theory and hardware implement...
The advantages of the convergence with the square of the Newton-Raphson method are combined with the...
The division operation is essential in many digital signal processing algorithms. For a hardware imp...