Design and Implementation of Area-Efficient Dual-Mode Double Precision

Name: Design and Implementation of Area-Efficient Dual-Mode Double Precision
Brand: LAP LAMBERT Academic Publishing
Availability: OutOfStock
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By Sanjeev Anagandula

0 - Default Title

Description

Floating point division is a core arithmetic widely used in scientific and engineering applications. This work proposed architecture for double precision floating point division. This architecture is designed for dual-mode functionality, which can either compute on a pair of double precision operands or on two pairs of single precision operands in parallel. The architecture is based on the series expansion multiplicative methodology of mantissa computation. For this, a novel dual mode Radix-4 Modified Booth multiplier is designed, which is used iteratively in the architecture of dual-mode mantissa computation. Other key components of floating point division flow (such as leading-one-detection, left/right dynamic shifters, rounding, etc.) are also re-designed for the dual-mode operation. The proposed dual- mode architecture is synthesized using UMC 90nm technology ASIC implementation. Two versions of proposed architecture are presented, one with single stage multiplier and another with two stage multiplier. Compared to a standalone double precision division architecture, the proposed dual-mode architecture requires 17% to 19% extra hardware resources, with 3% to 5% period overhead.

Product details

Binding:

Paperback

Number of Pages:

80

Release Date:

2025-11-03

Publication Date:

2025-11-03

Publisher:

LAP LAMBERT Academic Publishing

Languages:

Original: English

ISBN10:

6209179975

ISBN13:

9786209179976

Weight:

137 g

Height:

150 cm

Width:

220 cm

Thickness:

5 cm

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