A truncated binary squarer is a squarer with a n bit input that produces a n bit output. The proposed design minimizes the mean square error of the squarer and results in a very simple and fast circuital implementation. The squarer, compared against state of the art circuits, provides a reduction of the mean square error ranging from 20% to 5%. At the same time, the proposed squarer is able to reduce the power dissipation, reduce the silicon area occupation, and increase the maximum working frequency. Implementations results are provided for a 0.18um technology.

A Novel Truncated Squarer with Linear Compensation Function

NAPOLI, ETTORE;
2010-01-01

Abstract

A truncated binary squarer is a squarer with a n bit input that produces a n bit output. The proposed design minimizes the mean square error of the squarer and results in a very simple and fast circuital implementation. The squarer, compared against state of the art circuits, provides a reduction of the mean square error ranging from 20% to 5%. At the same time, the proposed squarer is able to reduce the power dissipation, reduce the silicon area occupation, and increase the maximum working frequency. Implementations results are provided for a 0.18um technology.
2010
9781424453085
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11386/4772765
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