Massimo Alioto scite author profile

In this paper the main topologies of one-bit full adders, including the most interesting of those recently proposed, are analyzed and compared for speed, power consumption, and power-delay product. The comparison has been performed on two classes of circuits, the former with minimum transistor size to minimize power consumption, the latter with optimized transistor dimension to minimize power-delay product. The investigation has been carried out with properly defined simulation runs on a Cadence environment using a 0.35-m process, also including the parasitics derived from layout. Performance has been also compared for different supply voltage values. Thus design guidelines have been derived to select the most suitable topology for the design features required. This paper also proposes a novel figure of merit to realistically compare-bit adders implemented as a chain of one-bit full adders. The results differ from those previously published both for the more realistic simulations carried out and the more appropriate figure of merit used. They show that, except for short chains of blocks or for cases where minimum power consumption is desired, topologies with only pass transistors or transmission gates are not attractive. In contrast, the most interesting implementations in terms of trade off between power and delay are the traditional CMOS and Mirror topologies. Moreover, the Dual-rail Domino and the CPL allow the best speed performance.

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Analysis and Comparison in the Energy-Delay-Area Domain of Nanometer CMOS Flip-Flops: Part I—Methodology and Design Strategies

Alioto

Consoli

Palumbo

2011

IEEE Trans. VLSI Syst.

106

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Analysis and Comparison in the Energy-Delay-Area Domain of Nanometer CMOS Flip-Flops: Part II—Results and Figures of Merit

Alioto

Consoli

Palumbo

2011

IEEE Trans. VLSI Syst.

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In Part II of this paper, a comparison of the most representative flip-flop (FF) classes and topologies in a 65-nm CMOS technology is carried out. The comparison, which is performed on the energy-delay-area domain, exploits the strategies and methodologies for FFs analysis and design reported in Part I. In particular, the analysis accounts for the impact of leakage and layout parasitics on the optimization of the circuits. The tradeoffs between leakage, area, clock load, delay, and other interesting properties are extensively discussed. The investigation permits to derive several considerations on each FF class and to identify the best topologies for a targeted application.

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General Strategies to Design Nanometer Flip-Flops in the Energy-Delay Space

Alioto

Consoli

Palumbo

2010

IEEE Trans. Circuits Syst. I

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A Class of Maximum-Period Nonlinear Congruential Generators Derived From the Rényi Chaotic Map

Addabbo

Alioto

Fort

et al. 2007

IEEE Trans. Circuits Syst. I

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Massimo Alioto

Ultra-Low Power VLSI Circuit Design Demystified and Explained: A Tutorial

A feedback strategy to improve the entropy of a chaos-based random bit generator

Understanding the Effect of Process Variations on the Delay of Static and Domino Logic

Analysis and comparison on full adder block in submicron technology

Analysis and Comparison in the Energy-Delay-Area Domain of Nanometer CMOS Flip-Flops: Part I—Methodology and Design Strategies

Analysis and Comparison in the Energy-Delay-Area Domain of Nanometer CMOS Flip-Flops: Part II—Results and Figures of Merit

General Strategies to Design Nanometer Flip-Flops in the Energy-Delay Space

A Class of Maximum-Period Nonlinear Congruential Generators Derived From the Rényi Chaotic Map

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Massimo Alioto

Ultra-Low Power VLSI Circuit Design Demystified and Explained: A Tutorial

A feedback strategy to improve the entropy of a chaos-based random bit generator

Understanding the Effect of Process Variations on the Delay of Static and Domino Logic

Analysis and comparison on full adder block in submicron technology

Analysis and Comparison in the Energy-Delay-Area Domain of Nanometer CMOS Flip-Flops: Part I—Methodology and Design Strategies

Analysis and Comparison in the Energy-Delay-Area Domain of Nanometer CMOS Flip-Flops: Part II—Results and Figures of Merit

General Strategies to Design Nanometer Flip-Flops in the Energy-Delay Space

A Class of Maximum-Period Nonlinear Congruential Generators Derived From the R&eacute;nyi Chaotic Map

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A Class of Maximum-Period Nonlinear Congruential Generators Derived From the Rényi Chaotic Map