Elio Consoli scite author profile

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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Flip-Flop Energy/Performance Versus Clock Slope and Impact on the Clock Network Design

Alioto

Consoli

Palumbo

2010

IEEE Trans. Circuits Syst. I

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From energy‐delay metrics to constraints on the design of digital circuits

Alioto

Consoli

Palumbo

2011

Circuit Theory & Apps

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SUMMARYIn this paper, the adoption of general metrics of the energy-delay tradeoff is investigated to achieve energyefficient design of digital CMOS very large-scale integrated circuits. Indeed, as shown in a preliminary analysis on the performance of various commercial microprocessors, a wide range of E i D j metrics is typically adopted. Physical interpretation and interesting properties for the designs minimizing E i D j metrics are provided together with the adoption of the Logical Effort theory to define practical design constraints. Two design examples in a 65-nm CMOS technology are also reported to exemplify the theoretical results.

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Elio Consoli

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

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

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

Flip-Flop Energy/Performance Versus Clock Slope and Impact on the Clock Network Design

From energy‐delay metrics to constraints on the design of digital circuits

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