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Timing Optimization and Noise Tolerance for Dynamic CMOS Susceptible to Process Variations

YELAMARTHI, Kumar ; HENRY CHEN, Chien-In
In: IEEE transactions on semiconductor manufacturing, Jg. 25 (2012), Heft 2, S. 255-265
Online academicJournal - print, 28 ref
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Dynamic CMOS circuits are significantly used in high-performance very large-scale integrated (VLSI) systems. However, they suffer from limitations such as noise tolerance, charge leakage, and power consumption. With the escalating impact of process variations on design performance, aggressive technology scaling, noise in dynamic CMOS circuit has become an imperative design challenge. The design performance of dynamic circuits has to be first improved for reliable operation of VLSI systems. Alongside, this impact of process variation is worse in circuits with multiple timing paths such as those used in microprocessors. In this paper, these problems of process variations, timing, noise tolerance, and power are investigated together for performance optimization. We propose a process variation-aware load-balance of multiple paths transistor sizing algorithm to: 1) improve worst-case delay, delay uncertainty, and sensitivity due to process variations in dynamic CMOS circuits, and 2) optimize dynamic CMOS circuits with MOSFET-based keepers to improve the noise tolerance. Implemented using 90-nm CMOS process, the proposed algorithm has demonstrated an average improvement in worst-case delay by 34%, delay uncertainty by 40.3%, delay sensitivity by 25.1%, and noise margins by 19.4% when compared to their initial performances.

Titel:
Timing Optimization and Noise Tolerance for Dynamic CMOS Susceptible to Process Variations
Autor/in / Beteiligte Person: YELAMARTHI, Kumar ; HENRY CHEN, Chien-In
Link:
Zeitschrift: IEEE transactions on semiconductor manufacturing, Jg. 25 (2012), Heft 2, S. 255-265
Veröffentlichung: New York, NY: Institute of Electrical and Electronics Engineers, 2012
Medientyp: academicJournal
Umfang: print, 28 ref
ISSN: 0894-6507 (print)
Schlagwort:
  • Electronics
  • Electronique
  • Sciences exactes et technologie
  • Exact sciences and technology
  • Sciences appliquees
  • Applied sciences
  • Electronique des semiconducteurs. Microélectronique. Optoélectronique. Dispositifs à l'état solide
  • Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
  • Transistors
  • Circuits intégrés
  • Integrated circuits
  • Conception. Technologies. Analyse fonctionnement. Essais
  • Design. Technologies. Operation analysis. Testing
  • Circuits intégrés par fonction (dont mémoires et processeurs)
  • Integrated circuits by function (including memories and processors)
  • Circuit intégré
  • Integrated circuit
  • Circuito integrado
  • Algorithme
  • Algorithm
  • Algoritmo
  • Circuit VLSI
  • VLSI circuit
  • Circuito VLSI
  • Circuit dynamique
  • Dynamic circuit
  • Circuito dinámico
  • Circuit intégré CMOS
  • CMOS integrated circuits
  • Dimensionnement
  • Dimensioning
  • Dimensionamiento
  • Dissipation énergie
  • Energy dissipation
  • Disipación energía
  • Evaluation performance
  • Performance evaluation
  • Evaluación prestación
  • Haute performance
  • High performance
  • Alto rendimiento
  • Immunité bruit
  • Noise immunity
  • Inmunidad ruido
  • Implémentation
  • Implementation
  • Implementación
  • Microprocesseur
  • Microprocessor
  • Microprocesador
  • Méthode cas pire
  • Worst case method
  • Método caso peor
  • Optimisation
  • Optimization
  • Optimización
  • Technologie MOS complémentaire
  • Complementary MOS technology
  • Tecnología MOS complementario
  • Technologie MOS
  • MOS technology
  • Tecnología MOS
  • Temps retard
  • Delay time
  • Tiempo retardo
  • Transistor MOSFET
  • MOSFET
  • CMOS circuit
  • delay uncertainty
  • noise tolerance
  • process variations
  • timing optimization
Sonstiges:
  • Nachgewiesen in: PASCAL Archive
  • Sprachen: English
  • Original Material: INIST-CNRS
  • Document Type: Article
  • File Description: text
  • Language: English
  • Author Affiliations: School of Engineering and Technology, Central Michigan University, Mount Pleasant, MI 48859, United States ; Department of Electrical Engineering, Wright State University, Dayton, OH 45435, United States
  • Rights: Copyright 2015 INIST-CNRS ; CC BY 4.0 ; Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
  • Notes: Electronics

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