Predictive Technology Model for Robust Nanoelectronic Design explains many of the technical mysteries behind the Predictive Technology Model (PTM) that has been adopted worldwide in explorative design research. Through physical derivation and technology extrapolation, PTM is the de-factor device model used in electronic design. This work explains the systematic model development and provides a guide to robust design practice in the presence of variability and reliability issues. Having interacted with multiple leading semiconductor companies and university research teams, the author brings a…mehr
Predictive Technology Model for Robust Nanoelectronic Design explains many of the technical mysteries behind the Predictive Technology Model (PTM) that has been adopted worldwide in explorative design research. Through physical derivation and technology extrapolation, PTM is the de-factor device model used in electronic design. This work explains the systematic model development and provides a guide to robust design practice in the presence of variability and reliability issues. Having interacted with multiple leading semiconductor companies and university research teams, the author brings a state-of-the-art perspective on technology scaling to this work and shares insights gained in the practices of device modeling.
Artikelnr. des Verlages: 12611546, 978-1-4614-0444-6
2011
Seitenzahl: 173
Erscheinungstermin: 12. Juli 2011
Englisch
Abmessung: 246mm x 164mm x 18mm
Gewicht: 403g
ISBN-13: 9781461404446
ISBN-10: 1461404444
Artikelnr.: 33358763
Inhaltsangabe
1. Introduction.- 2. Predictive Technology Model of Conventional CMOS Devices.- 3. Predictive Technology Model of Enhanced CMOS Devices.- 4. Statistical Extraction and Modeling of CMOS Variability.- 5. Modeling of Temporal Reliability Degradation.- 6. Modeling of Interconnect Parasitics.- 7. Design Benchmark with Predictive Technology Model.- 8. Predictive Process Design Kits.- 9. Predictive Modeling of Carbon Nanotube Devices.- 10. Predictive Technology Model for Future Nanoelectronic Design.
1. Introduction.- 2. Predictive Technology Model of Conventional CMOS Devices.- 3. Predictive Technology Model of Enhanced CMOS Devices.- 4. Statistical Extraction and Modeling of CMOS Variability.- 5. Modeling of Temporal Reliability Degradation.- 6. Modeling of Interconnect Parasitics.- 7. Design Benchmark with Predictive Technology Model.- 8. Predictive Process Design Kits.- 9. Predictive Modeling of Carbon Nanotube Devices.- 10. Predictive Technology Model for Future Nanoelectronic Design.
1. Introduction.- 2. Predictive Technology Model of Conventional CMOS Devices.- 3. Predictive Technology Model of Enhanced CMOS Devices.- 4. Statistical Extraction and Modeling of CMOS Variability.- 5. Modeling of Temporal Reliability Degradation.- 6. Modeling of Interconnect Parasitics.- 7. Design Benchmark with Predictive Technology Model.- 8. Predictive Process Design Kits.- 9. Predictive Modeling of Carbon Nanotube Devices.- 10. Predictive Technology Model for Future Nanoelectronic Design.
1. Introduction.- 2. Predictive Technology Model of Conventional CMOS Devices.- 3. Predictive Technology Model of Enhanced CMOS Devices.- 4. Statistical Extraction and Modeling of CMOS Variability.- 5. Modeling of Temporal Reliability Degradation.- 6. Modeling of Interconnect Parasitics.- 7. Design Benchmark with Predictive Technology Model.- 8. Predictive Process Design Kits.- 9. Predictive Modeling of Carbon Nanotube Devices.- 10. Predictive Technology Model for Future Nanoelectronic Design.
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