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The papers and presentations available from this webpage are subject to copyright regulations set by the IEEE.
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Plenary Session
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Keynote |
Who wants to be a modelaire (presentation 20KB)
I. Getreu ― Cadence Design Systems
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Session 1: RF and Mixed-Signal Behavioral Modeling
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A VHDL-AMS library of RF blocks models (paper 30KB, presentation 40KB)
Noëlle Milet-Lewis, Guillaume Monnerie, Ahmed Fakhfakh, Didier Geoffroy ― IXL Laboratory, France
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Behavioural modeling of microwave oscillating amplifiers (paper 1.9MB)
Enrico Calandra, Roberto Ruggirello ― Palermo University, Italy
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Simulation and verification of a mixed-signal programmable system on a chip (paper 110KB, presentation 220KB)
Monte Mar, Bert Sullam, Cypress MicroSystems, U.S.A.
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Experience of behavioural modeling in the mixed-signal ASIC design process - a case study (paper 350KB, presentation 1.1MB)
Peter Wilson, Paul Chapman, Neil Ross, Andrew Brown ― University of Southampton; Avant! Corporation, United Kingdom
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Fast evaluation of digital switching noise for synthesis of mixed-signal applications (paper 190KB, presentation 90KB)
Alex Doboli, Ranga Vemuri ― State University of New York at Stony Brook, U.S.A.; University of Cincinnati, U.S.A.
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Session 2 Behavioral Language Issues and Model Generation Techniques
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An extensible compact model description language and compiler (paper 100KB, presentation 100KB)
Richard Booth ― Agere Systems, U.S.A.
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Requirements for object-oriented systems modeling with STEAMS (paper 140KB, presentation 130KB)
Gregory D. Peterson, Phil Wilsey ― University of Tennessee, USA, University of Cincinnati, U.S.A.
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Initialization of mixed-signal systems in VHDL-AMS (paper 70KB, presentation 50KB)
Ken Ruan ― Avant! Corporation, U.S.A.
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Pole-zero localization: A behavioral modeling method (paper 180KB, presentation 430KB)
Christopher Gathercole, Alan Mantooth ― University of Arkansas, U.S.A.
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| Discussion Forum |
Introduction on RF/MW extensions VHDL-AMS
Hal Carter ― University of Cincinnati, U.S.A.
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Tutorial
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Baseband-equivalent behavioral modeling approach for RF (presentation 550KB)
Jess Chen ― Resonext, U.S.A.
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Session 3: Mixed-Technology Modeling
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The Virtual Disk Drive - Mixed-domain support for disk electronics over the complete life-cycle (paper 430KB, presentation 340KB)
Georg Pelz ― Infineon Technologies, Germany
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Biological Modeling Of Cellular Processes With VHDL-AMS (paper 180KB, presentation 560KB)
Gregory D. Peterson ― University of Tennessee, U.S.A.
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Motor modeling based on physical effect models (paper 270KB)
Dirk Dammers, Patrice Binet, Georg Pelz, Lars Voßkämper ― Dolphin Integration, Germany; Ecole Centrale de Lyon, France; Infineon Technologies, Germany
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Mixed signal, multi domain behavioral models of smart-power ICs for design integration in automotive applications (paper 480KB, presentation 1.1MB)
Dieter Metzner, Juergen Schaefer ― Chihao Xu Infineon Technologies, Germany
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Session 4: Multi-Domain Device and Circuit Modeling
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VHDL-AMS design of a MOST model including deep submicron and thermal-electronic effects (paper 290KB)
Christophe Lallement, François Pêcheux, Yannick Hervé ― PHASE, France
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Automatic embedding of a ferroelectric capacitor model in Eldo (paper 160KB)
Marco Zorzi, Nicolò Speciale, Guido Masetti ― University of Bologna, Italy
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A CMOS photodiode model (paper 210KB, presentation 630KB)
Wei Jean Liu, Oscal T.-C. Chen, Li-Kuo Dai and Far-Wen Jih Chung ― Cheng University, Chia-Yi, Taiwan, Taiwan Chung-Shan Institute of Science & Technology, Tao-Yuan, Taiwan
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Behavioural modeling of operational amplifier faults using a hardware description language (paper 160KB, presentation 180KB)
Peter Wilson, Yavuz Kilic, Mark Zwolinski, University of Southampton ― Philips Semiconductors; University of Southampton, United Kingdom
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| Panel |
Systems Design with AMS HDLs : What's Next?
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