This chapter contains sections titled: IntroductionUsing the Lateral Bipolar Transistor for Low-F... more This chapter contains sections titled: IntroductionUsing the Lateral Bipolar Transistor for Low-Flicker-Noise ApplicationsMeasures of Preamplifier Noise PerformanceReported Micropower, Low-Noise CMOS PreamplifiersMOS Noise versus the Bias Compliance VoltageExtraction of MOS Flicker-Noise ParametersDifferential Input PreamplifierSingle-Ended Input PreamplifierPrediction Accuracy for Design Guidance and OptimizationSummary of Low-Noise Design Methods and Resulting Challenges in Low-Voltage ProcessesReferencesIntroductionUsing the Lateral Bipolar Transistor for Low-Flicker-Noise ApplicationsMeasures of Preamplifier Noise PerformanceReported Micropower, Low-Noise CMOS PreamplifiersMOS Noise versus the Bias Compliance VoltageExtraction of MOS Flicker-Noise ParametersDifferential Input PreamplifierSingle-Ended Input PreamplifierPrediction Accuracy for Design Guidance and OptimizationSummary of Low-Noise Design Methods and Resulting Challenges in Low-Voltage ProcessesReferences
A new technique for performing static analysis of programs that contain unconstrained pointers is... more A new technique for performing static analysis of programs that contain unconstrained pointers is presented. The technique is based on the pointer state subgraph: a reduced control flow graph that takes advantage of the fact that in any program there exists a smaller program that computes only the values of pointer variables. The pointer state subgraph is useful in building static analysis tools. As an example, the application of the pointer state subgraph to program slicing is considered. Finally, some experimental results, obtained ...
This chapter contains sections titled: IntroductionPerformance TrendsPerformance TradeoffsDesign ... more This chapter contains sections titled: IntroductionPerformance TrendsPerformance TradeoffsDesign of Differential Pairs and Current Mirrors Using the Analog CMOS Design, Tradeoffs and Optimization SpreadsheetReferencesIntroductionPerformance TrendsPerformance TradeoffsDesign of Differential Pairs and Current Mirrors Using the Analog CMOS Design, Tradeoffs and Optimization SpreadsheetReferences
... 78 color photos, 2 maps; $29.95 softcover), published by the National Museum of African Art i... more ... 78 color photos, 2 maps; $29.95 softcover), published by the National Museum of African Art in association with Philip Wilson Publishers. 48 ... FRANKO KlOURY wliter 2001 * arIcan arts 51 Page 5. This page: 5. Set of wall panels, with a bird in flight repre-sented at left. ...
This chapter contains sections titled: IntroductionUsing the Inversion Coefficient for CMOS Proce... more This chapter contains sections titled: IntroductionUsing the Inversion Coefficient for CMOS Process Independence and for Extension to Smaller-Geometry ProcessesEnhancing Optimization Methods by Including Gate Leakage Current EffectsUsing an Inversion Coefficient Measure for Non-CMOS TechnologiesReferencesIntroductionUsing the Inversion Coefficient for CMOS Process Independence and for Extension to Smaller-Geometry ProcessesEnhancing Optimization Methods by Including Gate Leakage Current EffectsUsing an Inversion Coefficient Measure for Non-CMOS TechnologiesReferences
This chapter contains sections titled: IntroductionUsing the Lateral Bipolar Transistor for Low-F... more This chapter contains sections titled: IntroductionUsing the Lateral Bipolar Transistor for Low-Flicker-Noise ApplicationsMeasures of Preamplifier Noise PerformanceReported Micropower, Low-Noise CMOS PreamplifiersMOS Noise versus the Bias Compliance VoltageExtraction of MOS Flicker-Noise ParametersDifferential Input PreamplifierSingle-Ended Input PreamplifierPrediction Accuracy for Design Guidance and OptimizationSummary of Low-Noise Design Methods and Resulting Challenges in Low-Voltage ProcessesReferencesIntroductionUsing the Lateral Bipolar Transistor for Low-Flicker-Noise ApplicationsMeasures of Preamplifier Noise PerformanceReported Micropower, Low-Noise CMOS PreamplifiersMOS Noise versus the Bias Compliance VoltageExtraction of MOS Flicker-Noise ParametersDifferential Input PreamplifierSingle-Ended Input PreamplifierPrediction Accuracy for Design Guidance and OptimizationSummary of Low-Noise Design Methods and Resulting Challenges in Low-Voltage ProcessesReferences
A new technique for performing static analysis of programs that contain unconstrained pointers is... more A new technique for performing static analysis of programs that contain unconstrained pointers is presented. The technique is based on the pointer state subgraph: a reduced control flow graph that takes advantage of the fact that in any program there exists a smaller program that computes only the values of pointer variables. The pointer state subgraph is useful in building static analysis tools. As an example, the application of the pointer state subgraph to program slicing is considered. Finally, some experimental results, obtained ...
This chapter contains sections titled: IntroductionPerformance TrendsPerformance TradeoffsDesign ... more This chapter contains sections titled: IntroductionPerformance TrendsPerformance TradeoffsDesign of Differential Pairs and Current Mirrors Using the Analog CMOS Design, Tradeoffs and Optimization SpreadsheetReferencesIntroductionPerformance TrendsPerformance TradeoffsDesign of Differential Pairs and Current Mirrors Using the Analog CMOS Design, Tradeoffs and Optimization SpreadsheetReferences
... 78 color photos, 2 maps; $29.95 softcover), published by the National Museum of African Art i... more ... 78 color photos, 2 maps; $29.95 softcover), published by the National Museum of African Art in association with Philip Wilson Publishers. 48 ... FRANKO KlOURY wliter 2001 * arIcan arts 51 Page 5. This page: 5. Set of wall panels, with a bird in flight repre-sented at left. ...
This chapter contains sections titled: IntroductionUsing the Inversion Coefficient for CMOS Proce... more This chapter contains sections titled: IntroductionUsing the Inversion Coefficient for CMOS Process Independence and for Extension to Smaller-Geometry ProcessesEnhancing Optimization Methods by Including Gate Leakage Current EffectsUsing an Inversion Coefficient Measure for Non-CMOS TechnologiesReferencesIntroductionUsing the Inversion Coefficient for CMOS Process Independence and for Extension to Smaller-Geometry ProcessesEnhancing Optimization Methods by Including Gate Leakage Current EffectsUsing an Inversion Coefficient Measure for Non-CMOS TechnologiesReferences
Uploads
Papers by David Binkley