Library of Congress |

Library of Congress

Matches in Library of Congress for { <http://lccn.loc.gov/2002019344> ?p ?o. }

Showing items 1 to 31 of 31 with 100 items per page.

2002019344 contributor B9211976.
2002019344 contributor B9211977.
2002019344 created "c2002.".
2002019344 date "2002".
2002019344 date "c2002.".
2002019344 dateCopyrighted "c2002.".
2002019344 description "Includes bibliographical references (p, 243-254) and index.".
2002019344 description "Machine generated contents note: 1 Introduction -- Modeling and Simulation Issues -- Modeling and Simulation Needs -- Computational Architectures for MEFS -- Hierarchical Modeling and Simulation -- Advanced Hierarchical Design Methodology -- Hierarchical Design and Simulation Optimization -- System Design Language Uniformity -- Overview -- 2 Hierarchical Modeling -- MEFS Dynamic Modeling and Simulation at Circuit Level -- Classification of Dynamic System Models -- Fundamental Variables -- Relationships between Fundamental Variables -- Kirchhoffian Networks -- The Equivalent Circuit Modeling Method -- MEFS System-level Modeling and Simulation -- MEFS System-level Modeling -- MEFS System-level Simulation -- Statistical Analysis Capacity -- Conclusion -- 3 SystemC-based Hierarchical Design Environment -- Suitability of Modeling Languages for Hierarchical Design -- VHDL-AMS Suitability for Circuit-level Modeling and Sim- -- ulation -- VHDL Suitability for System-level Modeling and Simula- -- tion -- Performance Language-SLAM -- C/C++ and Matlab -- SystemC -- Building Design Environment with SystemC -- Hierarchical Design Environment -- System-level Modeling Package -- Circuit-level Component Modeling Package -- Numerical Simulation Package -- Optimization/Verification Package -- Conclusion -- 4 System-level Simulation and Performance Evaluation -- MEFS Computing and Architecture -- Architectural Concepts -- Architecture Proposal -- Reconfigurable Architectural Functional Requirements -- Potential Architecture -- Performance Modeling and Simulation -- Hierarchical Modeling and Simulation Methodology -- MEFS Hierarchical Perspective -- Hierarchical Performance Evaluation Strategy -- Modeling and Simulation Language -- Micro-Chemical Handling System -- Stochastic Performance Modeling -- Thermal Catalyzing Process Functionality -- Microvalve Lumped-element Nodal Modeling -- System Performance Analysis and Design Optimization -- Architectural Optimization -- Microsystem Performance Sensitivity Analysis -- Microsystem Performance Estimation with Traffic Variation -- Conclusion -- 5 Circuit-level Optimization -- Simulation Design Methodology -- Bootstrap Method -- Factorial Design -- Optimization Verification -- Subjective Verification -- Objective Verification -- On-target Design Optimization -- Statistical Modeling and Response Analyses -- Statistical Modeling of a Microvalve -- Search for On-target Design Point -- Sensitivity Analysis -- Robust Design Optimization -- Statistical Response Analysis -- Statistical Response Analysis of Microresonators -- Design Optimization of Microvalves -- Application Flexibility Optimization -- Design Approach -- Determining the Performance Flexibility -- Optimization Procedure -- Case Study: Microvalve Modeling and Optimal Design -- Conclusion -- 6 Performance Evaluation -- Introduction -- Polymerase Chain Reaction (PCR) -- PCR Detection for DNA Concentration -- PCR Purification -- Acquisition Assumption -- Continuous-flow PCR System -- Three-way Microvalve -- Sequential Continuous-flow PCR System -- Detectable PCR System -- Reconfigurable PCR System -- Droplet-based PCR System -- A Droplet-based PCR System -- Physical Implementation -- Comparison between Continuous-flow PCR and Droplet PCR -- System Design Complexity -- Performance Evaluation -- Scheduling of Microfluidic Operations for Reconfigurable Two-Dimensional -- Electrowetting Arrays -- Introduction -- Two-dimensional Electrowetting Array -- Schedule Optimization -- Droplet-based PCR Systems -- 7 Conclusion -- A VHDL Queuing Model -- B Hierarchical Environment with SystemC -- References -- Index.".
2002019344 extent "xxvi, 257 p. :".
2002019344 identifier "0849312760 (alk. paper)".
2002019344 identifier 2002019344-d.html.
2002019344 identifier 2002019344.html.
2002019344 isPartOf "Nano- and microscience, engineering, technology, and medicine series".
2002019344 issued "2002".
2002019344 issued "c2002.".
2002019344 language "eng".
2002019344 publisher "Boca Raton : CRC Press,".
2002019344 subject "610/.28 21".
2002019344 subject "Biomedical Engineering methods.".
2002019344 subject "Biomedical engineering.".
2002019344 subject "Microchemistry.".
2002019344 subject "Microelectromechanical systems.".
2002019344 subject "Models, Chemical.".
2002019344 subject "Nanotechnology.".
2002019344 subject "Polymerase Chain Reaction.".
2002019344 subject "Polymerase chain reaction Automation.".
2002019344 subject "QU 25 Z63m 2002".
2002019344 subject "R857.N34 Z48 2002".
2002019344 tableOfContents "Machine generated contents note: 1 Introduction -- Modeling and Simulation Issues -- Modeling and Simulation Needs -- Computational Architectures for MEFS -- Hierarchical Modeling and Simulation -- Advanced Hierarchical Design Methodology -- Hierarchical Design and Simulation Optimization -- System Design Language Uniformity -- Overview -- 2 Hierarchical Modeling -- MEFS Dynamic Modeling and Simulation at Circuit Level -- Classification of Dynamic System Models -- Fundamental Variables -- Relationships between Fundamental Variables -- Kirchhoffian Networks -- The Equivalent Circuit Modeling Method -- MEFS System-level Modeling and Simulation -- MEFS System-level Modeling -- MEFS System-level Simulation -- Statistical Analysis Capacity -- Conclusion -- 3 SystemC-based Hierarchical Design Environment -- Suitability of Modeling Languages for Hierarchical Design -- VHDL-AMS Suitability for Circuit-level Modeling and Sim- -- ulation -- VHDL Suitability for System-level Modeling and Simula- -- tion -- Performance Language-SLAM -- C/C++ and Matlab -- SystemC -- Building Design Environment with SystemC -- Hierarchical Design Environment -- System-level Modeling Package -- Circuit-level Component Modeling Package -- Numerical Simulation Package -- Optimization/Verification Package -- Conclusion -- 4 System-level Simulation and Performance Evaluation -- MEFS Computing and Architecture -- Architectural Concepts -- Architecture Proposal -- Reconfigurable Architectural Functional Requirements -- Potential Architecture -- Performance Modeling and Simulation -- Hierarchical Modeling and Simulation Methodology -- MEFS Hierarchical Perspective -- Hierarchical Performance Evaluation Strategy -- Modeling and Simulation Language -- Micro-Chemical Handling System -- Stochastic Performance Modeling -- Thermal Catalyzing Process Functionality -- Microvalve Lumped-element Nodal Modeling -- System Performance Analysis and Design Optimization -- Architectural Optimization -- Microsystem Performance Sensitivity Analysis -- Microsystem Performance Estimation with Traffic Variation -- Conclusion -- 5 Circuit-level Optimization -- Simulation Design Methodology -- Bootstrap Method -- Factorial Design -- Optimization Verification -- Subjective Verification -- Objective Verification -- On-target Design Optimization -- Statistical Modeling and Response Analyses -- Statistical Modeling of a Microvalve -- Search for On-target Design Point -- Sensitivity Analysis -- Robust Design Optimization -- Statistical Response Analysis -- Statistical Response Analysis of Microresonators -- Design Optimization of Microvalves -- Application Flexibility Optimization -- Design Approach -- Determining the Performance Flexibility -- Optimization Procedure -- Case Study: Microvalve Modeling and Optimal Design -- Conclusion -- 6 Performance Evaluation -- Introduction -- Polymerase Chain Reaction (PCR) -- PCR Detection for DNA Concentration -- PCR Purification -- Acquisition Assumption -- Continuous-flow PCR System -- Three-way Microvalve -- Sequential Continuous-flow PCR System -- Detectable PCR System -- Reconfigurable PCR System -- Droplet-based PCR System -- A Droplet-based PCR System -- Physical Implementation -- Comparison between Continuous-flow PCR and Droplet PCR -- System Design Complexity -- Performance Evaluation -- Scheduling of Microfluidic Operations for Reconfigurable Two-Dimensional -- Electrowetting Arrays -- Introduction -- Two-dimensional Electrowetting Array -- Schedule Optimization -- Droplet-based PCR Systems -- 7 Conclusion -- A VHDL Queuing Model -- B Hierarchical Environment with SystemC -- References -- Index.".
2002019344 title "Microelectrofluidic systems : modeling and simulation / Tianhao Zhang, Krishnendu Chakrabarty, Richard B. Fair.".
2002019344 type "text".