VLSI and Computer Architecture.

Intro -- VLSI AND COMPUTERARCHITECTURE -- VLSI AND COMPUTER ARCHITECTURE -- CONTENTS -- PREFACE -- DESIGN CONSIDERATIONS AND ALGORITHMSFOR BROADBAND FIXED WIMAX SYSTEMS -- Abstract -- 1. Introduction -- 1.1. Introduction -- 1.2. Orthogonal Frequency Division Multiplexing (OFDM) -- 1.2.1. Non-iterative OFDM Scheme -- 1.2.2. Iterative OFDM Scheme -- 1.3. SC-FDE -- 1.4. Quantitative Results -- 2. Time-Domain Solutions -- 2.1. Time-Domain Turbo Equalization for SISO System -- 2.1.1. Initial stage -- 2.1.2. Subsequent Stages -- 2.1.3. Complexity Comparison -- 2.2. Time-Domain Turbo Equalization for MIMO Systems -- 2.2.1. Initial Stage -- 2.2.2. Subsequent Stages -- 2.3. Performance Comparison -- 3. Conclusions -- References -- VLSI INTERCONNECTS AND THEIR DELAYPERFORMANCE -- Abstract -- 1. Introduction -- 2. Modeling Interconnect as RC &amp -- RLC Circuits -- 2.1. Lumped and Distributed Models -- 3. Extraction of Interconnect Parasitics -- 4. Propagation Delay through Driver Interconnect Load Model -- 4.1. Driver Delay Models -- 4.2. Interconnect Delay Models -- 4.3. Composite Driver-Interconnect-Load Model-A Case Study -- 4.3.1. Effect of Short-Circuit Current on Propagation Delay -- 4.3.2. Fifty Percent Propagation Delay Evaluation -- 5. Delay Minimization Techniques -- 6. Conclusion -- References -- DEVELOPMENT, VALIDATION AND EVALUATION OF ASPACE QUALIFIED LONG-LIFE FLIGHTCOMPUTER SERVER -- Abstract -- 1. Introduction -- 2. Single Board Microcomputers -- 3. Fault Protections For Single Board Microcomputers -- 3.1 Protections Against Seu Events -- 3.2 Latch-Up Protection -- 3.3 Other Protections -- 4. Sqllcs Integration And Validation -- 4.1 Hardware And Software Tools Developed For Sqllcs Validation -- 4.2 Satellite Simulator -- 4.3 SOFDEVO Software -- 4.4 Earth Station Software -- 5. Reliability Study Of Sqllcs Hardware -- 5.1 SQLLCS Maintenance.

5.2 Reliability of an SQLLCS Assembled with Three SBMs -- 5.3 Reliability for a Single SBM -- 5.4 Reliability for a SQLLCS Assembled with Two SBMs -- 6. Conclusion -- Acknowledgments -- References -- NUMERICAL SIMULATION OF QUANTUMWAVEGUIDES -- Abstract -- 1. Introduction -- 2. Transparent Boundary Conditions for the Two DimensionalSchr¨odinger Equation -- 3. Discrete Transparent Boundary Conditions for the Two DimensionalSchr¨odinger Equation -- 3.1. The Difference Equations -- 3.2. Derivation of DTBCs for the Two Dimensional Schr¨odinger Equation -- 3.3. Approximation of the DTBCs by Sums of Exponentials -- 3.4. Fast Evaluation of the Discrete Convolution -- 3.5. Implementation of the DTBCs -- 4. Numerical Results -- 4.1. Travelling GaussianWave Functions -- 4.2. QuantumWaveguide Simulation -- Conclusion -- Acknowledgements -- References -- REFERENCE ARCHITECTUREMODEL AND TOOLSFOR MULTI-MODAL PERCEPTUAL SYSTEMS -- Abstract -- 1. Introduction -- 2. The Reference Architecture Model -- 2.1. Low-level Distributed Data Transfer -- 2.2. Logical Sensors and Actuators -- 2.3. Perceptual Components -- 2.4. Situation Modeling -- 2.5. Services and User Front-end -- 3. SitCom: Tool for Perceptual Systems Developers -- 3.1. Controlling SitCom's Input -- 3.2. Internal Representation Structures -- 3.3. SitCom's Graphical Presentation -- 4. Application Design Use-cases -- 4.1. CHIL Connector -- 4.1.1. Perceptual Components -- 4.1.2. Situation Modeling -- 4.2. Netcarity Smart Home Services -- 5. Conclusion -- Acknowledgment -- References -- MOSFET'S PROGRAMMABLE CONDUCTANCE:THE WAY OF VLSI IMPLEMENTATIONFOR EMERGING APPLICATIONS FROMBIOLOGICALLY PLAUSIBLE NEUROMORPHICDEVICES TO MOBILE COMMUNICATIONS∗ -- Abstract -- I. Introduction -- II. MOSFET for Analog VLSI Signal Processing.

III. Programmable Linear Conductance by MOSFET in theTriode Region - Principles and Applications -- IV. Conclusion -- References -- VISION-BASED PATH PLANNING WITH ONBOARDVLSI ARRAY PROCESSORS -- Abstract -- 1. Introduction -- 1.1. Related Work -- 2. Robot Navigation using an Environment Image -- 2.1. Methodology -- 2.1.1. Construction of Distance Map -- 2.1.2. Navigation using the Distance Map -- 2.2. Algorithm -- Notations -- 2.3. Simulation Studies -- 3. Proposed Cellular Array VLSI Architecture -- 3.1. Design of a Cell -- 3.2. Operation of Hardware -- 3.3. FPGA Implementation -- 4. Conclusions -- References -- VLSI ARCHITECTURES FOR AUTONOMOUSROBOTS - A REVIEW∗ -- Abstract -- 1. Introduction -- 2. Architectural Aspects of Sensing in Autonomous Robots -- 3. VLSI Architectures for Control of Autonomous Robots -- 4. VLSI Architectures for Navigation of Autonomous Robots -- Gradient-Based Tangent Graph Computation -- 5. Summary and Extensions -- References -- DESIGN OF AN ENHANCED MAC ARCHITECTUREFOR MULTI-HOP WIRELESS NETWORKS∗ -- Abstract -- 1 Introduction -- 2 Hardware Design of the MobileMAN NIC -- 2.1 Implementation -- 3 MAC Protocol Implementation -- 4 Experimental Results -- 5 Conclusions -- References -- INDEX.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.