Fundamentals of optical computing technology forward the next generation supercomputer
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| Sprache: | English |
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Springer
2018
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| Ausgabe: | Softcover reprint of the hardcover 1. ed. 2018 |
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MARC
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Datensatz im Suchindex
| _version_ | 1819709416399699968 |
|---|---|
| adam_text | Contents 1 Summary of Optical Computing Technology........................................ 1.1 Phylogeny and Trend of Computing................................................. 1.1.1 Primal Computing Age.......................................................... 1.1.2 Handwrought Computing Age............................................... 1.1.3 Mechanical and Electromechanical ComputingAge............. 1.1.4 Electronic Computing Age...................................................... 1.1.5 Status and Trend of Super Parallel Computer..................... 1.1.6 Prospect of Future Computer................................................. 1.2 Concept of Optical Computing.......................................................... 1.2.1 Basic Operation of Optics for Computing............................ 1.2.2 Basic Models for Optical Computer Framework................ 1.3 Background in Optical Operation ...................................................... 1.3.1 Holographic Grating............................................................... 1.3.2 Optical Fourier Transform...................................................... 1.3.3 Abbe Imaging Principle and Spatial Filtering ..................... 1.3.4 Optical Correlator.................................................................... 1.3.5 Optical Numerical Processing................................................. References...................................................................................................... 1 1 1 1 3 6 9 11 13 15 16 18 18 21 23 25 27 33 2 Semiconductor MQWs Photo-Electronic Logic
Devices ..................... 2.1 Basic Principle of Semiconductor MQWs........................................ 2.1.1 Micro- and Nano-Materials and Quantum-Limited Effect.................................................... 2.1.2 Semiconductor MQWs and Self-electro-OpticalEffect .... 2.2 Principle and Properties of SEEDs...................................................... 2.2.1 How to Achieve Self-electro-Optic Effect............................ 2.2.2 Diode-Biased SEEDs to Achieve Bistability....................... 2.2.3 Symmetry SEEDs.................................................................... 2.2.4 Symmetry SEEDs to Achieve Boolean Operation.............. 35 35 35 37 43 43 45 46 48 ix
x Contents 2.3 Optimization and Characteristics of MQW’s Modulator................. 2.3.1 Reflective SEEDs Modulator.................................................. 2.3.2 Asymmetry Reflective F-P SEEDs Modulator..................... 2.3.3 Performance of MQW’s SEEDs Modulator.......................... 2.4 Flat Integration of SEEDs.................................................................... 2.4.1 Multi-Quantum Wells Modulator and Electronic Circuit Integration—Smart Pixels........................................... 2.4.2 MQW’s Spatial Light Modulator........................................... 2.5 Summary and Prospect......................................................................... References....................................................................................................... 3 4 51 51 51 55 59 59 61 64 67 Minitype Light Source for OpticalComputing....................................... 3.1 Introduction............................................................................................ 3.2 Wedge-Emitting Photoelectric Elements............................................. 3.2.1 LED and LD.............................................................................. 3.2.2 Functional Optical Interconnect and Semiconductor Light Source.............................................................................. 3.3 Structure and Principle of LED and LD Mode Vertical-to-Surface Transmission Light Source.................................................................. 3.3.1 LED Mode Vertical-to-Surface Transmission Light
Source.............................................................................. 3.3.2 LD Mode Vertical-to-Surface Transmission Light Source.............................................................................. 3.3.3 Integration of Vertical-to-SurfaceTransmission Light Source.............................................................................. 3.4 VCSELs ................................................................................................ 3.4.1 Structure of VCSELs................................................................ 3.4.2 Characteristics of VCSELs...................................................... 3.4.3 Optimum Design of VCSELs.................................................. 3.4.4 Current State and DevelopmentTrendof VCSELs............... 3.5 Applications of Minitype-Laser........................................................... 3.5.1 Optical Logic Elements........................................................... 3.5.2 Serial-Parallel Data Transform............................................... 3.5.3 Parallel Optical Data Link...................................................... 3.6 Summary and Prospect......................................................................... References....................................................................................................... 69 69 71 71 87 88 88 95 100 101 104 104 106 107 108 Ill Micro-andDiffractiveOptical Elements.................................................... 4.1
Introduction............................................................................................ 4.2 Design of Micro-Optical Elements...................................................... 4.2.1 Geometric Optical Design...................................................... 4.2.2 Scalar Analysis for Design...................................................... 4.2.3 Vector Analysis for Design.................................................... 113 113 116 116 122 123 79 83 83 85
Contents xi 4.3 Fabrication Technology for Micro-Optical Elements....................... 4.3.1 Ion Exchange........................................................................... 4.3.2 Analog Light Etching with Phase Mark............................... 4.3.3 Electron Beam Nanofabrication............................................. 4.4 Planar Micro-lens Array...................................................................... 4.4.1 Swelled Planar Micro-lens...................................................... 4.4.2 Application of Planar Micro-lens Array................................. 4.5 Theory Foundation of Diffractive Optical Elements........................ 4.5.1 Linear Blazed Grating............................................................. 4.5.2 Diffractive Lens......................................................................... 4.5.3 Diffractive Efficiency............................................................... 4.6 Binary Optical Elements...................................................................... 4.6.1 Design of Binary Optical Elements........................................ 4.6.2 Fabrication of Binary Optical Elements................................. 4.6.3 Application of Binary Optical Elements............................... 4.7 Summary and Prospect......................................................................... References....................................................................................................... 124 124 127 129 130 130 131 133 133 135 139 140 140 141 143 146 148 5 Optical
Storage.............................................................................................. 5.1 Introduction............................................................................................ 5.2 Principle and Application of Two-Photon Interaction..................... 5.2.1 Two-Photon Interaction........................................................... 5.2.2 Two-Photon Interaction to Achieve 3D Storage................... 5.3 Photorefractive Effect and Spatial Light Modulator.......................... 5.3.1 Photorefractive Effect and Crystals........................................ 5.3.2 Optically Addressed PhotorefractiveSLM.............................. 5.3.3 Photorefractive SLM to Perform Optical Storage................ 5.4 Optical Holographic Storage............................................................... 5.4.1 Introduction................................................................................ 5.4.2 Optical Volume Holographic Storage................................... 5.5 Near-Field Optical Storage.................................................................. 5.5.1 Introduction to Super-Resolution Near-Field Structure Optical Storage......................................................................... 5.5.2 Principle of Super-Resolution Near-Field Structure Optical Storage......................................................................... 5.5.3 Near-Field Optical Characteristics of Super-Resolution Thin Film.................................................................................. 5.6 Summary and
Prospect......................................................................... References....................................................................................................... 151 151 152 152 155 162 162 166 174 179 179 180 185 185 189 193 196 197 6 Parallel Optical Interconnections............................................................. 199 6.1 Introduction............................................................................................ 199 6.2 Optical Switch and Interconnection.................................................... 200 6.2.1 Brief of Optical Switch Technology...................................... 200 6.2.2 Brief of Optical Interconnection............................................. 206
xii Contents 6.3 Fundamental of Perfect Shuffle Switch Network............................... 6.3.1 Basic Theory for Perfect Shuffle Switch............................... 6.3.2 Two-Dimensional Perfect Shuffle Switch Theory................ 6.3.3 Implement Methodfor PS and FPSSwitch............................. 6.4 Implement Perfect Shuffle Switch with Micro-Optics Elements .... 6.4.1 Micro-blazed Grating Array to Achieve Left Shuffle Switch ....................................................................................... 6.4.2 Micro-blazed Grating Array to Achieve 2D Perfect Shuffle Switch........................................................................... 6.5 Optical Interconnections Based on Micro-Optical Elements............ 6.5.1 Omega Optical Interconnection with Micro-Optical Elements.................................................................................... 6.5.2 Crossover Optical Interconnection with Micro-Optical Elements.................................................................................... 6.5.3 Banyan Optical Interconnection with Micro-Optical Elements.................................................................................... 6.5.4 Demultiplexer and Beam Splitter Based on Micro-Blazed Grating........................................................ 6.6 Summary and Prospect......................................................................... References....................................................................................................... 7 Optical Buffer andFull-
OpticalSynchronization.................................... 7.1 Introduction............................................................................................ 7.2 Optical Buffer and Full-Optically Synchronization Based on Slow Light........................................................................... 7.2.1 Principle of Slow Light........................................................... 7.2.2 Introduction to Slow Light...................................................... 7.3 EIT and Atomic Vapor Systems........................................................ 7.4 Scattering and Fiber Systems............................................................... 7.5 Coherent Population Oscillations and Semiconductor Materials .... 7.6 Silicon-Based Waveguide Slow Light Device................................... 7.7 Summary and Prospect......................................................................... References....................................................................................................... 208 208 219 223 230 231 242 248 249 255 261 270 277 280 283 283 285 285 288 289 290 292 292 294 295
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| any_adam_object | 1 |
| author | Li, Xiujian Shao, Zhengzheng Zhu, Mengjun Yang, Junbo |
| author_GND | (DE-588)1163814865 (DE-588)1163815101 |
| author_facet | Li, Xiujian Shao, Zhengzheng Zhu, Mengjun Yang, Junbo |
| author_role | aut aut aut aut |
| author_sort | Li, Xiujian |
| author_variant | x l xl z s zs m z mz j y jy |
| building | Verbundindex |
| bvnumber | BV047100639 |
| classification_rvk | ST 152 |
| ctrlnum | (OCoLC)1240409109 (DE-599)BVBBV047100639 |
| discipline | Informatik |
| edition | Softcover reprint of the hardcover 1. ed. 2018 |
| format | Book |
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| id | DE-604.BV047100639 |
| illustrated | Not Illustrated |
| indexdate | 2024-12-24T08:36:35Z |
| institution | BVB |
| isbn | 9811338329 9789811338328 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032507037 |
| oclc_num | 1240409109 |
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| owner_facet | DE-739 |
| publishDate | 2018 |
| publishDateSearch | 2018 |
| publishDateSort | 2018 |
| publisher | Springer |
| record_format | marc |
| spellingShingle | Li, Xiujian Shao, Zhengzheng Zhu, Mengjun Yang, Junbo Fundamentals of optical computing technology forward the next generation supercomputer Supercomputer (DE-588)4128144-5 gnd Optische Datenverarbeitung (DE-588)4172661-3 gnd |
| subject_GND | (DE-588)4128144-5 (DE-588)4172661-3 |
| title | Fundamentals of optical computing technology forward the next generation supercomputer |
| title_auth | Fundamentals of optical computing technology forward the next generation supercomputer |
| title_exact_search | Fundamentals of optical computing technology forward the next generation supercomputer |
| title_full | Fundamentals of optical computing technology forward the next generation supercomputer |
| title_fullStr | Fundamentals of optical computing technology forward the next generation supercomputer |
| title_full_unstemmed | Fundamentals of optical computing technology forward the next generation supercomputer |
| title_short | Fundamentals of optical computing technology |
| title_sort | fundamentals of optical computing technology forward the next generation supercomputer |
| title_sub | forward the next generation supercomputer |
| topic | Supercomputer (DE-588)4128144-5 gnd Optische Datenverarbeitung (DE-588)4172661-3 gnd |
| topic_facet | Supercomputer Optische Datenverarbeitung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032507037&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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