Reportlinker Adds Nanoelectronics.NEW YORK -- Reportlinker.com announces that a new market research report is available in its catalogue. Reportlinker Adds Nanoelectronics http://www.reportlinker.com/p0131220/Reportlinker-Adds-Nanoelectronics.html This report analyzes the Global Market for Nanoelectronics in US$ Billion. Various types of nanoelectronic technologies discussed in the report include: Circuits and Systems (Parallel Processing, Artificial Neural Networks, Quantum Information Processing, & Triple Modular Redundancy In computing, triple modular redundancy (TMR) is a fault tolerant form of N-modular redundancy, in which three systems perform a process and that result is processed by a voting system to produce a single output. ), Nanofabrication nan·o·fab·ri·ca·tion n. Any technique used to create objects or mechanisms on the scale of nanotechnology. , and Logic Devices (Single Electron Tunneling (electronics) Single Electron Tunneling - (SET) A New electrical standard for capacitance. SET devices can be used to construct circuits which process information by manipulating individual electrons. Devices, Resonant Tunneling Diodes, Rapid Single Flux Quantum In electronics, rapid single flux quantum (RSFQ) is a digital electronics technology that relies on quantum effects in superconducting materials to switch signals, instead of transistors. However, it is not a quantum computing technology in the traditional sense. Logic, Spintronics, & Quantum Computing). Annual forecasts are provided for the period of 2010 through 2015. The report profiles 65 companies including many key and niche players worldwide such as Advanced Micro Devices, Inc., Fujitsu Laboratories Ltd., General Nanotechnology LLC, Hewlett-Packard Development Company, L.P., Hitachi, Ltd., and International Business Machines Corporation. Market data and analytics are derived from primary and secondary research. Company profiles are mostly extracted from URL URL in full Uniform Resource Locator Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program. research and reported select online sources. I. INTRODUCTION, METHODOLOGY & PRODUCT DEFINITIONS Study Reliability and Reporting Limitations I-1 Disclaimers I-2 Data Interpretation & Reporting Level I-3 Product Definitions and Scope of Study I-3 II. EXECUTIVE SUMMARY 1. MARKET OVERVIEWII-1 Global Electronics Market: A Quick Primer II-1 Nano Electronics- A Preface II-1 Table 1: World Market for Electronics Incorporating Nanotechnology - Long Term Projections in US$ Billion for the Years 2010 through 2015 (includes corresponding Graph/Chart) II-2 Relentless Innovations Reinforce the Deliverability of Nanoelectronics II-3 The Road Ahead for Nanoelectronics II-3 Opportunities for Nanoelectronics II-4 Challenges for Nanoelectronics II-4 Nanophotonics & Nanoelectronics - Future Combination II-4 Where Does the Action Lie? II-5 Table 2: Global Investment in Nanotechnology: Percentage Breakdown of Investment by Source- Government, Industry, and Venture Capital by Select Region/ Country for the Year 2006 (includes corresponding Graph/Chart) II-5 Nanotechnology: Transforming Electronic Display Market II-6 Nanotools in Display Industry II-6 Nanotechnology to Alter Memory Storage in Electronics II-6 Who Leads the Pack? II-7 Conventional Vs Emerging Storage Options II-7 Comparison Between Traditional and Emerging Memory Types II-7 Semiconductors and Nanotechnology II-8 Impact on Manufacturing Processes II-8 Emerging Material Platforms II-8 Hybrid Approaches to Offset Inherent Rigidity of Electronics Industry II-9 Miniature Bar Coded Beads Herald New Age Electronics II-9 Nanomaterials to Revolutionize Electronics Industry II-9 Table 3: Global Market for Nano Materials in Electronics (2006): Percentage Breakdown by Nano Material Type - Designer Molecules, Coatings, Fullerenes/Nanotubes, Engineered Substrates, Precursors, Slurries, and Others (includes corresponding Graph/Chart) II-10 Select Nano Materials and Scope of their Application in Select Electronic Devices II-10 Select Nano Tools and Equipment and Scope of their Application in Select Electronic Devices II-11 Nanomaterials - Key for Miniature Chips & Storage Devices II-11 Improving Display Resolution II-11 Carbon Nanotubes: Building Blocks for Electronics in Future II-11 End-Use Applications for NanoelectronicsII-12 Healthcare II-12 Automotives II-12 Safety and Security Systems II-13 Environment and Energy II-13 CommunicationII-13 Infotainment II-14 2. PRODUCT OVERVIEW II-15 Nanoelectronics - Introduction II-15 Building Blocks of Nanoelectronics II-15 NanoparticlesII-15 Nanowires II-16 Nanowires for Aerospace Industry II-16 Carbon Nanotubes II-16 III-V Hetero-Structures II-17 Evolution of Nanoelectronics Process Technologies II-17 Intramolecular in·tra·mo·lec·u·lar adj. Within a molecule. in  tra·mo·lec Nanoelectronics II-18 Nanoelectronic
Technologies II-18 Circuits and Systems II-18 Parallel Processing II-18
Propagate Instruction Processor II-18 Reconfigurable Hardware II-18
Defect and Fault Tolerant Architectures II-19 Artificial Neural Networks
II-19 Quantum Information Processing II-19 Triple Modular Redundancy
II-19 Nanofabrication II-19 Fabrication Methods for Nano Electronics
II-20 Top-Down Approach II-20 Electron-Beam Nanolithography II-20
Scanning Probe Methods (SPM SPM - Sequential Parlog Machine ) II-20 Nanoimprint II-20 Bottom-Up Approach
II-20 Self-Assembly II-21 Logic DevicesII-21 Single Electron Tunneling
Devices II-21 Resonant Tunneling Diodes II-21 Rapid Single Flux Quantum
Logic II-21 Spintronics II-22 Molecular Electronics II-22 Quantum
Computing II-22 Nanoelectronic Devices II-23 Displays II-23 Field
Emission Displays (FEDs) II-23 Flexible OLED (Organic Light Emitting Device, Organic Light Emitting Diode) A thin film light-emitting technology that is expected to compete with LCD and plasma TVs as well as LCD monitors and readouts. Displays II-23 Paper-Like
Displays II-24 Nano Emissive Displays II-24 Memory II-24
Table 4: Comparison of Select Nanomemory Technologies- FRAM (1) (Ferroelectric RAM) See FeRAM. (2) (Ferromagnetic RAM) A non-volatile memory that records microscopic bits on a magnetic surface. See MRAM. FRAM - Ferroelectric Random Access Memory , MRAM (Magnetic RAM) A non-volatile, random access memory technology that is designed to initially replace flash memory and, potentially, DRAM memory. MRAM uses magnetic, thin film elements on a silicon substrate that can be built on the same chip with the logic circuits. , and Ovonic o·von·ic adj. Of or relating to a device whose operation is based on the Ovshinsky effect. [Ov(shinsky effect) + (electr)onic.] Unified Memory II-25 Features and Applications for Select Memory Types- SRAM See static RAM. SRAM - static random-access memory , DRAM, Flash Memory, NRAM (NanoRAM) A non-volatile, random access memory technology from Nantero, Inc., Woburn, MA (www.nantero.com) that is designed to initially replace flash memory and, potentially, DRAM memory. NRAM uses carbon nanotube ribbons for the bits. and MRAM II-25 FRAM II-25 Holographic Memory II-26 Molecular Memory II-26 MRAM II-26 Nano RAM II-26 Ovonic Unified Memory II-27 Polymer Memory II-27 Probe MemoryII-27 Optoelectronic Applications II-27 What the Future Holds? II-28 Electronics and Electromechanical Systems II-28 Batteries II-29 Sensors II-29 3. REGIONAL PERSPECTIVE II-31 The United States II-31 Electronics and Communications- An Overview II-31 CNTs to Enable Better Memory with High Speed and Less Volatility II-31 CNTs to Help CMOS (Complementary Metal Oxide Semiconductor) Pronounced "c-moss." The most widely used integrated circuit design. It is found in almost every electronic product from handheld devices to mainframes. in Size Reduction II-31 Japan II-32 Electronics and Communications- A Snapshot II-32 Electronics Propels Growth in Nanomaterials II-32 Europe II-32 Position of European Nanoelectronics Industry II-32 Transformation of Business Models II-33 Transformation of Research Models II-33 Migration of Nanoelectronics Producers II-33 Technological Impediments II-33 Mediocre Functioning of European Research Organizations II-33 Large-Scale Nanoelectronics Research Activities II-34 Split in Research Investments II-34 Inadequacy of Existing Funding Instruments II-34 Asia-Pacific II-35 Overview and Structure II-35 4. TECHNOLOGICAL DEVELOPMENTS II-36 Samsung Develops the First 4Gb DDR3 DRAM Chip II-36 Researchers Develop New Nanotube Flash Memory Design II-36 IBM and Partners Develop Smallest Ever SRAM Cell II-37 IBM Reduces Noise in Graphene Ribbons II-37 MIT MIT - Massachusetts Institute of Technology Discovers new 25nm Technology II-37 Samsung Develops New Smart Card Chip II-38 HP Develops New Nano Chip Technology II-38 Nantero to Develop Printable Memory Applications II-38 Researchers Improve LCD Design Through Nanowire Technology II-38 Copper Nanowires Find Application in Displays II-39 IBM Develops New Memory Device II-39 5. PRODUCT INNOVATIONS/INTRODUCTIONS II-40 Samsung Introduces New EPD EPD expected progeny difference. II-40 VIA Launches VIA Nano II-40 VIA Introduces VIA EPIA EPIA European Photovoltaic Industry Association EPIA Encontro Português de Inteligência Artificial EPIA El Paso International Airport EPIA European Packaging and Interconnection Industry Association EPIA Empresa de Proyectos de Ingeniería y Arquitectura NX-Series Mainboard Same as motherboard. II-40 CopyTele Develops LVND Flat Panel Display A thin display screen for computer and TV usage. The first flat panels appeared on laptop computers in the mid-1980s, and the LCD technology became the standard. Stand-alone LCD screens became available for desktop computers in the mid-1990s and exceeded sales of CRTs for the first time II-40 Hitachi Announces Nanotechnology Milestone for Hard Disk Drives Capacity II-41 Ramtron's New Integrated EDR (Enhanced Data Rate) An acronym occasionally used to reflect an advancement in transmission or transfer speed. For example, Bluetooth 2.0 + EDR provides a dramatic increase in speed over the previous version. See Bluetooth. Incorporates F-RAM Capabilities II-41 Ramtron Unveils New Serial F-RAM with 2Mb Memory II-42 Ramtron Unveils FM3135 II-43 Everspin Includes Small Footprint and byte-wide BGA Products into MRAM family II-43 Ramtron Enhances Its Range of AEC-Q100-Specified F-RAM Memory Devices II-44 Samsung Introduces First 30nm Flash Memory in the World II-44 RIC Launches 4Mb FRAM II-45 Hewlett-Packard Launches Nanotechnology Based New Computer Chip II-45 Samsung Develops a New Chip for Digital TVs II-46 Epson and Fujitsu Develop Next-Generation FRAM Technology II-46 Fujitsu Introduces Embedded FRAM for Digital Televisions II-46 6. RECENT INDUSTRY ACTIVITY II-48 Sistema Acquires Sitronics-Nanotechnology II-48 VT International Acquires Nanotailor II-48 Lockheed Martin Acquires Government Business Unit of Nantero II-48 Unidym Enters Into Joint Venture with Samsung II-49 Atotech Partners with CNSE CNSE Center for Neuromorphic Systems Engineering CNSE Commander Navy Support Element CNSE Certified Network Systems Engineer II-49 Qimonda AG in Partnership with Elpida Memory Inc. to Develop Nano-Chips II-49 IBM Secures AFRL Noun 1. AFRL - a United States Air Force defense laboratory responsible for discovering and developing and integrating fighting technologies for aerospace forces Air Force Research Laboratory U. S. Contract II-50 Sharp and Nanosys Extend Collaboration Agreement II-50 Freescale Forms New Company for MRAM Development II-50 Samsung to Increase Production of 42nm NAND Memory Chips II-51 IMFT to Commence Production of 32Gb NAND Flash Memory II-51 AIXTRON Completes Nanoinstruments Acquisition II-51 Sumitomo Chemical Acquires Cambridge Display Technology II-52 NEC (NEC Corporation, Tokyo, www.nec.com, www.necus.com) An electronics conglomerate known in the U.S. for its monitors. In Japan, it had the lion's share of the PC market until the late 1990s (see PC 98). NEC was founded in Tokyo in 1899 as Nippon Electric Company, Ltd. and Toshiba Agree to Collaboratively Develop 32nm Chips II-52 RCDS Collaborates with Nanosys to Develop Nano Optical Subsystem II-52 DoCoMo Collaborates with Nanosys II-52 RIC Partners with TI II-53 In-Q-Tel and Nanosys Expand Macro-electronics Collaboration II-53 Ovonyx and Hynix Collaborate on PCM Products Development II-53 IBM, Infineon, Freescale, Samsung & Chartered Cooperate on 32-nm Semiconductors II-54 Nano-Terra Enters into Agreement with 3MII-54 IEEE Completes Nanoelectronics Standards Roadmap II-55 7. FOCUS ON SELECT PLAYERS II-56 Advanced Micro Devices, Inc. (US) II-56 Fujitsu Laboratories Ltd (Japan) II-56 General Nanotechnology LLC (US) II-57 Hewlett-Packard Development Company, L.P. (US) II-57 Hitachi, Ltd. (Japan) II-57 International Business Machines Corporation (US) II-58 Infineon Technologies, AG (Germany) II-58 Motorola, Inc. (US) II-59 NanoInk, Inc. (US) II-59 Nanonex Corporation (US) II-60 Nanosys, Inc. (US) II-60 Nantero, Inc. (US) II-60 Samsung Advanced Institute of Technology (South Korea) II-60 Texas Instruments Incorporated (US) II-61 ZettaCore, Inc. (US) II-61 Zyvex Instruments, LLC (US) II-62 III. COMPETITIVE LANDSCAPE Total Companies Profiled: 65 (including Divisions/Subsidiaries - 71) To order this report: Reportlinker Adds Nanoelectronics http://www.reportlinker.com/p0131220/Reportlinker-Adds-Nanoelectronics.html More market research reports here! |
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