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市場調査レポート

世界のメモリー付き回路素子市場:メモリスター・MEMSコンデンサー・メムインダクター

Global Markets for Circuit Elements with Memory: Memresistors, Memcapacitors, Meminductors

発行 BCC Research 商品コード 294299
出版日 ページ情報 英文 129 Pages
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世界のメモリー付き回路素子市場:メモリスター・MEMSコンデンサー・メムインダクター Global Markets for Circuit Elements with Memory: Memresistors, Memcapacitors, Meminductors
出版日: 2014年01月23日 ページ情報: 英文 129 Pages
概要

世界のメモリー付き回路素子市場額は、2012-2013年の本質的なゼロから、2018年には1億米ドル、2023年には6億7,500万米ドル以上へ成長する見込みです。同市場は2013-2018年の予測期間中、46.5%のCAGRを示すと予測されています。

当レポートでは、世界のメモリスター、MEMSコンデンサーおよびメムインダクター市場について調査し、データ予測を含む世界市場の動向分析、メモリスター・MEMSコンデンサー・メムインダクターを支える基本的な技術とその歴史、商業化のために克服すべき課題、商業化までの時間、および潜在的アプリケーションの説明、詳細な特許分析などをまとめ、概略下記の構成でお届けします。

第1章 イントロダクション

第2章 エグゼクティブサマリー

第3章 概要

  • 定義・概説・特徴
  • アプリケーション
  • 潜在市場

第4章 メモリスター

  • 歴史
  • 作動原理
  • メモリスター技術
  • 現在の研究・近年の発展
  • メモリスターの潜在アプリケーション

第5章 不揮発性メモリーアプリケーション

  • サマリー
  • コンピューターメモリー
  • 不揮発性メモリーの種類
  • 新興の不揮発性メモリー技術
  • 抵抗RAM
  • 市場予測

第6章 コンピューターロジックアプリケーション

  • サマリー
  • メモリスターの論理回路
  • アプリケーション
  • 技術動向
  • 市場予測
  • ハイブリッドFPGAS
  • メモリ処理

第7章 人工神経ネットワークのアプリケーション

  • サマリー
  • 技術
  • 近年の発展
  • アプリケーション
  • 市場予測

第8章 その他のアプリケーション

  • サマリー
  • 信号処理
  • RFIDトランスポンダー
  • センサー
  • 制御

第9章 メモリー付き回路要素のその他の種類

  • サマリー
  • 技術

第10章 付録A:企業・大学・政府

第11章 付録B:特許

図表リスト

目次
Product Code: SMC095A

BCC Research expects global market for circuit elements with memory by type of application, to grow from essentially zero in 2012 through 2013 to $100 million in 2018 and more than $675 million in 2023. This market is expected to show a compound annual growth rate (CAGR) of 46.5% through the forecast period of 2018 to 2013.

This report provides:

  • An overview of the global market for memresistors, memcapacitors, and meminductors.
  • Analyses of global market trends, with data projections for 2014 through 2018 and 2023.
  • Descriptions of the basic technologies behind memresistors, memcapacitors and meminductors as well as their history, challenges that must be overcome to commercialize them, possible time frames for their commercialization; and potential applications.
  • A detailed patent analysis.

STUDY BACKGROUND

It has been stated:

“Circuit elements that store information without the need of a power source would represent a paradigm change in electronics, allowing for low-power computation and storage. In addition, if that information spans a continuous range of values, analog computation may replace the present digital one. Such a concept is also likely to be at the origin of the workings of the human brain and possibly of many other mechanisms in living organisms so that such circuit elements may help us understand adaptive and spontaneous behavior, or even learning.”[1]

Memresistors, or memristors, have received the lion's share of attention, starting with the 2010 announcement that Hewlett Packard and Hynix Semiconductor of Seoul, Korea would collaborate to commercialize memristor technology in the form of Resistive Random Access Memory or RRAM. (In fact, several other companies have beaten HP/Hynix to the market, with the first commercial memristor devices appearing in 2013.) However, in the longer term, it may be possible to construct memory circuits that work on capacitive and/or inductive principles.

STUDY GOALS AND OBJECTIVES

The goal of this report is to survey emerging memristor and related technologies (e.g., memcapacitors and meminductors) and their applications, identify those that are most likely to achieve significant commercial sales in the next five years to 10 years (2013 to 2023), and develop quantitative estimates of potential sales.

The report's specific objectives support this broad goal. These objectives include singling out the technologies and applications with the greatest commercial potential in the 2013 to 2023 time frame, identifying market drivers and evaluating obstacles to their successful commercialization, and projecting their future sales.

SCOPE AND FORMAT

The proposed report will describe the basic technologies behind memresistors, memcapacitors and meminductors; their history and current state of development; theoretical advantages and disadvantages; challenges that must be overcome to commercialize them; possible time frames for their commercialization; and potential applications.

The report will focus on memristors, which are much closer to commercialization than the other two basic technologies; types of memristor (e.g. titanium dioxide, polymeric, ferroelectric, spin resistive), their strengths and weaknesses, and expected time to market; applications; and future sales.

The report will highlight the degree to which expected sales represent new markets vs. cannibalizing existing markets and the implications for suppliers' business strategies. Cannibalization reportedly is a significant concern of developers like Hynix that have a presence in competing markets.

The study format includes the following major elements:

  • Executive summary.
  • Definitions.
  • Historical milestones.
  • Technologies and applications that have the greatest commercial potential through 2023.
  • Detailed market estimates and projections for each application and material during the period 2012 to 2017.
  • General assessment of expected market trends in the longer term (2017 to 2023).
  • Companies, academic and government laboratories that are developing commercial memristors, memcapacitors, and meminductors.
  • Patent analysis.

ANALYST CREDENTIALS

Andrew McWilliams, the author of this report, is a partner in the Boston-based international technology and marketing consulting firm, 43rd Parallel, LLC.

[1]Massimiliano Di Ventra, Yuriy V. Pershin, and Leon O. Chua, “Circuit elements with memory: memristors, memcapacitors and meminductors”. Proceedings of the IEEE Vol 97, Issue 10 (October 2009).

Table of Contents

CHAPTER 1 - INTRODUCTION

  • STUDY BACKGROUND
  • STUDY GOALS AND OBJECTIVES
  • INTENDED AUDIENCE
  • SCOPE AND FORMAT
  • INFORMATION SOURCES AND METHODOLOGY
  • ANALYST CREDENTIALS
  • RELATED BCC RESEARCH REPORTS
  • BCC RESEARCH ONLINE SERVICES
  • DISCLAIMER

CHAPTER 2 - EXECUTIVE SUMMARY

  • SUMMARY TABLE: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY BY TYPE OF APPLICATION, THROUGH 2023 ($ MILLIONS)
  • SUMMARY FIGURE: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY BY TYPE OF APPLICATION, 2012-2023 ($ MILLIONS)

CHAPTER 3 - OVERVIEW

  • DEFINITIONS, GENERAL DESCRIPTION AND PROPERTIES
    • MEMRISTORS
    • MEMRISTIVE SYSTEMS
    • MEMCAPACITORS AND MEMINDUCTORS
  • APPLICATIONS
  • POTENTIAL MARKETS
    • FIGURE 1: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY, 2013-2023 ($ MILLIONS)
    • TABLE 1: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY BY TYPE OF APPLICATION, THROUGH 2023 ($ MILLIONS)
    • FIGURE 2: CIRCUIT ELEMENTS WITH MEMORY MARKET SHARES BY APPLICATION, 2013 (%)

CHAPTER 4 - MEMRISTORS

  • HISTORY
  • PRINCIPLES OF OPERATION
  • MEMRISTOR TECHNOLOGIES
    • TYPES OF MEMRISTOR
      • Molecular and Ionic Thin Film Memristors
        • Titanium Dioxide Memristors
        • Amorphous Silicon Memristors
        • Polymeric (Organic) Memristors
        • Ferroelectric Memristors
        • Manganite Memristors
        • Resonant-Tunneling Diode Memristors
        • Hydrogel Memristors
      • Spin-Based and Magnetic Memristors
        • Spin Resistive Memristor
        • Spin Torque Transfer (STT) MRAM
    • CURRENT RESEARCH AND RECENT DEVELOPMENTS
      • Combining Memristors and Nanowires
      • Graphene-Based Memristors
      • Transparent Memristors
      • Silk-Based Memristors
      • Inkjet-Printed Memristor
    • OBSTACLES AND TIMELINE TO COMMERCIALIZATION
    • ADVANTAGES AND DISADVANTAGES VS. COMPETING TECHNOLOGIES
  • POTENTIAL APPLICATIONS OF MEMRISTORS
    • NONVOLATILE MEMORY
    • LOGIC CHIPS
    • SIGNAL PROCESSING
    • ARTIFICIAL NEURAL NETWORKS
    • BRAIN-COMPUTER INTERFACES
    • RFID
    • SENSORS
    • CONTROL SYSTEMS

CHAPTER 5 - NON-VOLATILE MEMORY APPLICATIONS

  • SUMMARY
    • FIGURE 3: PROJECTED MARKET FOR MEMRISTIVE RRAM, 2012-2023 ($ MILLIONS)
  • COMPUTER MEMORY
  • TYPES OF NON-VOLATILE MEMORY
    • READ-ONLY MEMORY
      • Programmable Read-Only Memory
      • Erasable Programmable Read-Only Memory
      • Electrically Erasable Programmable Read-Only Memory
    • NON-VOLATILE RANDOM ACCESS MEMORY
      • Battery-Powered Static RAM
      • EEPROM-and Flash-Based NVRAM
      • Non-Volatile Dynamic Random Access Memory
    • FLASH MEMORY
  • EMERGING NON-VOLATILE MEMORY TECHNOLOGIES
    • FERROELECTRIC RAM
    • MAGNETO-RESISTIVE RAM
    • PHASE CHANGE MEMORY
    • CONDUCTIVE BRIDGING RANDOM ACCESS MEMORY
    • NON-VOLATILE RANDOM ACCESS MEMORY
    • QUANTUM DOT MEMORY
    • "RACETRACK" MEMORY
    • SILICON-OXIDE-NITRIDE-OXIDE-SILICON MEMORY
    • GRAPHENE MEMORY
    • POLYMER MEMORY
    • DATA STORAGE USING VERTICAL NANOWIRES
  • RESISTIVE RAM
    • GENERAL PRINCIPLES OF RRAM
      • TABLE 2: MATERIALS FOR WITH POTENTIAL RESISTIVE MEMORY APPLICATIONS
    • COMPANIES THAT ARE DEVELOPING RRAM AND RELATED TECHNOLOGIES
      • TABLE 3: COMPANIES THAT ARE DEVELOPING MEMRISTIVE SOLID STATE MEMORY AND RELATED TECHNOLOGIES
    • SPECIFIC IMPLEMENTATIONS OF RRAM
      • Titanium Dioxide Memristor Memory
      • Amorphous Silicon Memristor Memory
      • Other Technologies
    • RECENT DEVELOPMENTS
      • Flexible RRAM
      • Low Power Pemristor-Based RRAM Design with Error Correcting Code
      • RRAM that Stores Charge
      • Hybrid Solid State Drive Using NAND and RRAM
      • Transparent RRAM
      • Trillion-Cycle RRAM
      • RRAM Using Metal Nanocrystal Covered Bottom Electrode
    • RRAM APPLICATIONS
  • MARKET PROJECTIONS
    • FIGURE 4: PROJECTED SALES OF EMERGING AND OTHER NEW NVM TECHNOLOGIES, 2013-2023 ($ MILLIONS)
    • TABLE 4: PROJECTED MARKET FOR RRAM, THROUGH 2023 ($ MILLIONS)

CHAPTER 6 - COMPUTER LOGIC APPLICATIONS

  • SUMMARY
  • MEMISTOR LOGIC CIRCUITS
  • APPLICATIONS
    • PROCESSING IN MEMORY CHIPS
    • HYBRID TRANSISTOR/MEMRISTOR CHIPS
    • PROGRAMMABLE LOGIC ARRAYS
  • TECHNOLOGY TRENDS
    • GROWING USE OF FPGAS
    • PROCESSING IN MEMORY
  • MARKET PROJECTIONS
    • TABLE 5: PROJECTED MARKET FOR MEMRISTOR PIM CHIPS, THROUGH 2023 ($ MILLIONS)
  • HYBRID FPGAS
    • TABLE 6: PROJECTED MARKET FOR HYBRID MEMRISTOR-BASED FPGAS, THROUGH 2023 ($ MILLIONS)
  • PROCESSING IN MEMORY
    • TABLE 7: PROJECTED MARKET FOR MEMRISTOR PIM CHIPS, THROUGH 2023 ($ MILLIONS)

CHAPTER 7 - ARTIFICIAL NEURAL NETWORK APPLICATIONS

  • SUMMARY
  • TECHNOLOGY
    • ARTIFICIAL NEURAL NETWORKS
    • MEMRISTOR-BASED ARTIFICIAL NEURAL NETWORKS
  • RECENT DEVELOPMENTS
    • IBM INTRODUCES DIGITAL NEUROSYNAPTIC CORE
    • INTEL REVEALS NEUROMORPHIC CHIP DESIGN
    • PANASONIC DEVELOPS LOW ENERGY CONSUMPTION CIRCUIT FOR NEURAL NETWORK SYSTEMS
    • NEUROCOMPUTER PROGRAMMING SOFTWARE ECOSYSTEM
    • MEMRISTORS TO BOOST IMAGE PROCESSING
  • APPLICATIONS
  • MARKET PROJECTIONS
    • TABLE 8: PROJECTED MARKET FOR MEMRISTOR NEUROMORPHIC CHIPS, THROUGH 2023 ($ MILLIONS)

CHAPTER 8 - OTHER APPLICATIONS

  • SUMMARY
    • TABLE 9: PROJECTED MARKET FOR MEMRISTORS IN OTHER APPLICATIONS, THROUGH 2023 ($ MILLIONS)
    • FIGURE 5: OTHER MARKETS FOR MEMRISTORS, 2023 (%)
  • SIGNAL PROCESSING
    • MEMRISTOR APPLICATIONS
    • RECENT DEVELOPMENTS
    • MARKET PROJECTIONS
      • TABLE 10: PROJECTED MARKET FOR MEMRISTORS IN SIGNAL PROCESSING APPLICATIONS, THROUGH 2023 ($ MILLIONS)
  • RADIO FREQUENCY IDENTIFICATION TRANSPONDERS
    • MEMRISTOR APPLICATIONS
    • MARKET PROJECTIONS
      • TABLE 11: PROJECTED MARKET FOR MEMRISTORS IN RFID APPLICATIONS, THROUGH 2023 ($ MILLIONS)
  • SENSORS
    • MEMRISTOR APPLICATIONS
    • MARKET PROJECTIONS
      • TABLE 12: PROJECTED MARKET FOR MEMRISTORS IN SENSING APPLICATIONS, THROUGH 2023 ($ MILLIONS)
  • CONTROLS
    • APPLICATIONS
    • MARKET PROJECTIONS
      • TABLE 13: PROJECTED MARKET FOR MEMRISTORS IN INDUSTRIAL PROCESS CONTROL, THROUGH 2023 ($ MILLIONS)

CHAPTER 9 - OTHER TYPES OF CIRCUIT ELEMENTS WITH MEMORY

  • SUMMARY
  • TECHNOLOGY
    • CURRENT RESEARCH AND COMMERCIALIZATION PROSPECTS
      • Potential Applications

CHAPTER 10 - APPENDIX A COMPANIES, ACADEMIC AND GOVERNMENT

  • LABORATORIES DEVELOPING MEMRISTORS, MEMCAPACITORS, AND MEMINDUCTORS
    • BRAIN CORP.
    • CROSSBAR, INC.
    • ELPIDA MEMORY, INC.
    • FUJITSU LTD.
    • FUSION-IO
    • HEWLETT-PACKARD CO
    • HGST, INC.
    • HRL LABORATORIES LLC
    • SK HYNIX INC.
    • KNOWM TECHNOLOGY LLC
    • MICRON TECHNOLOGY
    • MICROSEMI CORP.
    • MICROXACT, INC.
    • PANASONIC CORP.
    • QUALCOMM INC.
    • RAMBUS INC.
    • REINCLOUD
    • SAMSUNG ELECTRONICS CO., LTD.
    • SANDISK CORP.
    • SEAGATE TECHNOLOGY LLC
    • TOSHIBA
    • UNITY SEMICONDUCTOR

CHAPTER 11 - APPENDIX B PATENTS

  • PATENT AND PATENT APPLICATION SUMMARIES
    • TABLE 14: U.S. PATENTS RELATED TO MEMRISTORS, MEMCAPACITORS AND MEMINDUCTORS
  • TRENDS OVER TIME
    • FIGURE 6: TREND IN NUMBER OF MEMRISTOR-RELATED PATENTS ISSUED ANNUALLY, 2010-2013 (NUMBER OF PATENTS ISSUED EACH YEAR)
  • DEVICE TYPES
    • FIGURE 7: PERCENTAGE OF PATENTS AND PATENT APPLICATIONS THAT ALSO REFER TO MEMCAPACITORS AND/OR MEMINDUCTORS (%/NUMBER OF PATENTS AND PATENT APPLICATIONS)
  • USES
    • FIGURE 8: PATENTS AND PATENT APPLICATIONS BY TYPE OF USE (%)
  • INVENTORS AND ASSIGNEES
    • TYPE OF ENTITY
      • FIGURE 9: PATENTS AND PATENT APPLICATIONS BY TYPE OF ASSIGNEE OR INVENTOR) (%)
    • NATIONALITY
      • TABLE 15: PATENT AND PATENT APPLICATIONS BY NATIONALITY OF ASSIGNEE OR INVENTOR
    • SIZE OF IP PORTFOLIO
      • TABLE 16: PATENT AND PATENT APPLICATIONS BY ASSIGNEE

LIST OF TABLES

  • SUMMARY TABLE: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY BY TYPE OF APPLICATION, THROUGH 2023 ($ MILLIONS)
    • TABLE 1: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY BY TYPE OF APPLICATION, THROUGH 2023 ($ MILLIONS)
    • TABLE 2: MATERIALS FOR WITH POTENTIAL RESISTIVE MEMORY APPLICATIONS
    • TABLE 3: COMPANIES THAT ARE DEVELOPING MEMRISTIVE SOLID STATE MEMORY AND RELATED TECHNOLOGIES
    • TABLE 4: PROJECTED MARKET FOR RRAM, THROUGH 2023 ($ MILLIONS)
    • TABLE 5: PROJECTED MARKET FOR MEMRISTOR PIM CHIPS, THROUGH 2023 ($ MILLIONS)
    • TABLE 6: PROJECTED MARKET FOR HYBRID MEMRISTOR-BASED FPGAS, THROUGH 2023 ($ MILLIONS)
    • TABLE 7: PROJECTED MARKET FOR MEMRISTOR PIM CHIPS, THROUGH 2023 ($ MILLIONS)
    • TABLE 8: PROJECTED MARKET FOR MEMRISTOR NEUROMORPHIC CHIPS, THROUGH 2023 ($ MILLIONS)
    • TABLE 9: PROJECTED MARKET FOR MEMRISTORS IN OTHER APPLICATIONS, THROUGH 2023 ($ MILLIONS)
    • TABLE 10: PROJECTED MARKET FOR MEMRISTORS IN SIGNAL PROCESSING APPLICATIONS, THROUGH 2023 ($ MILLIONS)
    • TABLE 11: PROJECTED MARKET FOR MEMRISTORS IN RFID APPLICATIONS, THROUGH 2023 ($ MILLIONS)
    • TABLE 12: PROJECTED MARKET FOR MEMRISTORS IN SENSING APPLICATIONS, THROUGH 2023 ($ MILLIONS)
    • TABLE 13: PROJECTED MARKET FOR MEMRISTORS IN INDUSTRIAL PROCESS CONTROL, THROUGH 2023 ($ MILLIONS)
    • TABLE 14: U.S. PATENTS RELATED TO MEMRISTORS, MEMCAPACITORS AND MEMINDUCTORS
    • TABLE 15: PATENT AND PATENT APPLICATIONS BY NATIONALITY OF ASSIGNEE OR INVENTOR
    • TABLE 16: PATENT AND PATENT APPLICATIONS BY ASSIGNEE

LIST OF FIGURES

  • SUMMARY FIGURE: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY BY TYPE OF APPLICATION, 2012-2023 ($ MILLIONS)
    • FIGURE 1: GLOBAL MARKET FOR CIRCUIT ELEMENTS WITH MEMORY, 2013-2023 ($ MILLIONS)
    • FIGURE 2: CIRCUIT ELEMENTS WITH MEMORY MARKET SHARES BY APPLICATION, 2013 (%)
    • FIGURE 3: PROJECTED MARKET FOR MEMRISTIVE RRAM, 2012-2023 ($ MILLIONS)
    • FIGURE 4: PROJECTED SALES OF EMERGING AND OTHER NEW NVM TECHNOLOGIES, 2013-2023 ($ MILLIONS)
    • FIGURE 5: OTHER MARKETS FOR MEMRISTORS, 2023 (%)
    • FIGURE 6: TREND IN NUMBER OF MEMRISTOR-RELATED PATENTS ISSUED ANNUALLY, 2010-2013 (NUMBER OF PATENTS ISSUED EACH YEAR)
    • FIGURE 7: PERCENTAGE OF PATENTS AND PATENT APPLICATIONS THAT ALSO REFER TO MEMCAPACITORS AND/OR MEMINDUCTORS (%/NUMBER OF PATENTS AND PATENT APPLICATIONS)
    • FIGURE 8: PATENTS AND PATENT APPLICATIONS BY TYPE OF USE (%)
    • FIGURE 9: PATENTS AND PATENT APPLICATIONS BY TYPE OF ASSIGNEE OR INVENTOR) (%)
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