市場調査レポート
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1552967

量子乱数発生器市場(2024年):技術評価と10年間の市場調査

Quantum Random Number Generator Markets 2024: A Technology Appraisal and Ten-Year Market Study

出版日: | 発行: Inside Quantum Technology | ページ情報: 英文 64 Pages | 納期: 即納可能 即納可能とは

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量子乱数発生器市場(2024年):技術評価と10年間の市場調査
出版日: 2024年08月24日
発行: Inside Quantum Technology
ページ情報: 英文 64 Pages
納期: 即納可能 即納可能とは
  • 全表示
  • 概要
  • 目次
概要

当レポートでは、量子乱数発生器(QRNG)市場について調査し、市場概要とともに、技術動向、市場に参入するサプライヤーのプロファイルをまとめています。

目次

エグゼクティブサマリー

第1章 イントロダクション

第2章 技術と戦略

  • QRNG業界の概要
  • QRNGの重要な差別化要因としての高スループット
  • 差別化要因としてのQRNG標準
  • エントロピー源
  • フォームファクタ
  • 自己テストQRNG

第3章 QRNG市場

  • イントロダクション
  • QRNGの主な用途
  • QRNG量子セキュリティおよび量子鍵配布システム
  • QRNGとPQC
  • カジノと宝くじにおけるQRNG
  • 携帯電話やその他のモバイルデバイスにおけるQRNG
  • QRNGサービス
  • QRNGとIoTセキュリティ
  • 政府および防衛アプリケーション
  • QRNGエンタープライズネットワークとデータセンター
  • 自動車業界におけるQRNG
  • オンラインゲームとQRNG
  • 最適化、シミュレーション、QRNG
  • QRNGの地理的市場

第4章 QRNGサプライヤープロファイル

  • Alea Quantum Technologies
  • API3
  • Australian National University
  • Crypta Labs
  • EYL
  • Hub Security
  • ID Quantique
  • InfiniQuant
  • KETS
  • Light Rider
  • PicoQuant
  • Q.ANT
  • QNu Labs
  • Qrypt
  • Quandela
  • Quantinuum
  • Quantropi
  • QuantumCTek
  • Quantum Blockchains
  • Quantum Computing Inc.
  • Quantum Dice
  • Quantum eMotion
  • Quantum Trilogy
  • QuintessenceLabs
  • Quside
  • S-Fifteen Instruments
  • Sequre Quantum
  • SK Telecom/Samsung
  • Terra Quantum
  • ThinkQuantum
  • Toshiba Europe
  • XT Quantech
  • アナリストについて
目次
Product Code: IQT-QRNG2024-0824

This report is the latest in IQT Research's analyses of the quantum random number generator (QRNG) market. Today, QRNGs represent one of the most active sectors of the quantum technology industry. What makes the QRNG sector attractive is that (1) there are real and growing markets for QRNGs today and (2) relative to quantum computing - the QRNG has low barriers to entry.

Although this report is partly derived from earlier QRNG reports produced by IQT Research, this report is based on entirely new research (including new interviews of leading players) and includes extended coverage:

  • We have included emerging and future uses for QRNGs, notably QRNGs in the enterprise. Here we discuss the role of QRNGs and their use in relationship to QKD and PQC to provide a total quantum safe package for large businesses. More futuristic applications that are discussed in this report include the use of QRNGs to inject new levels of uncertainty into electronic games, and the role of QRNGs in blockchain.
  • Our pricing analysis and ten-year forecasts have taken into consideration the miniaturization of QRNGs and their embodiment as chips. This has resulted in a more realistic appraisal of the likely size and growth of QRNG markets.
  • We have included 30 strategic profiles of QRNG manufacturers and market influencers. These include firms we have never covered before. In all cases, the profiles include up-to-date accounts of the marketing and strategic focus of each companies profiled, as well the QRNG technologies that each vendor is backing.
  • The report includes a deeper analysis than previously of mobile QRNGs including (a) the use of QRNGs in the Internet-of-Things, where QRNGs seem to be in need and (b) the future of QRNGs in mobile phones, which has not taken off as fast as expected.
  • How the various form factors - chips, HSMs and appliances, extension cards, and entropy-as-a service - will be deployed.

As usual with IQT Research reports, we supply detailed volume and value forecasts with the report in the form of an Excel spreadsheet. The spreadsheet enables purchasers of this report to explore various business scenarios and to inject their own pricing and volume estimates into the model.

Table of Contents

Executive Summary

  • E.1. The QRNG Industry: Structure and Influences
  • E.2. QRNGs: Product Design and Technology Evolution
  • E.3. QRNG Standards Development
  • E.4. QRNGs Applications and Industries
    • E.4.1. Quantum Security and QKD
    • E.4.2. QRNGs in Casinos and Lotteries
    • E.4.3. QRNGs in Mobile Phones and Other Mobile Devices
    • E.4.4. QRNGs and IoT Security
    • E.4.5. Government and Defense Applications
    • E.4.6. QRNGs Enterprise Networks and Data Centers
    • E.4.7. QRNGs in the Automotive Industry
    • E.4.8. Online Games and QRNGs

Chapter One: Introduction

  • 1.1. Objective, Scope and Methdology of this Report
    • 1.1.1. Forecasting Methodology
  • 1.2. Plan of this Report

Chapter Two: Technology and Strategy

  • 2.1. Overview of the QRNG Industry
  • 2.2. High Throughput as a Key QRNG Differentiator
  • 2.3. QRNG Standards as Differentiators
    • 2.3.1. National Institute for Standards and Technology (NIST)
    • 2.3.2. International Telecommunications Union (ITU)
    • 2.3.3. Other Organizations and Standards
  • 2.4. Entropy Sources
    • 2.4.1. Photon Sources and Photon Detection
    • 2.4.2. Double Quantum
    • 2.4.3. Electron Tunneling
    • 2.4.4. Multiple, External
    • 2.4.5. Not Blended
    • 2.4.6. Blended
    • 2.4.7. Quantum Computers
    • 2.4.8. Radioactive Decay
    • 2.4.9. Vacuum Fluctuations
    • 2.4.10. A Note on Free Entropy
    • 2.4.11. Future Plans
  • 2.5. Form Factors
    • 2.5.1. Embedded QRNGs and QRNG Chips
    • 2.5.2. USB/PCIe Systems: Extension Cards and Plug-ins
    • 2.5.3. QRNG Appliances/HSMs
    • 2.5.4. Unique Form Factors
    • 2.5.5. Entropy-as-a-Service (EaaS)
  • 2.6. Self-testing QRNGs

Chapter Three: Markets for QRNGs

  • 3.1. Introduction
  • 3.2. Major Applications for QRNG
  • 3.3. QRNG Quantum Security and Quantum Key Distribution Systems
  • 3.4. QRNGs and PQC
  • 3.5. QRNGs in Casinos and Lotteries
  • 3.6. QRNGs in Mobile Phones and Other Mobile Devices
    • 3.6.1. SK Telecom
    • 3.6.2. KT
  • 3.7. QRNG-as-a-Service
  • 3.8. QRNGs and IoT Security
  • 3.9. Government and Defense Applications
  • 3.10. QRNGs Enterprise Networks and Data Centers
    • 3.10.1. Banks and Financial Institutions
    • 3.10.2. QRNGs and Blockchains
    • 3.10.3. QRNGs at HSBC
  • 3.11. QRNGs in the Automotive Industry
  • 3.12. Online Games and QRNG
  • 3.13. Optimization, Simulation and QRNGs
  • 3.14. Geographical Markets for QRNGs

Chapter Four: QRNG Supplier Profiles

  • 4.1. Alea Quantum Technologies (Denmark)
  • 4.2. API3 (Australia)
  • 4.3. Australian National University (Australia)
  • 4.4. Crypta Labs (United Kingdom)
  • 4.5. EYL (Korea)
  • 4.6. Hub Security (Israel)
  • 4.7. ID Quantique (Switzerland)
  • 4.8. InfiniQuant (Germany)
  • 4.9. KETS (United Kingdom)
  • 4.10. Light Rider (United States)
  • 4.11. PicoQuant (Germany)
  • 4.12. Q.ANT (Germany)
  • 4.13. QNu Labs (India)
  • 4.14. Qrypt (United States)
  • 4.15. Quandela (France)
  • 4.16. Quantinuum (United States)
  • 4.17. Quantropi (Canada)
  • 4.18. QuantumCTek (China)
  • 4.19. Quantum Blockchains (Poland)
  • 4.20. Quantum Computing Inc. (United States)
  • 4.21. Quantum Dice (United Kingdom)
  • 4.22. Quantum eMotion (Canada)
  • 4.23. Quantum Trilogy (United States)
  • 4.24. QuintessenceLabs (Australia)
  • 4.25. Quside (Spain)
  • 4.26. S-Fifteen Instruments (Singapore)
  • 4.27. Sequre Quantum (Chile, Poland)
  • 4.28. SK Telecom/Samsung (South Korea)
  • 4.29. Terra Quantum (Switzerland)
  • 4.30. ThinkQuantum (Italy)
  • 4.31. Toshiba Europe (United Kingdom)
  • 4.32. XT Quantech (China)
  • About the Analysts

List of Exhibits

  • Exhibit 2-1: QRNG Form Factor Comparison
  • Exhibit 2-2: Selected QRNG Companies by Types of Entropy Sources Used
  • Exhibit 2-3: Selected QRNG Companies by Form Factors Offered
  • Exhibit 3-1: Selected Applications for Random Number Generators