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양자 컴퓨팅 : 세계 시장 예측(향후 7년간)

Quantum Computing: A Seven-year Market Forecast

리서치사 Inside Quantum Technology
발행일 2020년 10월 상품 코드 966846
페이지 정보 영문 58 Pages
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US $ 2,995 ₩ 3,574,000 PDF (Single User License - One Computer)
US $ 3,495 ₩ 4,170,000 PDF (Group User License - up to Five Computers)
US $ 3,995 ₩ 4,767,000 PDF (Enterprise User License - Unlimited Computers Within Your Organization)


양자 컴퓨팅 : 세계 시장 예측(향후 7년간) Quantum Computing: A Seven-year Market Forecast
발행일 : 2020년 10월 페이지 정보 : 영문 58 Pages

본 상품은 영문 자료로 한글과 영문목차에 불일치하는 내용이 있을 경우 영문을 우선합니다. 정확한 검토를 위해 영문목차를 참고해주시기 바랍니다.

세계 양자컴퓨터(Quantum Computing) 시장의 향후 동향에 대해 분석했으며, 기술 개요, 주요 활용 분야, 지금까지의 기술 개발 및 보급 동향과 향후 방향성, 시장의 기본 구조, 시장 성장 촉진요인 및 억제요인, 주요 활용 분야, 전체적인 시장 규모 동향 전망(금액/수량 기준, 향후 7년간), 기술별·최종사용자별·벤더 국적별 상세 동향, 클라우드 액세스/소프트웨어 매출 예측, 주요 벤더/최종사용자 개요 등의 정보를 정리하여 전해드립니다.

목차

제1장 서론

  • 본 보고서의 배경
    • 양자컴퓨터 현황
    • Quantum Advantage 후에 예측되는 것
    • 새로운 잠재적 시장과 활용 분야
  • 양자 컴퓨팅 : 시장의 전환점
    • 양자 컴퓨팅의 3개 전환점
  • 분석 방법
  • 분석 개요

제2장 양자 컴퓨팅 기술과 제품

  • 하드웨어 : 양자 기계/어닐러/고전적 기계
  • 양자 어닐러
    • 두 종류의 어닐러
    • 어닐링 프로세스
    • 어닐러의 용도
    • 어닐링의 미래
  • Superconducting Qubits
  • Trapped Ion Computers
    • Trapped Ion Computers의 구조
    • Trapped Ion Computers : 벤더와 시장의 미래
  • Spin Ion Computers
  • Topological Quantum Computers
  • Photonic Quantum Computers
    • 포토닉스(광공학)와 큐비트(Qubits)
    • Photonic Quantum Computer의 미래
  • 양자 컴퓨터용 소프트웨어 : 알고리즘, 프로그래밍, 오류 보호
  • 양자 컴퓨팅의 용도 및 소프트웨어 시장 억제요인
    • 코어 기술에 수반하는 제한
    • Quantum Advantage의 타임프레임
    • 오류 수정의 역할
  • 양자컴퓨터의 성능 측정
    • 양자컴퓨터에 의해 최근 달성된 중요한 마일스톤
    • ORNL에서의 업무
    • 큐비트 수의 중요성
    • Quantum Volume
  • 상품화 모델과 잠재 고객
    • 직접 구입
    • 클라우드 액세스
  • 결론

제3장 양자컴퓨터 시장

  • 양자 컴퓨팅 활용 분야
    • 시뮬레이션
    • 최적화 문제
    • 인공지능(AI)
  • 과대 광고와 비즈니스 사례
  • 금융 업계에서의 양자 컴퓨팅 이용
    • Barclays
    • BBVA
    • Citigroup
    • Commonwealth Bank of Australia
    • Goldman Sachs
    • HSBC
    • JPMorgan Chase
    • NatWest
    • Nomura Securities
    • Standard Chartered
    • UBS
    • Wells Fargo
  • 항공우주 및 방위
    • Airbus
    • Boeing
    • Lockheed Martin
    • NASA
    • Raytheon
  • 운송 및 자동차 산업용 양자 컴퓨팅
    • BMW
    • Daimler-Benz
    • Ford
    • Toyota/Denso에서의 양자 컴퓨팅
    • Volkswagen
  • 재료와 약리학적 디자인
    • Drug Discovery
    • 독성시험
    • 신경의학
    • 단백질 폴딩 시뮬레이션
    • 새로운 초전도 재료
    • Biogen과 Accenture
    • DowDuPont
    • IBM
    • Menten AI
    • WuXi NextCODE Genetics
  • 계획과 일반 관리에서의 양자 컴퓨팅
    • Save-on-Foods
    • 웹 검색
  • 의료에서의 양자 컴퓨팅
    • Bayer와 Atos
  • 정부/군
  • 지역별 양자 컴퓨팅
    • 유럽
    • 중국
    • 일본

제4장 양자 컴퓨터 제조업체 및 기타 주목해야 할 기업

  • 양자 컴퓨터 하드웨어 분야에서 주목해야 할 기업
  • Alibaba(중국)
  • D-Wave(캐나다)
  • Google(미국)
  • Hitachi
  • Honeywell(미국)
  • IBM(미국)
  • Intel(미국)
  • IonQ(미국)
  • Microsoft(미국)
  • PsiQuantum
  • QuTech
  • Rigetti Computing(미국)
  • Xanadu(캐나다)
LSH 20.11.12

This report is the first publicly available forecast of quantum computers in volume and value terms. The report examines the current activities of quantum computer companies around the world around the world and builds a forecast of both production and install base in both volume and value terms with breakouts by technology, end-user type and vendor nationality. There are also forecasts of cloud access revenues and software.

The report begins with a survey of the evolution of quantum computing technologies and products. The focus is on today's "supercomputer class" quantum computers. However, the report also briefly discusses the likelihood of the evolution of "desktop quantum computers." The report also surveys around 30 end-user companies that are already trialing quantum computers for internal use.

Table of Contents

Chapter One: Introduction

  • 1.1 Background to this Report
    • 1.1.1 The Current State of Quantum Computers
    • 1.1.2 What to Expect after "Quantum Advantage"
    • 1.1.3 Emerging Potential Market Applications
  • 1.2 Quantum Computing: Market Inflection Points
    • 1.2.1 The Next Three Inflection Points for Quantum Computing
  • 1.3 Methodology of this Report
  • 1.4 Plan of this Report

Chapter Two: Quantum Computing Technologies and Products

  • 2.1 Hardware: Quantum Machines versus Annealers versus Classical Machines
  • 2.2 Quantum Annealers
    • 2.2.1 Two Types of Annealers
    • 2.2.2 Annealing Process
    • 2.2.3 Applications for Annealers
    • 2.2.4 The Future of Annealing
  • 2.3 Superconducting Qubits
  • 2.4 Trapped Ion Computers
    • 2.4.1 How Trapped Ion Computers Work
    • 2.4.2 Trapped Ion Computers: Vendors and Future in the Marketplace
  • 2.5 Spin Ion Computers
  • 2.6 Topological Quantum Computers
  • 2.7 Photonic Quantum Computers
    • 2.7.1 Photonics and Qubits
    • 2.7.2 The Future of Photonic Quantum Computers
  • 2.8 Software for Quantum Computers: Algorithms, Programming and Error Protection
  • 2.9 Factors Retarding the Market for Quantum Computing Applications and Software
    • 2.9.1 Limitations due to Core Technologies
    • 2.9.2 Timeframe for Quantum Advantage
    • 2.9.3 The Role of Error Correction
  • 2.10 Performance Measures for Quantum Computers
    • 2.10.1 Key Milestones Achieved by Quantum Computers in Recent Years
    • 2.10.2 Work at Oak Ridge (ORNL)
    • 2.10.3 How Important is the Number of Qubits?
    • 2.10.4 Quantum Volume
  • 2.11 Commercialization Models and Potential Clients
    • 2.11.1 Direct Purchase
    • 2.11.2 Cloud Access
  • 2.12 Key Points from this Chapter

Chapter Three: Markets for Quantum Computers

  • 3.1 Quantum Computing Applications
    • 3.1.1 Simulations
    • 3.1.2 Optimization Problems
    • 3.1.3 Artificial Intelligence
  • 3.2 Of Hype and Business Cases
  • 3.3 Financial Industry Use of Quantum Computing
    • 3.3.1 Barclays
    • 3.3.2 BBVA
    • 3.3.3 Citigroup
    • 3.3.4 Commonwealth Bank of Australia
    • 3.3.5 Goldman Sachs
    • 3.3.6 HSBC
    • 3.3.7 JPMorgan Chase
    • 3.3.8 NatWest
    • 3.3.9 Nomura Securities
    • 3.3.10 Standard Chartered
    • 3.3.11 UBS
    • 3.3.12 Wells Fargo
  • 3.4 Aerospace and Defense
    • 3.4.1 Airbus
    • 3.4.2 Boeing
    • 3.4.3 Lockheed Martin
    • 3.4.4 NASA
    • 3.4.5 Raytheon
  • 3.5 Quantum Computing for Transportation and the Automotive Industry
    • 3.5.1 BMW
    • 3.5.2 Daimler-Benz
    • 3.5.3 Ford
    • 3.5.4 Quantum Computing at Toyota and DENSO
    • 3.5.5 Volkswagen
  • 3.6 Materials and Pharmaceutical Design
    • 3.6.1 Drug Discovery
    • 3.6.2 Toxicity Studies
    • 3.6.3 Neuromedicine
    • 3.6.4 Protein Folding Simulation
    • 3.6.5 Novel Superconducting Materials
    • 3.6.6 Biogen and Accenture
    • 3.6.7 DowDuPont
    • 3.6.8 IBM
    • 3.6.9 Menten AI
    • 3.6.10 WuXi NextCODE Genetics
  • 3.7 Quantum Computing in Planning and General Management
    • 3.7.1 Save-on-Foods
    • 3.7.2 Web Searching
  • 3.8 Quantum Computing in Healthcare
    • 3.8.1 Bayer and Atos
  • 3.9 Government and Military
  • 3.10 Quantum Computing by Region
    • 3.10.2 Europe
    • 3.10.3 China
    • 3.10.4 Japan

Chapter Four: Quantum Computer Manufacturers and Other Notable Companies

  • 4.1 Firms to Watch in the Quantum Computer Hardware Space
  • 4.2 Alibaba (China)
  • 4.3 D-Wave (Canada)
    • 4.3.1 D-Wave Qubits
    • 4.3.2 Real Customers and Cloud Access
  • 4.4 Google (United States)
    • 4.4.1 Sycamore
    • 4.4.2 Google AI
    • 4.4.3 Google's Future in Quantum Computing
  • 4.5 Hitachi
  • 4.6 Honeywell (United States)
    • 4.6.1 The Honeywell Quantum Computer
    • 4.6.2 Honeywell Quantum Software
  • 4.7 IBM (United States)
    • 4.7.1 IBM Research and Development
  • 4.8 Intel (United States)
    • 4.8.1 Quantum Development Timeline
    • 4.8.2 Collaborations
  • 4.9 IonQ (United States)
    • 4.9.1 The IonQ Computer
  • 4.10 Microsoft (United States)
    • 4.10.1 Microsoft's Distinctive Approach
  • 4.11 PsiQuantum
  • 4.12 QuTech
  • 4.13 Rigetti Computing (United States)
    • 4.13.1 Aspen-7 and Ancestor Machines
    • 4.13.2 Current Partnerships
    • 4.13.3 QxBranch Acquisition
  • 4.14 Xanadu (Canada)

List of Exhibits

  • Exhibit 1-1: Milestones and Timeframe in Quantum Computing Future History
  • Exhibit 1-2: Key Inflection Points for Quantum Computing Applications
  • Exhibit 2-1: Quantum Machines versus Annealers versus Classical Machines
  • Exhibit 2-2: Types of Qubit versus Firms Building Computers Based on Them
  • Exhibit 2-3: Key Milestones Achieved by Quantum Computers
  • Exhibit 3-1: Uses of Quantum Computers by End-User Group and Applications
  • Exhibit 3-2: Quantum Computer Functionality by Type of End User
  • Exhibit 3-3: Potential Uses for Quantum Computers in Aerospace and Defense
  • Exhibit 4-1: Ten Firms to Watch in the Quantum Computing Space

SEVEN-YEAR FORECAST APPENDIX (Excel Spreadsheet)

Tab 1: Companies - Forecasts of quantum computer install base, computer produced and hours of cloud access provided by leading vendors

Tab 2: Hardware - Forecasts of quantum computers by technology type and end-user industry

Tab 3: Access (Cloud Services) - Forecasts of cloud services by technology type and end-user industry

Tab 4: Software (Third-party) - Forecasts of third-party software by type of computer and end-user industry

Tab 5: Countries - Forecasts of quantum computers, software, and cloud services by major countries and regions

Tab 6: Forecast Summary

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