Industry 40 ResearchQuantum Computing Industry, Technologies & Business Opportunities – 2018-2024
Quantum Computing Industry Technologies Business Opportunities 2018-2024 Feb.

Quantum Computing Industry, Technologies & Business Opportunities – 2018-2024

Quantum Computing Applications in 55 Market Sectors

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University of Waterloo
University of NSW
Samsung Electronics
Mitsubishi Electric
API Technologies
Sandia National Lab

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The “Quantum Computing Industry, Technologies & Business Opportunities – 2018-2024” report includes detailed business opportunities data in 55 market sectors:

        1. Search Engines
        2. Business Intelligence
        3. Software/Hardware Validation and Verification
        4. Image and Pattern Recognition
        5. National Security Intelligence
        6. Defense
        7. Public Safety
        8. Homeland Security
        9. Government & Public Services
        10. Banking & Financial Services
        11. Financial Electronic Trading & Trading Strategies
        12. Smart Manufacturing & Logistics
        13. Mission Planning/Scheduling and Logistics
        14. Insurance
        15. Medical Diagnostics
        16. Medical Treatments
        17. Pharmacology
        18. Protein Folding
        19. Retail & Wholesale
        20. Information Technology Industry
        21. Telecommunication
        22. Automotive & Transportation
        23. Aerospace
        24. Energy & Utilities
        25. Energy Systems & Photovoltaics
        26. Energy Exploration
        27. Web, Media & Entertainment
  1. Smart Cities
  2. Cybersecurity
  3. Quantum Computing Systems
  4. Quantum Computing Software
  5. Quantum Computing as a Service on the Cloud
  6. Academia & National Labs
  7. Graph Theory Problems
  8. Material Science
  9. Marine Science
  10. Bioinformatics
  11. Climate Modeling & Weather Predictions
  12. Seismic Survey
  13. Risk Management
  14. Simulation
  15. Video Compression
  16. Quantum Cryptography
  17. Post-quantum Cryptography
  18. Optimization Problems
  19. Quantum-Assisted Optimization
  20. Reservoir Optimization Applications
  21. Utilities Management Optimization
  22. Quantum Machine Learning
  23. Quantum Reinforcement Learning
  24. Big Data & Predictive Analytics
  25. Material Science
  26. Quantum Sampling
  27. Quantum Chemistry
  28. Monte Carlo Simulation

Advances in quantum computer design, fault-tolerant algorithms and new fabrication technologies are now transforming this “holy grail” technology into a realistic program poised to surpass traditional computation in some applications. With these new developments, the question companies are asking is not whether there will be a quantum computer, but who will build it and benefit from it. Realizing quantum computing capability demands that hardware efforts would be augmented by the development of quantum software to obtain optimized quantum algorithms able to solve application problems of interest.

Quantum Computing Technologies & Global Market - Business Opportunities - 2017-2024

Quantum Computing Will Transform Almost Every Aspect of our Technology, Science, Economy & Life
(Sources – World Economic Forum, HSRC)

Quantum Computing Business OpportunitiesDue to economic interest and the “decline of Moore’s law” of computational scaling, eighteen of the world’s biggest corporations (see image above) and dozens of government agencies are working on quantum processor technologies and/or quantum software or partnering with the quantum industry startups like D-Wave. The main contenders in this race are IBM, Intel, Microsoft and Google. Near-term expectations for quantum computing range from solving optimization problems, quantum-encrypted communications, artificial intelligence, smart manufacturing & logistics and smart retail, to quantum computing services in the cloud and molecular structure research. Smaller quantum computers will make other contributions to industry (energy, logistics etc.), defense and national security intelligence markets, as well as other markets spanning from drug design to finance.

Even simple quantum computers can tackle classes of problems that choke conventional machines, such as optimizing trading strategies or pulling promising drug candidates from scientific literature.

IT multinationals, such as IBM, Intel, Microsoft and others (see image below), run their own quantum computing projects. IT giants Google and Microsoft have set challenging quantum computing goals for 2018. Their ambition reflects a broader transition, taking place at start-ups and academic research labs alike: to move from pure science towards engineering.
According to the “Quantum Computing Industry, Technologies & Business Opportunities – 2018-2024” report, the global quantum computing market (including product & services sales and government-funded RDT&E) will grow at a CAGR of 24.6% throughout 2018-2024. During 2017 Quantum Computing technologies performance has increased at an impressive rate; we forecast that 2018-2019 will experience a surge of breakthroughs.

The 272-page report is a valuable resource for executives with interests in the market. It has been explicitly customized for ICT industry managers, investors and government decision-makers to enable them to identify business opportunities, emerging applications, market trends and risks, as well as to benchmark business plans.

Questions answered in this report include:

  • What was the global quantum computing market size in 2016-2017?
  • What will the global quantum computing market size and trends be during 2018-2024?
  • Which are the quantum computing submarkets that provide attractive business opportunities?
  • What drives the customers to purchase quantum computing solutions and services?
  • What are the quantum computer applications & services trends?
  • What are the market SWOT (Strengths, Weaknesses, Opportunities and Threats)?
  • What are the challenges to the quantum computing market penetration & growth?
  • Who are the industry players?
  • How and where to invest in quantum computing industry?

According to the Quantum Computing Market & Technologies – 2018-2024report, the global quantum computing market will grow at a CAGR of 24.6% throughout 2018-2024(*). During 2017 Quantum Computing technologies performance has increased at an impressive rate; we forecast that 2018-2019 will experience a surge of breakthroughs.

Why Buy This Report?

A. Quantum computing demand side is analyzed, including 4 sectors: 

  • National Security
  • Government
  • Gov.-Funded RDT&E
  • Industry & Business Sectors

B. The report includes a detailed background of 55 quantum computing business opportunities
C. Market size data is provided for 4 regional markets:

  • North America
  • Europe
  • Asia-Pacific
  • ROW

D. National activities are presented for 24 national markets:

  1. U.S.
  2. Canada
  3. Mexico
  4. Brazil
  5. Rest of Latin America
  6. UK
  7. France
  8. The Netherlands
  9. Denmark, Sweden, Norway, Finland
  10. Germany
  11. Switzerland
  12. Russia
  1. Rest of Europe
  2. Saudi Arabia
  3. Other GCC
  4. Israel
  5. South Africa
  6. Rest of ME&A
  7. India
  8. China
  9. Japan
  10. Singapore
  11. Australia
  12. Rest of Asia Pacific

E. 41 Quantum Computing Bids, and Projects Data are provided

F. The report includes the following appendices:

Appendix A: Introduction to Quantum Computing
Appendix B: Quantum Information Technologies
Appendix C: Quantum Computing Hardware
Appendix D: Quantum Computing Software
Appendix E: Quantum Encryption
Appendix F: Global 50 Top Supercomputers
Appendix G: Industry Investment in Quantum Computing – 2006-2016
Appendix H: NQIT R&D Projects
Appendix I: Exascale Computing
Appendix J: Key Quantum Computing Patents
Appendix K: Links to 31 Quantum Computing Academic Research Centers
Appendix L: Quantum Conferences Links
Appendix M: Glossary
Appendix N: References

G. The report includes over 300 links to the Quantum Computing community information sources

H. The report provides an updated extensive data of the leading 55 Quantum Computing companies:

Agilent Technologies
Aifotec AG
Airbus Group
Alibaba Group Holding Limited
Anyon Systems, Inc
Avago Technologies
Booz Allen Hamilton
British Telecommunications (BT)
Cambridge Quantum Computing
Ciena Corporation
D Wave Systems Inc
Eagle Power Technologies, Inc
Entanglement Partners
Emcore Corporation
Enablence Technologies
Finisar Corporation
Fuijitsu Limited
Google Quantum AI Lab
H-Bar Quantum Consultants
Hewlett Packard Enterprise Company
Infinera Corporation
Intel Corporation
ID Quantique

JDS Uniphase Corporation
Kaiam Corporation
Lockheed Martin Corp.
MagiQ Technologies, Inc.
Microsoft Quantum Architectures and
Computation Group (QuArC)
Mitsubishi Electric Corp.
Nokia Bell Labs
NTT Basic Research Laboratories and
NTT Secure Platform Laboratories
QC Ware Corp.
Quantum Circuits
Quantum Hardware Inc
Quintessence Labs
Raytheon BBN
Rigetti Computing
SK Telecom
Sparrow Quantum

Table of Contents

Download TOC as PDF

Quantum Computing Industry, Technologies & Business Opportunities – 2018-2024

1 Executive Summary
1.1 Major Findings & Conclusions
1.2 Global Quantum Computing Market – 2016-2024
2 Global Information Technology (IT) Market
3 Quantum Computing
4 Why Are Quantum Computers Attractive?
5 Quantum Computing Outlook
6 Quantum Supremacy
7 Quantum Technologies Timeline
8 Investments in Quantum Computing
9 Quantum Computing Technology Roadmap
10 Topological Quantum Computers
11 The 2nd Quantum Revolution
12 Private Sector Quantum Computing R&D Activities
13 The Global Quantum Computing Race
14 China – U.S. Quantum Information Leadership Race
15 Government-Funded RDT&E
16 Moore’s Law Outlook
17 Quantum Information Bids and Projects Data
18 Quantum Computing Industry SWOT Analysis
18.1 Quantum Computing Industry: Strengths
18.2 Quantum Computing Industry: Weaknesses
18.3 Quantum Computing Industry: Opportunities
18.4 Quantum Computing Industry: Threats
19 Quantum Computing Value Chain
20 Quantum Computing Demand Side
20.1 Quantum Computing Vertical Sectors & Applications Roadmap
20.2 Defense & Intelligence Quantum Computing
20.2.1 National Security Intelligence
20.2.2 Defense
20.3 Homeland Security & Public Safety Quantum Computing
20.3.1 Public Safety
20.3.2 Homeland Security
20.4 Government & Public Services Quantum Computing
20.5 Banking & Securities Quantum Computing
20.6 Manufacturing & Logistics Quantum Computing
20.7 Insurance Industry Quantum Computing
20.8 Healthcare & Pharmaceutical Industry Quantum Computing
20.8.1 Overview
20.8.2 Medical Diagnostics Quantum Computing
20.8.3 Medical Treatments Quantum Computing
20.8.4 Example: Combating Cancer
20.8.5 The Folding@home Project
20.8.6 Pharmacology Quantum Computing
20.8.7 Protein Folding Quantum Computing
20.9 Retail & Wholesale Industry Quantum Computing
20.9.1 Market Background
20.1 Information Technology Industry Quantum Computing
20.10.1 Software Verification & Validation
20.11 Telecommunications Industry Quantum Computing
20.12 Automotive, Aerospace & Transportation Industry Quantum Computing
20.13 Energy & Utilities Industry Quantum Computing
20.14 Web, Media & Entertainment Industry Quantum Computing
20.15 Smart Cities Quantum Computing
20.16 Cybersecurity Quantum Computing
20.17 Machine Learning
20.18 Search Engines
20.19 Business Intelligence
20.2 Software/Hardware Validation and Verification
20.21 Image and Pattern Recognition
20.22 Banking & Financial Services Industries
20.23 Financial Electronic Trading & Trading Strategies
20.24 Retail & Wholesale Industry
20.25 Energy Systems & Photovoltaics Industry
20.26 Energy Exploration Industry
20.27 Academia & National Labs
20.28 Graph Theory Problems
20.29 Material Science
20.3 Marine Science
20.31 Bioinformatics
20.32 Climate Modeling & Weather Predictions
20.33 Seismic Survey Industry
20.34 Risk Management
20.35 Simulation
20.36 Video Compression
20.37 Cryptography
20.37.1 Quantum Cryptography
20.37.2 Post-Quantum Cryptography
20.38 QC-Based Optimization Problems
20.38.1 Optimization Problems
20.38.2 Quantum-Assisted Optimization
20.38.3 Reservoir Optimization Applications
20.38.4 Utilities Management Optimization
20.39 Quantum Computing Based Machine Learning
20.39.1 Quantum Machine Learning
20.39.2 Quantum Reinforcement Learning
20.4 Big Data & Predictive Analytics
20.41 Material Science Industry
20.42 Quantum Sampling
20.43 Quantum Chemistry
20.44 Monte Carlo Simulation
  North America
21 U.S. Quantum Computing
21.1 U.S. Quantum Computing Background
21.1.1 U.S. Government Quantum Computing
21.1.2 U.S. Government Investment in Quantum Computing: Introduction
21.1.3 DOD: Quantum Computing Activities, Projects & Funding
21.1.4 DOE: Quantum Computing Activities, Projects & Funding
21.1.5 NSA: Quantum Computing Activities, Projects & Funding
21.1.6 IARPA: Quantum Computing Activities, Projects & Funding
21.1.7 NIST: Quantum Computing Activities, Projects & Funding
21.1.8 NSF: Quantum Computing Activities, Projects & Funding
21.1.9 U.S.A. Supercomputing Race
21.1.10 Federal Quantum Computing Outlook – 2018-2024
21.1.11 U.S. Private Sector Quantum Computing Background
21.1.12 U.S. Quantum Computing RDT&E
21.2 The U.S.-Chinese, Quantum Technology Race
21.2.1 Scope
21.2.2 U.S. Strategic Considerations
21.2.3 Quantum Encryption and Communication Race
21.2.4 The Quantum Sensing Race
22 Canada Quantum Computing
22.1 Canada Quantum Computing Background
23 EU Quantum Computing Industry & R&D Activities
23.1 Introduction
23.2 EU Research Frameworks
23.3 European Commission Future & Emerging Technologies Program QC Activities
23.3.1 Funding
23.3.2 The EU Cloud Initiative
23.3.3 The EU Quantum Technology Flagship
23.3.4 The EU Quantum Technology Program
23.4 The EU Quantum Computing Industry Program
24 UK Quantum Computing
24.1 UK Quantum Computing Background
25 France Quantum Computing
25.1 France Quantum Computing Activities
25.1.1 France QC National Network
25.1.2 Quantum Computation in France
25.1.3 Quantum Group
25.1.4 Atos SE
25.1.5 IBM France
25.1.6 Paris Centre for Quantum Computing
26 Netherlands Quantum Computing
26.1 Netherlands Quantum Computing Activities
27 Denmark, Sweden, Norway, Finland Quantum Computing
27.1 Denmark, Sweden, Norway, Finland Quantum Computing Activities
28 Germany Quantum Computing
28.1 Germany Quantum Computing Activities
29 Russia Quantum Computing
29.1 Russia Quantum Computing Activities
30 India Quantum Computing
30.1 India Quantum Computing Background
31 China Quantum Computing
31.1 China Quantum Computing Background
31.1.1 Quantum Information in China
31.1.2 Government-Funded RDT&E
31.1.3 Made in China 2025 Program
31.1.4 Chinese Quantum Computing Advances
31.1.5 PRC’s Quantum Cryptography and Communications
31.1.6 PRC Quantum Sensing Programs
31.1.7 China-U.S. Quantum Information Race
31.1.8 Limitations of the U.S. Quantum Information Programs
31.1.9 U.S. vs. Chinese Intellectual Property (IP) Race
31.1.10 China Supercomputing Lead
32 Japan Quantum Computing
32.1 Japan Quantum Computing Activities
33 Singapore Quantum Computing
33.1 Singapore Quantum Computing Activities
34 Australia Quantum Computing
34.1 Australia Quantum Computing Activities
  Latin America & MEA
35 Brazil Quantum Computing
35.1 Brazil Quantum Computing Activities
36 GCC Quantum Computing
36.1 Market Background
36.2 GCC Quantum Computing Activities
37 Israel Quantum Computing
37.1 Israel Quantum Computing Activities
38 Quantum Computing Startups
39 Quantum Computing Companies
39.1 1Qbit
39.1.1 Company Profile
39.1.2 Quantum Computing Activities
39.2 Agilent Technologies
39.2.1 Company Profile
39.2.2 Quantum Computing Activities
39.3 Aifotec AG
39.3.1 Company Profile
39.3.2 Quantum Computing Activities
39.4 Airbus Group
39.4.1 Company Profile
39.4.2 Quantum Computing Activities
39.5 Alcatel-Lucent
39.5.1 Company Profile
39.5.2 Quantum Computing Activities
39.6 Alibaba Group Holding Limited
39.6.1 Company Profile
39.6.2 Quantum Computing Activities
39.7 Anyon Systems, Inc
39.7.1 Company Profile
39.7.2 Quantum Computing Activities
39.8.1 Company Profile
39.8.2 Quantum Computing Activities
39.9 Avago Technologies
39.1 Booz Allen Hamilton
39.10.1 Company Profile
39.10.2 Quantum Computing Activities
39.11 British Telecommunications (BT)
39.11.1 Company Profile
39.11.2 Quantum Computing Activities
39.12 Cambridge Quantum Computing Limited
39.12.1 Company Profile
39.12.2 Quantum Computing Activities
39.13 Ciena Corporation
39.13.1 Company Profile
39.13.2 Quantum Computing Activities
39.14 Cyoptics
39.14.1 Company Profile
39.14.2 Quantum Computing Activities
39.15 D-Wave Systems Inc
39.15.1 Company Overview
39.15.2 Quantum Computing Activities
39.16 Eagle Power Technologies, Inc
39.16.1 Company Profile
39.16.2 Quantum Computing Activities
39.17 Emcore Corporation
39.17.1 Company Profile
39.17.2 Quantum Computing Activities
39.18 Enablence Technologies
39.18.1 Company Profile
39.18.2 Quantum Computing Activities
39.19 Entanglement Partners
39.2 Fathom Computing
39.20.1 Company Profile
39.20.2 Quantum Computing Activities
39.21 Finisar Corporation
39.22 Fujitsu Limited
39.22.1 Company Profile
39.22.2 Quantum Computing Activities
39.23 Google Quantum AI Lab
39.23.1 Company Profile
39.23.2 Quantum Computing Activities
39.24 H-Bar Quantum Consultants
39.25 Hewlett Packard Enterprise Company
39.25.1 Company Profile
39.25.2 Quantum Computing Activities
39.26 IBM
39.26.1 Company Profile
39.26.2 Quantum Computing Activities
39.27 ID Quantique
39.27.1 Company Profile
39.27.2 Quantum Computing Activities
39.28 Infinera Corporation
39.28.1 Company Profile
39.28.2 Quantum Computing Activities
39.29 Intel Corp.
39.29.1 Company Profile
39.29.2 Quantum Computing Activities
39.3 IonQ
39.30.1 Company Profile
39.30.2 Quantum Computing Activities
39.31 JDS Uniphase Corporation
39.32 Kaiam Corporation
39.32.1 Company Profile
39.32.2 Quantum Computing Activities
39.33 Lockheed Martin Corp.
39.33.1 Company Profile
39.33.2 Quantum Computing Activities
39.34 MagiQ Technologies, Inc.
39.34.1 Company Profile
39.34.2 Quantum Computing Activities
39.35 Microsoft Quantum Architectures and Computation Group (QuArC)
39.35.1 Company Profile
39.35.2 Quantum Computing Activities
39.36 Mitsubishi Electric Corp.
39.36.1 Company Profile
39.36.2 Quantum Computing Activities
39.37 NEC
39.37.1 Company Profile
39.37.2 Quantum Computing Activities
39.38 Nokia Bell Labs
39.38.1 Company Profile
39.38.2 Quantum Computing Activities
39.39 NTT Basic Research Laboratories & NTT Secure Platform Laboratories
39.39.1 Company Profile
39.39.2 Quantum Computing Activities
39.4 Optalysys Ltd.
39.40.1 Company Profile
39.40.2 Quantum Computing Activities
39.41 Post-Quantum
39.41.1 Company Profile
39.41.2 Quantum Computing Activities
39.42 QbitLogic
39.42.1 Company Profile
39.42.2 Quantum Computing Activities
39.43 QC Ware Corp.
39.43.1 Company Profile
39.43.2 Quantum Computing Activities
39.44 Quantum Circuits
39.44.1 Company Profile
39.45 Quantum Hardware Inc
39.45.1 Company Profile
39.45.2 Quantum Computing Activities
39.46 QuantumCTek
39.46.1 Company Profile
39.46.2 Quantum Computing Activities
39.47 Qubitekk
39.47.1 Company Profile
39.47.2 Quantum Computing Activities
39.48 Quintessence Labs
39.48.1 Company Profile
39.48.2 Quantum Computing Activities
39.49 QxBranch
39.5 Raytheon BBN
39.50.1 Company Profile
39.50.2 Quantum Computing Activities
39.51 Rigetti Computing
39.51.1 Company Profile
39.51.2 Quantum Computing Activities
39.52 SeQureNet
39.53 SK Telecom
39.53.1 Company Profile
39.53.2 Quantum Computing Activities
39.54 Sparrow Quantum
39.54.1 Company Profile
39.54.2 Quantum Computing Activities
39.55 Toshiba
39.55.1 Company Profile
39.55.2 Quantum Computing Activities
39.56 Xanadu
40 Appendix A: Introduction to Quantum Computing
40.1 Superposition
40.2 Entanglement
40.2.1 Ion-based Qubits
40.2.2 Superconducting Qubits
40.2.3 Solid-State Spin Qubits
41 Appendix B: Quantum Information Technologies
41.1 Quantum Information
41.2 Shared Principles
41.3 Quantum Computing
41.4 Quantum Cryptography:
41.5 Quantum Sensing
42 Appendix C: Quantum Computing Hardware
43 Appendix D: Quantum Computing Software
43.1 Introduction to Quantum Algorithms
44 Appendix E: Quantum Encryption
44.1 Background
44.2 Key Findings
44.3 Spooks Reacting at a Distance
45 Appendix F: Global 50 Top Supercomputers
46 Appendix G: Industry Investment in Quantum Computing – 2006-2016
47 Appendix H: NQIT R&D Projects
47.1 Background
47.2 Architectures, Standards and Systems Integration
47.3 Ion Trap Node Engineering
47.4 Atom-photon Interfaces
47.5 Photonic Network Engineering
47.6 Solid State Node Engineering
47.7 Secure Communications and Verification
47.8 Networked Quantum Sensors
47.9 Quantum Digital Simulation
47.1 Hybrid Classical/Quantum Computing
47.11 Capabilities and Support
48 Appendix I: Exascale Computing
48.1 Exascale Computing Definition
48.2 U.S. Exascale Computing Activities
48.3 China Exascale Computing Activities
48.4 EU Exascale Computing Activities
48.5 Japan Exascale Computing Activities
48.6 India Exascale Computing Activities
48.7 Exascale Computing Challenges
49 Appendix J: Key Quantum Computing Patents
49.1 Patents List
49.2 Quantum Computing Patent Filing by Country
50 Appendix K: Links to 31 Quantum Computing Academic Research Centers
51 Appendix L: 2017 Quantum Conferences Links
52 Appendix M: Glossary
53 Appendix N: References
54 Scope & Methodology
54.1 Research Scope
54.2 Research Methodology
55 Disclaimer & Copyright


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Quantum Computing Industry, Technologies & Business Opportunities – 2018-2024

Table 1 Global Quantum Computing Market* [$M] by Region – 2016-2024
Table 2 Global Quantum Computing Market* AGRs [%] by Region – 2016-2024
Table 3 The Global IT Market [$B] & Market Share [%] By Revenue Source – 2017
Table 4 Global IT Market Share [%] By Region – 2016
Table 5 Global IT Market [$B] By Industry – 2016
Table 6 Quantum Computing Investment by Investor
Table 7 Government-Funded RDT&E by Country – 2016
Table 8 Quantum Information 2014-2017 Bids and Projects
Table 9 European Quantum Technology Program Expected Applications
Table 10 Startup Quantum Computing Companies
Table 11 Commercial Investment in Quantum Computing – 2006-2016


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Quantum Computing Industry, Technologies & Business Opportunities – 2018-2024

Figure 1 Quantum Computing Applications Organogram
Figure 2 Three Types of Quantum Computing and Applications
Figure 3 TNO Quantum Technologies Timeline Outlook – 2015-2035
Figure 4 Quantum Computing Technology Roadmap
Figure 5 Leading IT Companies and Defense Contractors Investing in Quantum Computing
Figure 6 Leading Quantum Computing Companies Technology Approaches
Figure 7 Quantum Computing, Patent Applications by Country to 2015
Figure 8 Quantum Patent Applications Timeline 2000-2015
Figure 9 Quantum Computing: Vertical Sectors & Applications Roadmap
Figure 10 QC Promises to Aerospace Activities
Figure 11 The UK QC Research Hubs
Figure 12 QuTech Focus Areas
Figure 13 Dutch Quantum Computing Research Centers
Figure 14 The Dutch 2016-2022 H2020 QC Research Program
Figure 15 China Quantum Computing, Patent Applications Status
Figure 16 China Quantum Patent Applications Timeline Vs. The U.S. Japan, Europe & Korea
Figure 17 Quantum Computing Investor – Company Relationship
Figure 18 Qubit Explanation
Figure 19 Quantum Entanglement
Figure 20 Control Systems for the Ion-Trap System
Figure 21 Quantum Computing, Quantum Cryptography and Sensors Quantum Patent Applications by Country 2000 to 2015
Figure 22 Patent Applications by Country – 2000-2015

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