Quantum Computing - R&D Portfolio Analysis and Roadmapping

Quantum Computing - R&D Portfolio Analysis and Roadmapping

Quantum Communications, Sensing, Simulation, and Computing Drive New Opportunities in Computational Science

RELEASE DATE
31-Dec-2018
REGION
Global
Research Code: D884-01-00-00-00
SKU: ES01079-GL-TR_22753

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$4,950.00

$3,712.50 save 25 %

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Description

Quantum computing developments have witnessed a remarkable progress in the two past decades, involving a multi-disciplinary field of applied research. With the advent of disruptive technologies which addresses individual quantum states, quantum properties such as superposition and entanglement have led to the development of a completely new approach in computational science.
Quantum computing field involves four domains:
•     Quantum communication via individual or entangled photons used to transmit data in a secure way
•     Quantum simulation via well-controlled quantum systems used to reproduce the behavior of less accessible quantum systems
•     Quantum computation via quantum effects that significantly speeds up calculations
•     Quantum sensing via high sensitivity of coherent quantum systems and external perturbations to measure physical quantities

The report captures developments in quantum computing technology which leads to improvement in safety, quality, performance and yield across many application sectors and industries. The study covers companies and organizations that leverage key principles of quantum mechanics, primarily superposition and entanglement, to develop quantum computers, enabling components, software, and application platforms.
The study covers the following topics:
•     Technology roadmap, trends, capabilities, and applications
•     Stakeholder activities, industry initiatives, investment environment
•     Regional and global regulation landscape, standardization approaches, drivers and challenges
•     Technology benchmarking for smart decision-making in driving business

Table of Contents

1.1 Quantum Computing: The Bigger Picture

1.2 Quantum Computing: The Most Wonderful Revolution

1.3 Quantum Computing: The Empire of Quantum Physics

1.4 Research Focus: Quantum Computing Technology Synergy

1.5 Research Scope: Unveiling a Radically Novel Technology

1.6 Analysis Framework: Frost & Sullivan’s Core Value

1.7 Research Methodology

2.1 Key Elements of Analysis: The ‘Quantum’ Ecosystem

2.2 Brief Overview of Quantum Computing

2.3 Evolving Quantum Computers

2.4 Quantum Overall Hardware Architecture

2.5 Quantum Overall Software Architecture

3.1 Quantum Computing Hardware Innovations

3.2 Quantum Computing Hardware Developments

3.3 Quantum Computing Hardware Advances

3.4 Quantum Computing Hardware Technologies

3.5 Quantum Computing Hardware Circuits

3.6 Quantum Computing Hardware Disruption

3.7 Quantum Computing Hardware Approaches

3.8 Quantum Computing Hardware Platforms

3.9 Quantum Computing Hardware Novelties

3.10 Quantum Computing Software Innovations

3.11 Quantum Computing Software Uniqueness

3.12 Quantum Computing Software Advances

3.13 Quantum Computing Software Developments

3.14 Quantum Computing Software Architecture

3.15 Quantum Computing Service Innovations

3.16 Quantum Computing Service Implementation

3.17 Quantum Computing Service Developments

3.18 Quantum Computing Service Applications

3.19 Quantum Computing Service Deployment

3.20 Quantum Computing Service Improvements

3.21 Quantum Computing Service Transformations

3.22 Quantum Computing Service Revolution

4.1 Market Dynamics and Business Opportunities

4.2 Quantum Computing Market by Application

4.3 Quantum Computing Market by Sector

4.4 Quantum Computing Market by End User

4.5 Quantum Computing Market by Type

4.6 Quantum Computing Market by Region

5.1 Technology Synergy Reshaping Value Chain

5.2 New Approaches Driving Quantum Computing Solutions

5.3 Technology and Business Landscape: Accelerators

5.4 Technology and Business Landscape: Challenges

5.5 Technology Transfer Assessment and Perceptions

5.6 Principal Innovators and Patent Holders

6.1 Funding and Investment Models and Adoption

6.2 Funding Trends and Contribution Focus

6.3 Funding and Investment Distribution by Type

6.4 Private Funding Distribution by Stage

6.5 Private Funding – Additional Contributions

6.6 Public Funding Distribution by Type

6.7 Public and Private Funding by Region

6.8 Principal Private Investors by Company

6.9 Additional Private Investors by Company

6.10 Other Private Investors by Company

6.11 Public and Private Investment Ecosystem

7.1 Technology Maturity Level and Description

7.2 Quantum Computing Technology Maturity

7.3 Quantum Computing Technology Roadmap

7.4 Hardware Technology and Systems Architecture Roadmap

7.5 Quantum Computing Ecosystem

7.5 Quantum Computing Ecosystem (continued)

7.6 Business Model Hybridization

7.7 Future Perspective for Quantum Computing

8.1 Multicriteria Approach for Benchmarking

8.2 Strategic Portfolio Assessment

8.3 Level 1 Criteria: Innovation Development

8.4 Level 1 Criteria: Financial Performance

8.5 Level 1 Criteria: Market Evolution

8.6 Level 2 Criteria: Key Actions for Success

8.7 Analytic Performance Results

8.8 Multicriteria Final Assessment

8.9 Quantum Computing Technology Developers to Watch

8.10 Strategic Business Cases

8.11 Strategic Business Developments

8.12 Critical Success Factors

9.1 Key Industry Influencers

9.2 Key Industry Models

9.3 Key Industry Participants

9.4 Key Industry References

9.5 Key Industry Exemplars

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Related Research
Quantum computing developments have witnessed a remarkable progress in the two past decades, involving a multi-disciplinary field of applied research. With the advent of disruptive technologies which addresses individual quantum states, quantum properties such as superposition and entanglement have led to the development of a completely new approach in computational science. Quantum computing field involves four domains: • Quantum communication via individual or entangled photons used to transmit data in a secure way • Quantum simulation via well-controlled quantum systems used to reproduce the behavior of less accessible quantum systems • Quantum computation via quantum effects that significantly speeds up calculations • Quantum sensing via high sensitivity of coherent quantum systems and external perturbations to measure physical quantities The report captures developments in quantum computing technology which leads to improvement in safety, quality, performance and yield across many application sectors and industries. The study covers companies and organizations that leverage key principles of quantum mechanics, primarily superposition and entanglement, to develop quantum computers, enabling components, software, and application platforms. The study covers the following topics: • Technology roadmap, trends, capabilities, and applications • Stakeholder activities, industry initiatives, investment environment • Regional and global regulation landscape, standardization approaches, drivers and challenges • Technology benchmarking for smart decision-making in driving business
More Information
No Index No
Podcast No
Author Cecilia Van Cauwenberghe
Industries Electronics and Sensors
WIP Number D884-01-00-00-00
Is Prebook No