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Global Quantum Computing Market by Component (Hardware (Systems), Software, Services), Application (Optimization, Machine Learning, Material Simulation), End-Use Industry (Aerospace & Defense, Automotive, BFSI, Healthcare, Chemicals, Manufacturing, Energy & Power, Others) and Region - Global Forecast to 2028

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The quantum computing market is projected to grow at a CAGR of 5.1%, with estimated market size of USD 395.4 million in 2021 and USD 532.91 million by 2028. The main reason propelling market expansion over the projection period is the spike in demand for quantum technology, particularly during coronavirus emergencies, since it offers exponential speed for amplified optimization and crucial calculations. The market is further influenced by integrating big data analytics and cloud computing to provide improved services to various sectors. Research and development (R&D) operations improve deep learning processing systems. Additionally, the market for quantum computing is positively impacted by rising urbanization, lifestyle changes, an increase in investments, and higher consumer spending.
 
Quantum Computing Market Overview

Quantum Computing Market Dynamics

Drivers: Rising investments in quantum computing technology by the government

The development of computing technology is receiving significant funding from governmental bodies engaged in the global military and space industries. Quantum computers will be used for various optimization tasks and simulation strategies. Many governments worldwide are making significant investments in their research institutions to promote the development of computing technologies. The governments of Australia, the European Union, and the United States are all pursuing computing-related projects. For instance, the Ion Trap Computer Development received financing from the German Federal Ministry of Education and Research for USD 50.3 million in December 2021. Germany's government plans to construct a 10-qubit ion trap that will be usable every day of the week and at all times.

Restraints: Problems with stability and error correction

Since qubits are delicate and quickly disturbed by ambient temperature, noise, and frequency changes, commercializing quantum computers is a difficult, complex effort. Maintaining their quantum mechanical state for a long time has been difficult. Several systems based on digital ledgers use the elliptic curve digital signature technique (ECDSA), which is currently not quantum-safe. Quantum systems are also challenging to build, test, and design due to this aspect. Bits frequently need to operate at extremely low temperatures because of the fragility of quantum states. Production must be precise.

Opportunities: Increasing number of strategic alliances

Scalable quantum computing requires devoted partners to advance computing, create useful applications, and build a future workforce of quantum workers. Several businesses collaborate with colleges worldwide to perform computing research and development, including Google LLC, Intel Corporation, and IBM Corporation. For instance, Thales, GENCI, Pasqal, and Paris Region collaborated in December 2021 to study the planning and scheduling applications of Pasqal's quantum processor. Similar to this, in November 2019, the Unitary Fund and IBM Corporation teamed up to offer discounts and first access to several IBM Q systems. The Unitary Fund aspires to establish a quantum technology business that helps the greatest number of people.

Hardware (systems) component is estimated to be the largest growing market category during the forecast period

Hardware (systems) is predicted to expand significantly since it is utilized extensively in the BFSI industry to speed up business operations, activities, and data processing. It assists in the development of a system for controlling financial risks that is more effective and efficient. Additionally, processing times and costs for high-quality solutions can increase exponentially when using conventional classical computers in financial institutions. However, using quantum computers, which can complete tasks faster and for less money, results in cost savings and new sources of income.

Machine learning application is estimated to be the largest growing market category during the forecast period

Quantum machine learning entails incorporating quantum algorithms into machine learning software. It becomes exceedingly challenging to order many variables systematically in complex models. Users can therefore choose quantum computing technologies to quickly and accurately resolve this complexity. For instance, the Monte Carlo approach uses sampling to estimate numerical quantities from a big dataset. Algorithms can speed up the implementation of the Monte Carlo method and cut down on calculation time, whereas quantum algorithms can speed up the execution of a solution.

North American segment is estimated to be the largest growing market during the forecast period

North America is the largest quantum computing market and is projected to grow at the highest CAGR during the forecast period due to substantial expenditures made during the projection period for the introduction of cutting-edge technology and its use in the defense, healthcare, and pharmaceuticals research, chemicals, utilities, and several other sectors.


The market is growing due to escalating R&D investments in quantum computing, mathematics, software, and hardware. The widespread adoption of the technology for machine learning by government agencies, the aerospace industry, and the military sector also helps expand the quantum computing business. The United States now controls the largest market share in the region for quantum computing due to substantial technological developments. Major technological firms like IBM Corporation, Google, Intel, and many more, as well as established technology development hubs in the area, also play a significant role in driving the market.
 
Key Market Players

The quantum computing market is dominated by a few global players and comprises several regional players. Some of the key manufacturers operating in the market are 1QB Information Technologies Inc., Accenture, Atos SE, Cambridge Quantum Computing Ltd, D-Wave Systems Inc., Fujitsu, Hewlett Packard Enterprise (H.P.), Hitachi Ltd, Honeywell Inc., IBM Corporation, Intel Corporation, Magiq Technologies Inc., QC Ware Corp., Quantum Circuits, Inc., Qxbranch, LLC, Google Research, Rigetti Computing, River Lane Research, Station Q - Microsoft Corporation and Toshiba Corporation.

Recent Developments
  • In July 2022, Quantum teamed up with JSR Corporation to investigate quantum computing's potential applications in semiconductor research.
  • In December 2021, to implement algorithms for credit risk analysis, Classiq collaborated with NTT DATA. Additionally, the Classiq software will allow users to select algorithms that will work with other quantum hardware platforms in the future, providing a potential lender with an answer that is more precise or quick.
  • In November 2021, a developer of quantum control technologies named Q-CTRL announced a Series B financing of USD 25 million headed by Airbus Ventures. As a result of this advancement, Q-CTRL will be able to create new quantum sensors for acceleration, gravity, and magnetic fields.
  • In January 2019, to expand the battery capacity and charging speed of electric vehicles, IBM teamed up with Daimler AG, the parent company of Mercedes-Benz. These businesses developed the next-generation lithium-sulfur (LI-S) batteries, which will be more potent, durable, and economical than lithium-ion batteries, by modeling the dipole moment of three lithium-containing molecules using a quantum computer.
Segmentation of Global Quantum Computing Market :
Global Quantum Computing Market – By Component
  • Hardware (Systems)
  • Software
  • Services
 Global Quantum Computing Market – By Application
  • Optimization
  • Machine Learning
  • Material Simulation
Global Quantum Computing Market – By End Use Industry
  • Aerospace & Defense
  • Automotive
  • BFSI
  • Healthcare
  • Chemicals
  • Manufacturing
  • Energy & Power
  • Others
Global Quantum Computing Market – By Region
  • North America
    • U.S.
    • Canada
  • Europe
    • Germany
    • France
    • U.K.
    • Italy
    • Spain
    • Rest of Europe
  • Asia Pacific
    • China
    • Japan
    • India
    • South Korea
    • South-east Asia
    • Rest of Asia Pacific
  • Latin America
    • Brazil
    • Mexico
    • Rest of Latin America
  • Middle East & Africa
    • GCC Countries
    • South Africa
    • Rest of Middle East and Africa
Chapter 1       Preface
 
1.1       Report Scope and Description
            1.1.1    Study Purpose
            1.1.2    Target Audience
            1.1.3    USP and Key Offerings
1.2       Research Scope
1.3       Research Methodology
            1.3.1    Phase I – Secondary Research
            1.3.2    Phase II – Primary Research
            1.3.3    Approach Adopted
            1.3.4    Top-Down Approach
            1.3.5    Bottom-Up Approach
            1.3.6    Phase III – Expert Panel Review
            1.3.7    Assumptions
1.4       Market Segmentation
 
Chapter 2       Report Summary
 
2.1       Market Snapshot: Global Quantum Computing Market
            2.1.1    Global Quantum Computing Market, by Component, 2021 (US$ Mn)
            2.1.2    Global Quantum Computing Market, by Application, 2021 (US$ Mn)
            2.1.3    Global Quantum Computing Market, by End Use Industry, 2021 (US$ Mn)
            2.1.4  Global Quantum Computing Market, by Geography, 2021 (US$ Mn)
 
Chapter 3       Market Dynamics
 
3.1       Introduction
3.2       Market Dynamics
            3.2.1    Market Drivers
            3.2.2    Market Restraint
            3.2.3    Market Opportunities
            3.2.4    Market Challenges
3.3       Attractive Investment Proposition, by Geography, 2021
3.4       Competitive Landscape
            3.4.1    Market Positioning of Key Quantum Computing Manufacturers, 2021
            3.4.2    Quantum Computing Manufacturers, Revenue 2019-2021 (USD Million)
            3.4.3    Strategic Developments
                        3.4.3.1 Mergers and Acquisitions
                        3.4.3.2 Product Launches
                        3.4.3.3 Partnerships and Collaborations
                        3.4.3.4 Others
 
Chapter 4       Global Quantum Computing Market, by Component
 
4.1       Overview
            4.1.1    Global Quantum Computing Market Value Share, by Component, 2021 & 2028 (Value, %)
4.2       Hardware
            4.2.1    Global Hardware Market Value, 2018 – 2028 (US$ Mn) (Kilo Tons)
4.3       Software
            4.3.1    Global Software Market Value, 2018 – 2028 (US$ Mn) (Kilo Tons)
4.4       Services
            4.4.1    Global Services Market Value, 2018 – 2028 (US$ Mn) (Kilo Tons)
 
Chapter 5       Global Quantum Computing Market, by Application
 
5.1       Overview
            5.1.1    Global Quantum Computing Market Value Share, by Application, 2021 & 2028 (Value, %)
5.2       Optimization
            5.2.1    Global Quantum Computing Market Value from Optimization, 2018 – 2028 (US$ Mn) (Kilo Tons)
5.3       Machine Learning
            5.3.1    Global Quantum Computing Market Value from Machine Learning, 2018 – 2028 (US$ Mn) (Kilo Tons)
5.4       Material Simulation
            5.15.1    Global Material Simulation Market Value from Health Analytics, 2018 – 2028 (US$ Mn) (Kilo Tons)

Chapter 6       North America Quantum Computing Market Analysis, 2018 – 2028
 
6.1       Overview
6.2       North America Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn) (Kilo Tons)
6.3       North America Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn) (Kilo Tons)
6.4       North America Quantum Computing Market Analysis, by Country, 2018 – 2028 (US$ Mn) (Kilo Tons)
            6.4.1    US
                        6.4.1.1 US Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        6.4.1.2 US Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            6.4.2    Canada
                        6.4.2.1 Canada Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        6.4.2.2 Canada Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
 
Chapter 7       Europe Quantum Computing Market Analysis, 2018 – 2028
 
7.1       Overview
7.2       Europe Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn) (Kilo Tons)
7.3       Europe Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn) (Kilo Tons)
7.4       Europe Quantum Computing Market Analysis, by Country, 2018 – 2028 (US$ Mn) (Kilo Tons)
            7.4.1    Germany
                        7.4.1.1 Germany Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        7.4.1.2 Germany Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            7.4.2    France
                        7.4.2.1 France Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        7.4.2.2 France Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            7.4.3    UK
                        7.4.3.1 UK Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        7.4.3.2 UK Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            7.4.4    Italy
                        7.4.4.1 Italy Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        7.4.4.2 Italy Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            7.4.5    Spain
                        7.4.5.1 Spain Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        7.4.5.2 Spain Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            7.4.6    Rest of Europe
                        7.4.6.1 Rest of Europe Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        7.4.6.2 Rest of Europe Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
 
Chapter 8       Asia Pacific Quantum Computing Market Analysis, 2018 – 2028
 
8.1       Overview
8.2       Asia Pacific Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn) (Kilo Tons)
8.3       Asia Pacific Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn) (Kilo Tons)
8.4       Asia Pacific Quantum Computing Market Analysis, by Country, 2018 – 2028 (US$ Mn) (Kilo Tons)
            8.4.1    China
                        8.4.1.1 China Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        8.4.1.2 China Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            8.4.2    Japan
                        8.4.2.1 Japan Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        8.4.2.2 Japan Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            8.4.3    INDIA
                        8.4.3.1 INDIA Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        8.4.3.2 INDIA Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            8.4.4    South Korea
                        8.4.4.1 South Korea Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        8.4.4.2 South Korea Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            8.4.5    South East Asia
                        8.4.5.1 South East Asia Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        8.4.5.2 South East Asia Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            8.4.6    Rest of Asia Pacific
                        8.4.6.1 Rest of Asia Pacific Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        8.4.6.2 Rest of Asia Pacific Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
 
Chapter 9       Latin America Quantum Computing Market Analysis, 2018 – 2028
 
9.1       Overview
9.2       Latin America Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn) (Kilo Tons)
9.3       Latin America Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn) (Kilo Tons)
9.4       Latin America Quantum Computing Market Analysis, by Country, 2018 – 2028 (US$ Mn) (Kilo Tons)
            9.4.1    Brazil
                        9.4.1.1 Brazil Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        9.4.1.2 Brazil Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            9.4.2    Mexico
                        9.4.2.1 Mexico Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        9.4.2.2 Mexico Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            9.4.3    Rest of Latin America
                        9.4.3.1 Rest of Latin America Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        9.4.3.2 Rest of Latin America Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
 
Chapter 10     Middle East and Africa Quantum Computing Market Analysis, 2018 – 2028
 
10.1     Overview
10.2     Middle East and Africa Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn) (Kilo Tons)
10.3     Middle East and Africa Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn) (Kilo Tons)
10.4     Middle East and Africa Quantum Computing Market Analysis, by Country, 2018 – 2028 (US$ Mn) (Kilo Tons)
            10.4.1  UAE
                        10.4.1.1           UAE Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        10.4.1.2           UAE Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            10.4.2  South Africa
                        10.4.2.1           South Africa Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        10.4.2.2           South Africa Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
            10.4.3  Rest of Middle East and Africa
                        10.4.3.1           Rest of Middle East and Africa Quantum Computing Market Analysis, by Component, 2018 – 2028 (US$ Mn)
                        10.4.3.2           Rest of Middle East and Africa Quantum Computing Market Analysis, by Application, 2018 – 2028 (US$ Mn)
 
Chapter 11     Company Profiles
 
11.1     1QB Information Technologies Inc.
            11.1.1  Company Overview
            11.1.2  Business Overview
            11.1.3  Financial Overview
            11.1.4  Product Portfolio
            11.1.5  Segment Performance
            11.1.6  Recent Developments
11.2     Accenture
11.3     Atos SE
11.4     Cambridge Quantum Computing Ltd
11.5     D-Wave Systems Inc.
11.6     Fujitsu
11.7     Hewlett Packard Enterprise (H.P.)
11.8     Hitachi Ltd
11.9     Honeywell Inc.
11.10    IBM Corporation
11.11    Intel Corporation
11.12    Magiq Technologies Inc.
11.13    QC Ware Corp.
11.14    Quantum Circuits Inc.
11.15    Qxbranch LLC
11.16    Google Research
11.17    Rigetti Computing
11.18    River Lane Research
11.19    Station Q - Microsoft Corporation
11.20    Toshiba Corporation
No Methodology
No Available