Quantum computing is a new technology with a high potential. Unlike classical computers that use bits, quantum computers use quantum bits, or qubits, which can portray both 0 and 1 simultaneously due to the principles of quantum mechanics, which makes quantum computers well-suited for specific types of complex calculations.
Quantum computing market growth continues as major tech companies make significant strides in developing quantum technologies. Recently, global players such as IBM, Google, and Intel have made notable advances in designing quantum processors with increased computing power, opening new opportunities in industries like cryptography, pharmaceuticals, and artificial intelligence.
Quantum computing solutions have seen increasing interest across various industries that require advanced computing abilities such as finance, energy and logistics. With increasingly complex problems facing organizations today, quantum computing offers organizations hope for faster and more efficient problem-solving. Quantum computers provide organizations with new avenues for innovation.
Recent events have witnessed governments and private entities investing heavily in quantum research and development. For instance, both Europe and America have launched national programs to advance quantum technologies, providing significant funding to foster innovation and ensure competitiveness within this rapidly developing field. As a result, market growth should accelerate significantly.
Opportunity exists within the quantum computing market, as industries increasingly turn to quantum technology for tasks such as optimizing supply chains, drug discovery and communication systems development. With quantum hardware and software continually improving and more businesses taking advantage of remotely accessible quantum power models allowing remote access, growth looks certain for this emerging sector.
As per research.aimultiple The quantum technology market is projected to experience rapid expansion by 2040, reaching an estimated valuation of $173 billion. Investment in quantum technology by governments has already topped $42 billion - Germany, UK and South Korea leading in major funding initiatives for this emerging field. Such widespread interest demonstrates its vast potential and opportunities.
Quantum computing is expected to make major advances across multiple industries, including chemicals, pharmaceuticals, financial services and transportation. These industries could see potential economic gains of $2 trillion by 2035 from quantum technology; with automotive seeing between $2 billion to $3 billion of economic benefits from quantum technologies by 2030.
As quantum technology develops, there has been an expanding skills gap in its workforce; demand outpacing supply. Projections indicate that by 2025, this industry will need 10,000 qualified workers yet only have an available talent pool of approximately 5,000 available workers to draw from; creating an unsustainable talent shortage which threatens its development and success.
The US Quantum Computing Market
The US Quantum Computing Engine Market is projected to reach USD 0.6 billion in 2024 at a compound annual growth rate of 19.5% over its forecast period.
The US has major growth opportunities in the quantum computing market, driven by large investments from both the government and private sectors. Key areas of growth include development in quantum hardware, software, and
cloud-based services. In addition, applications in industries like finance, healthcare, and materials science provide innovation potential, positioning the US as a leader in quantum technology development.
Further, the market is driven by strong government funding, private sector investment, and advancements in quantum hardware and software. However, challenges like expensive development costs, technical complexities, and the demand for skilled talent act as restraints. Overcoming these hurdles is crucial for expanding the global quantum computing market.
Key Takeaways
- Market Growth: The Quantum Computing Engine Market size is expected to grow by 6.8 billion, at a CAGR of 20.8% during the forecasted period of 2025 to 2033.
- By Offering: The System segment is expected to lead in 2024 with a major & is anticipated to dominate throughout the forecasted period.
- By Deployment: The cloud segment is expected to be leading the market in 2024
- By Application: The optimization segment is expected to get the largest revenue share in 2024 in the Quantum Computing Engine Market.
- Regional Insight: North America is expected to hold a 45.2% share of revenue in the Global Quantum Computing Engine Market in 2024.
- Use Cases: Some of the use cases of Quantum Computing Engine cryptography, optimization problems, and more.
Use Cases
- Cryptography: Quantum computing can break traditional encryption methods by efficiently factoring large numbers. Quantum-safe cryptographic algorithms are being developed in response.
- Drug Discovery and Material Science: Quantum computers can replicate molecular and atomic interactions at unprecedented scales, speeding up drug discovery and the design of new materials.
- Optimization Problems: Quantum computing can solve complex optimization problems more easily, applicable in industries like logistics, finance, and supply chain management.
- Machine Learning: Quantum computers can improve machine learning algorithms by processing large datasets faster, enhancing tasks like pattern recognition and data analysis.
Market Dynamic
Driving Factors
Advances in Quantum HardwareDevelopment in quantum processors, error correction, and qubit stability are pushing quantum computing toward practical applications, growth in investment, and research in the field.
Rising Demand for Complex Problem Solving.
Industries like pharmaceuticals, finance, and logistics are driving quantum computing growth due to their potential to resolve complex problems quicker than classical computers, like
molecular modeling, risk analysis, and optimization challenges.
Restraints
Technical ChallengesQuantum computing experiences major challenges like qubit instability, error correction, and the difficulty in scaling quantum systems, reducing the speed of its practical development and broad adoption.
High CostsDeveloping and maintaining quantum computers is highly expensive due to the specialized equipment and expertise required, limiting access and investment for many organizations.
Opportunities
Breakthroughs in Drug Discovery and Material ScienceQuantum computing's ability to simulate molecular interactions could lead to breakthroughs in developing new drugs, materials, and chemicals, opening new frontiers in
healthcare and industry.
Quantum-Safe Cryptography
As quantum computers threaten traditional encryption, the demand for quantum-safe cryptographic solutions provides opportunities for
cybersecurity developments and innovations in protecting sensitive data.
Trends
Hybrid Quantum-Classical SystemsNumerous companies are innovating hybrid systems that integrate classical and quantum computing to support the strengths of both, allowing more practical short-term applications while quantum hardware matures.
Quantum-as-a-Service (QaaS)
Key tech players like IBM, Google, and Amazon provide cloud-based quantum computing platforms, allowing businesses and researchers to access quantum processors without investing in their hardware.
Research Scope and Analysis
By Offering
The system segment is an offering of the quantum computing market, holding a major revenue share, as it focuses on the advancement and deployment of quantum computing hardware and systems. Quantum hardware, like quantum processors, qubit architectures, and quantum interconnects, saw rapid advancements.
Companies were investing primarily to increase the number of qubits, improve the quality of qubits, and enhance error correction techniques. These hardware developments are vital for achieving quantum supremacy and looking into complex, real-world problems that traditional computers cannot solve efficiently.
Further, the service segment is anticipated to grow at the highest rate over the forecasted period, as a variety of services related to quantum computing, like consulting, quantum software development, algorithm design, and
cloud-based quantum services. Consulting firms concentrating on quantum computing have seen growing demand, as businesses look for guidance on how quantum technology can impact their operations.
These firms support organizations in identifying potential quantum applications, evaluating their readiness, and developing strategies for integrating quantum technology into current business processes. As the quantum computing market evolves, these services are becoming highly important to support businesses in using quantum capabilities effectively.
By Deployment
The quantum computing market based on deployment is divided into cloud and on-premise deployment types. Over the forecast period, the cloud segment is anticipated to experience the highest growth rate and is expected to hold the biggest market share by 2024, due to the growing demand for cloud-based computing services as more developed quantum systems are being created.
Cloud technology provides a variety of flexible ways to use quantum computers, providing users with easy access to powerful solutions offered by major market players. The ability to access quantum computing services remotely and on demand is a key factor contributing to the rise in popularity of cloud-based solutions.
Further, on-premise quantum computers come with all the necessary hardware but demand more time and resources to create automated calibration and testing algorithms for large data sets, which leads to a decline in their use, mainly as cloud-based options become more variety of available and convenient. The lesser adoption of on-premise quantum computers is expected to continue in coming years, as businesses increasingly opt for the flexibility and scalability offered by cloud-based quantum computing services.
By Technology
Trapped ions are projected to play a vital role in advancing the quantum computing market by acting as one of the leading technologies for building quantum processors. In this approach, ions are confined & manipulated using electromagnetic fields, allowing them to act as qubits. Trapped ions have stability and low error rates, making them largely reliable for quantum computations.
They also provide long coherence times, as they can maintain their quantum state for extended periods, which is essential for performing complex calculations, the trapped ion technology is being developed by many companies as an innovative pathway to achieve scalable and practical quantum computers, driving growth in the quantum computing field.
Photonics networks are also important for the growth of the quantum computing market because they use light to transmit and process quantum information. Photons, the basic units of light, can travel long distances rapidly and with minimal interference, which is important for linking different quantum processors and building effective quantum communication networks, which improves the scalability and efficiency of quantum systems, making it easier to develop large-scale quantum computers and advance the overall field of quantum computing.
By Application
In terms of application, the optimization segment is projected to lead the quantum computing market in 2024 with the highest revenue share, as it is one of the most promising application areas for this technology. Quantum computing's ability to handle complex optimization problems faster and more effectively than classical computers has sparked significant growth in this area.
Businesses are highly utilizing quantum computing to improve supply chain and logistics operations, where optimization is critical. By using quantum algorithms, companies can determine more effective transportation routes, lower shipping expenses, minimize inventory costs, and enhance the overall efficiency of their supply chains, which is particularly beneficial for industries with complex distribution networks, where even small improvements can lead to major cost savings and operational efficiency.
Further, in the quantum computing space is the growing integration of quantum computing with machine learning, giving rise to Quantum
Machine Learning (QML). QML applies quantum algorithms and hardware to improve machine learning processes, providing potential breakthroughs in optimization, data analysis, and the training of AI models.
The ability of quantum computing to look into complex computations at accelerated speeds makes it a game-changer for these fields. As quantum technology constantly innovates and becomes more accessible, the machine learning sector is expected to see wider expansion and adoption of QML, leading to significant advancements in AI and data science.
By End User
The BFSI (Banking, Financial Services, and Insurance) sector is expected to show a strong market share in quantum computing in 2024, along with significant growth expected in the coming years, due to the financial industry's early adoption of quantum computing technology, mainly due to its strong processing capabilities. One of the key areas where quantum computing is making an impact is cybersecurity.
In banking, protecting sensitive customer financial data is important, and quantum cryptography provides much stronger security than traditional digital methods, which is also a major factor that is expected to continue driving the adoption of quantum technologies in the financial sector, supporting its growth over the forecast period. Further, the healthcare and
pharmaceutical industries are also expected to see notable growth in the usage of quantum computing.
In healthcare, quantum computing has the potential to transform medical treatment by speeding up the diagnosis process, customizing treatments for individual patients, and minimizing overall costs. It could provide quick and more accurate diagnostic solutions, resulting in better patient outcomes. These benefits are fueling the healthcare sector to explore quantum computing as a tool for enhancing healthcare delivery, which is expected to drive its expansion in the coming years.
The Quantum Computing Market Report is segmented on the basis of the following
By Offering
By Deployment
By Technology
- Trapped Ions
- Quantum Annealing
- Photonics Network
- Superconducting Qubits
- Others
By Application
- Optimization
- Machine Learning
- Simulation
- Others
By End User
- Aerospace & Defense
- Healthcare
- Automotive
- BFSI
- Chemical
- Energy & Power
- Government
- Others
Regional Analysis
North America is expected to lead the quantum computing market
with a 45.2% share in 2024, which benefits from a strong network of leading companies and research institutions, assisted by major public and private investments.
North America's advanced ecosystem in quantum hardware, software, and cloud solutions positions it at the lead of the industry. The market in the US is mainly focused on applications in cryptography, optimization, and scientific research.
With rise in investments from both the government and private sectors, the US quantum computing market is set to expand highly, driven by the technology's potential to transform industries like materials science, drug discovery, and finance.
Further, Asia Pacific is set to be a major growth region for quantum computing due to higher financial assistance from governments and industry leaders in countries like Japan, China, and South Korea.
These nations are highly promoting quantum technology through many strategies, like assisting green technology research, developing technology parks or clusters, and forming strategic partnerships. Also, China's aggressive push in quantum communications and Japan's focus on quantum hardware contribute to the region's rise as a key player in the global quantum race.
In addition, the demand for advanced computing solutions in sectors like manufacturing, healthcare, and finance is driving the growth of quantum computing in Asia Pacific, further solidifying its role in the global market.
Europe
- Germany
- The U.K.
- France
- Italy
- Russia
- Spain
- Benelux
- Nordic
- Rest of Europe
Asia-Pacific
- China
- Japan
- South Korea
- India
- ANZ
- ASEAN
- Rest of Asia-Pacific
Latin America
- Brazil
- Mexico
- Argentina
- Colombia
- Rest of Latin America
Middle East & Africa
- Saudi Arabia
- UAE
- South Africa
- Israel
- Egypt
- Rest of MEA
Competitive Landscape
The competitive landscape of the quantum computing market is characterized by a dynamic mix of established tech giants and innovative startups, all competing to lead in this fast-evolving field. Companies are aiming to develop advanced quantum hardware, software solutions, and cloud-based quantum services.
Competition is driven by efforts to enhance qubit performance, error correction, and overall system scalability. In addition, firms are investing heavily in R&D to stay ahead in the race to achieve practical quantum supremacy and address complex problems across various industries, such as finance, healthcare, and materials science.
Some of the prominent players in the global Quantum Computing are
- IBM
- Intel
- Microsoft
- Quantinuum
- D-Wave Quantum
- Accenture
- Quantum Circuit
- Hitachi
- Huwaei
- Q C Ware
- Other Key Players
Recent Developments
- In September 2024, Microsoft plans to bring quantum computing capabilities to its Azure software suite, launching logical qubits alongside its artificial intelligence and high-performance computing capabilities in a new full-stack solution that focuses on tackling the most challenging scientific problems, which features familiar cloud computing software in conjunction with quantum computing-specific hardware for Microsoft’s clients to use against problems classical machines struggle to handle.
- In March 2024, Google launched the 3-year, USD 5 million XPRIZE Quantum Applications to solve real-world challenges with the technology, which is in line with Google Quantum AI’s mission to build a large-scale, error-corrected quantum computer and develop useful quantum computing applications.
- In March 2024, OVHcloud inaugurated the authorization of the first Quantum computer available from a European cloud service provider. At a time when European’s countries express an increase in aspiration to spearhead innovation, regain control over their future, preserve sovereignty, and uphold their values.
- In December 2023, IBM announced the development of a new kind of computing that solves problems in minutes by a technology being developed at IBM, Google, and others, under the field of quantum physics, which describes the forces of the subatomic field, as the quantum computer pushes the limits of knowledge advanced science, new engineering all leading to this processor that computes with the atomic forces that created the universe.