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Universities offering QT research programs and master’s degrees increased significantly, with US and EU institutions in the lead.
McKinsey · 2024 · market_landscape
Universities offering QT research programs and master’s degrees increased significantly, with US and EU institutions in the lead.
195 — Number of universities
 The European Union has the highest number and concentration of QT talent.
McKinsey · 2024 · market_landscape
The European Union has the highest number and concentration of QT talent.
367k — Number of graduates in QT-relevant fields
 The United States leads the QT field in private funding and number of start-ups.
McKinsey · 2024 · market_landscape
The United States leads the QT field in private funding and number of start-ups.
$3.8 billion — Private investment
 Significant public and private funding continued to support QT development in Canada, often as part of hubs.
McKinsey · 2024 · market_landscape
Significant public and private funding continued to support QT development in Canada, often as part of hubs.
$1.4 billion — total public investment
 Multiple Asian countries are catching up on quantum technologies, with bold funding commitments and technological advancements.
McKinsey · 2024 · industry_trends
Multiple Asian countries are catching up on quantum technologies, with bold funding commitments and technological advancements.
 In Greater China, government and private investment drives QT research and education.
McKinsey · 2024 · market_landscape
In Greater China, government and private investment drives QT research and education.
$15.3 billion — total public investment
 India is taking significant steps toward establishing itself as an emerging global leader in quantum technology.
McKinsey · 2024 · case_study
India is taking significant steps toward establishing itself as an emerging global leader in quantum technology.
$1.75 billion — public investment
 Japan has announced ambitious QT goals and reached milestones including deploying three QC systems.
McKinsey · 2024 · case_study
Japan has announced ambitious QT goals and reached milestones including deploying three QC systems.
$1.8 billion — total public investment
 South Korea announced ambitious goals and significant funding to support quantum technology development.
McKinsey · 2024 · case_study
South Korea announced ambitious goals and significant funding to support quantum technology development.
$2.33 billion — Public investment
 Israel is committing public funding to help support QT development consortia and ecosystems.
McKinsey · 2024 · case_study
Israel is committing public funding to help support QT development consortia and ecosystems.
$368 million — total public investment
 European nations are building ecosystems for QT development and setting ambitious goals to lead in quantum technology.
McKinsey · 2024 · industry_trends
European nations are building ecosystems for QT development and setting ambitious goals to lead in quantum technology.
 France combines national and EU funding with private investments for QT development.
McKinsey · 2024 · case_study
France combines national and EU funding with private investments for QT development.
$2.2 billion — total public investment
 Germany has ambitious plans for quantum technologies, as reflected by industry and academic developments.
McKinsey · 2024 · industry_trends
Germany has ambitious plans for quantum technologies, as reflected by industry and academic developments.
$5.2 billion — total public investment
 Italy is using EU funding and regional strategies to fund quantum technology development.
McKinsey · 2024 · market_landscape
Italy is using EU funding and regional strategies to fund quantum technology development.
$144 million — total public investment
 The UK government has committed significant funding to building a leading quantum-enabled economy by 2033.
McKinsey · 2024 · case_study
The UK government has committed significant funding to building a leading quantum-enabled economy by 2033.
$4.3 billion — total public investment
 An emerging QT start-up ecosystem is developing in the Netherlands, stemming from research hubs.
McKinsey · 2024 · market_landscape
An emerging QT start-up ecosystem is developing in the Netherlands, stemming from research hubs.
$1 billion — total public investment
 Finland has both hardware and software start-ups focusing on quantum computing.
McKinsey · 2024 · market_landscape
Finland has both hardware and software start-ups focusing on quantum computing.
$248 million — private investment
 Collaboration among industry, academia, and government is critical toward overcoming challenges for QT development.
McKinsey · 2024 · problem_statement
Collaboration among industry, academia, and government is critical toward overcoming challenges for QT development.
 Emerging clusters will accelerate the development of quantum technologies.
McKinsey · 2024 · industry_trends
Emerging clusters will accelerate the development of quantum technologies.
 Building innovation ecosystems and clusters requires a range of support actions from stakeholders.
McKinsey · 2024 · framework_other
Building innovation ecosystems and clusters requires a range of support actions from stakeholders.
 What are the key enablers that must be in place to accelerate research in QT?
McKinsey · 2024 · framework_other
What are the key enablers that must be in place to accelerate research in QT?
 Successful innovation clusters require ecosystems comprising academic research, start-ups, accelerators, and industry partners.
McKinsey · 2024 · framework_other
Successful innovation clusters require ecosystems comprising academic research, start-ups, accelerators, and industry partners.
 The United States and Canada still have the most vibrant QC start-up communities.
McKinsey · 2024 · data_table
The United States and Canada still have the most vibrant QC start-up communities.
75 — Number of QC start-ups
 QC start-ups continue to emerge across the globe, with the United States, United Kingdom, and European Union launching the most.
McKinsey · 2024 · data_table
QC start-ups continue to emerge across the globe, with the United States, United Kingdom, and European Union launching the most.
261 — Number of QC start-ups
 The rate of publicly announced QC start-up creation has slowed over the past four years.
McKinsey · 2024 · industry_trends
The rate of publicly announced QC start-up creation has slowed over the past four years.
10 — Number of QC companies founded
 Among QC value-chain start-ups, hardware manufacturers continue to see the most investment.
McKinsey · 2024 · market_landscape
Among QC value-chain start-ups, hardware manufacturers continue to see the most investment.
258 — Number of start-ups
 Quantum control links the classical to the quantum world through dedicated software and hardware components.
McKinsey · 2024 · process_diagram
Quantum control links the classical to the quantum world through dedicated software and hardware components.
 Quantum control helps to detect, mitigate, and handle noise.
McKinsey · 2024 · diagnosis
Quantum control helps to detect, mitigate, and handle noise.
 Quantum control plays a significant role in large-scale and high-performance execution of quantum computing.
McKinsey · 2024 · context
Quantum control plays a significant role in large-scale and high-performance execution of quantum computing.
 Six main challenges stand between quantum control and high-performance, large-scale quantum computing.
McKinsey · 2024 · problem_statement
Six main challenges stand between quantum control and high-performance, large-scale quantum computing.
 Most value in quantum control is likely to be unlocked by focusing on low-level control components.
McKinsey · 2024 · framework_other
Most value in quantum control is likely to be unlocked by focusing on low-level control components.
 Benchmarking is a powerful tool for guiding companies during the transition phase of QC from research to industrialization.
McKinsey · 2024 · context
Benchmarking is a powerful tool for guiding companies during the transition phase of QC from research to industrialization.
 The current focus of benchmarking on hardware limits industry insight into real-world application performance.
McKinsey · 2024 · framework_other
The current focus of benchmarking on hardware limits industry insight into real-world application performance.
 Independent, third-party reviews of use-case-based benchmarks on a holistic quantum tech stack will be necessary.
McKinsey · 2024 · recommendation
Independent, third-party reviews of use-case-based benchmarks on a holistic quantum tech stack will be necessary.
 Shortlisted benchmarks include metrics for specific use cases and solutions, as well as for general technological aspects.
McKinsey · 2024 · framework_other
Shortlisted benchmarks include metrics for specific use cases and solutions, as well as for general technological aspects.
 Hardware benchmarking of qubit technologies shows a number of engineering challenges to achieving full-scale fault-tolerant QCs.
McKinsey · 2024 · peer_benchmark
Hardware benchmarking of qubit technologies shows a number of engineering challenges to achieving full-scale fault-tolerant QCs.
 Leading qubit technologies are on track to build a scalable universal quantum computer.
McKinsey · 2024 · market_landscape
Leading qubit technologies are on track to build a scalable universal quantum computer.
1,600 — Physical qubit count
 In the near term, QComm is expected to continue producing technological advancements and attracting commercial interest.
McKinsey · 2024 · industry_trends
In the near term, QComm is expected to continue producing technological advancements and attracting commercial interest.
 QComm adoption is expected to accelerate over the coming decade as quantum computing cybersecurity risks increase.
McKinsey · 2024 · timeline
QComm adoption is expected to accelerate over the coming decade as quantum computing cybersecurity risks increase.
 Timelines for susceptibility to quantum attack depend on qubit hardware development and implementation.
McKinsey · 2024 · timeline
Timelines for susceptibility to quantum attack depend on qubit hardware development and implementation.
10^7 — Physical qubit count
 Despite technological advancements and anticipated need for QComm, 2023 saw few new start-ups focused on the field.
McKinsey · 2024 · data_table
Despite technological advancements and anticipated need for QComm, 2023 saw few new start-ups focused on the field.
96 — Number of QComm start-ups
 Though QComm equipment start-ups make up about a third of the field’s new businesses, they garner the most funding.
McKinsey · 2024 · market_landscape
Though QComm equipment start-ups make up about a third of the field’s new businesses, they garner the most funding.
73% — Share of start-up investment
 QS enables new applications through reliable measurements that are orders of magnitude more sensitive than classical sensors.
McKinsey · 2024 · other
QS enables new applications through reliable measurements that are orders of magnitude more sensitive than classical sensors.
 The increased sensitivity of QS can enable new applications.
McKinsey · 2024 · other
The increased sensitivity of QS can enable new applications.
 New QS applications will impact a number of industries.
McKinsey · 2024 · matrix_nxn
New QS applications will impact a number of industries.
 Recent advances showcase the impact potential of QS.
McKinsey · 2024 · case_study
Recent advances showcase the impact potential of QS.
 The promise of QS has not yet been reflected in start-up activity.
McKinsey · 2024 · data_table
The promise of QS has not yet been reflected in start-up activity.
48 — Number of start-ups
 Half of QS players focus on components, yet start-up investments focus more on hardware and applications/services development.
McKinsey · 2024 · market_landscape
Half of QS players focus on components, yet start-up investments focus more on hardware and applications/services development.
61 — Number of players
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