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bluequbit.io article

5 Exciting Quantum Computing Applications

https://www.bluequbit.io/quantum-computing-applications

The ability of quantum computing to perform complex calculations in a short amount of time has huge potential for finance, especially in areas like market prediction and portfolio optimization. Quantum computing is also starting to impact the energy industry by optimizing power grids and exploring sustainable energy solutions. ## What is Quantum Computing and its Applications? ### What are the Applications of Quantum Cloud Computing? On the other hand, quantum computers leverage qubits to carry out parallel processing on multiple possibilities, allowing for the quick execution of complex calculations and optimizations. Quantum technology has great potential in the battery and materials research sectors, with major advantages over classical computing methods. Quantum computing is bound to reshape drug discovery and chemical research, offering unprecedented speed and precision in solving complex molecular challenges. For example, IBM and Cleveland Clinic use quantum computing to allow for faster drug discovery by simulating molecular interactions. ### What are the applications of quantum computing?

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spinquanta.com news

Top 9 Quantum Computing Applications in Key Industries [2025] | SpinQ

https://www.spinquanta.com/news-detail/top-quantum-computing-applications-in-…

# Top 9 Quantum Computing Applications in Key Industries [2025]. Below are some of the most promising quantum computing applications. Quantum Computing Applications in Finance: Revolutionizing Risk Management. Quantum computers can process large datasets and optimize these models much more efficiently than classical computers. 2. Quantum Computing Applications in Finance: Revolutionizing Risk Management.png). 2. Quantum Computing Applications in Finance: Revolutionizing Risk Management.png). Quantum Computing Applications in Drug Discovery and Healthcare: Accelerating Innovation. Quantum Computing Applications in Drug Discovery and Healthcare. Quantum Computing Applications in Drug Discovery and Healthcare. Quantum Computing Applications in Cryptography. Quantum Computing Applications in Cryptography. Quantum Computing Applications in Quantum Simulations: Advancing Material Science. Quantum computers, however, can model these materials at the quantum level, potentially leading to the development of advanced materials with applications in everything from renewable energy to electronics. Quantum Computing Applications in Artificial Intelligence. Quantum Computing Applications in Artificial Intelligence. From healthcare to finance, logistics to materials science, the applications of quantum computing are vast and could drastically improve our ability to solve complex problems.

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builtin.com article

11 Quantum Computing Applications & Examples to Know | Built In

https://builtin.com/hardware/quantum-computing-applications

[](https://builtin.com/hardware/quantum-computing-applications). [![Image 3: Company Photo](https://builtin.com/hardware/quantum-computing-applications)](https://builtin.com/hardware/quantum-computing-applications)[Can't find your company? ![Image 5: quantum computing applications examples](https://cdn.builtin.com/cdn-cgi/image/f=auto,fit=cover,w=320,h=200,q=80/sites/www.builtin.com/files/quantum-computing-applications-examples.jpg). [more](https://builtin.com/hardware/quantum-computing-applications#) Quantum computing is advancing toward practical use, with breakthroughs from Microsoft and Quantinuum improving qubit reliability. [Quantum computing](https://builtin.com/hardware/quantum-computing) (QC) has often felt like a theoretical concept due to the many hurdles researchers must clear. The discovery by Microsoft and Quantinuum addresses this problem and reignites the heated race between [top tech companies](https://builtin.com/hardware/quantum-computing-companies) like Microsoft, Google and IBM to conquer quantum computing. IBM’s research came in the wake of another promising [machine-learning classification algorithm](https://builtin.com/data-science/tour-top-10-algorithms-machine-learning-newbies): a quantum-classical hybrid run on a 19-qubit machine built by [Rigetti Computing](https://www.rigetti.com/). [](https://builtin.com/company/microsoft). [](https://builtin.com/company/microsoft). [](https://builtin.com/company/rigetti-computing). [](https://builtin.com/company/rigetti-computing). ### [Rigetti Computing](https://builtin.com/company/rigetti-computing). [View Profile](https://builtin.com/company/rigetti-computing). [We are hiring](https://builtin.com/company/rigetti-computing). [Rigetti Computing is Hiring | View 11 Jobs](https://builtin.com/company/rigetti-computing). [](https://builtin.com/company/post-quantum). [](https://builtin.com/company/post-quantum). ### [Post-Quantum](https://builtin.com/company/post-quantum). [View Profile](https://builtin.com/company/post-quantum). [Post-Quantum is Hiring | View All Jobs](https://builtin.com/company/post-quantum). The company plans to [commercialize its technology](https://thequantuminsider.com/2024/02/08/infleqtion-unveils-5-year-quantum-computing-roadmap-advancing-plans-to-commercialize-quantum-at-scale/) in the coming years, with the initial goal of creating error-corrected logical qubits and a [quantum computer](https://builtin.com/founders-entrepreneurship/quantum-computing-revolution). [Quantinuum](https://www.quantinuum.com/) is a quantum computing company that spun out of Honeywell.

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frontiersin.org research

Quantum computing: foundations, algorithms, and emerging applications

https://www.frontiersin.org/journals/quantum-science-and-technology/articles/…

* [1 Introduction](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#s1). * [3 Fundamentals of quantum computing](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#s3). * [4 Quantum algorithms](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#s4). * [7 Quantum computing in finance and machine learning](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#s7). * [10 Conclusion](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#s10). * [Author contributions](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#s11). * [Funding](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#h13). * [Conflict of interest](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#s13). (2025)](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#B27) provides a comprehensive review of quantum-computing models—including gate-based, adiabatic, and measurement-based approaches—analyzing their algorithmic implications and domain-specific applications ([Grigoryan et al., 2025](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#B27)). These hardware surveys are crucial for determining which algorithmic proposals are practical for near-term devices and which depend on long-term fault-tolerant architectures ([Peruzzo et al., 2014](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#B50)). Unlike classical probability, superposition enables interference—constructive and destructive—allowing quantum algorithms to amplify correct results ([Chae et al., 2024](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#B11)). A key historical milestone occurred in the early 2000s with the realization of the first five-qubit quantum processor ([Laflamme et al., 2001](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#B38)). IBM has published an explicit roadmap to progress toward fault-tolerant quantum computers, targeting hardware improvements and modular systems through 2033 ([IBM Quantum, 2025](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#B34)). Google maintains its Quantum AI roadmap, aiming to push hardware and algorithms forward toward practical quantum advantage applications ([IBM Quantum, 2025](https://www.frontiersin.org/journals/quantum-science-and-technology/articles/10.3389/frqst.2025.1723319/full#B34)).

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epb.com article

Top 9 Applications of Quantum Computing In 2026 | EPB

https://epb.com/get-connected/gig-internet/top-applications-of-quantum-comput…

The sheer computing power of quantum brings risks regarding brute-force attacks, and the ability to break current encryption methods used to protect data. From finding high-yield, low-risk investments to determining how best to maintain a supply route in the face of disruption, quantum computing can process larger amounts of data more readily and more quickly than classical computing. By improving on AI and ML processes already in use, and by developing new forms of artificial intelligence and machine learning, quantum computing will likely help decrease time to market (TTM) for autonomous vehicles, improve the accuracy of clinical trials for medications. With quantum computing’s advancements in modeling, AI and ML will allow analysts to consider more data points accurately when creating financial models for businesses, banks and the stock market. It is believed that quantum simulations and quantum AI will help solve the issues with classical computing’s comprehension of supply chain networks, although this will be dependent on the accuracy and availability of supply chain data.

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quantumai.google article

Quantum Applications

https://quantumai.google/applications

# Quantum Applications | Google Quantum AI. [Skip to main content](https://quantumai.google/applications#main-content). [![Image 1: Google Quantum AI](https://www.gstatic.com/devrel-devsite/prod/v2f052e0cca7362dede225b85c12aee59eabee5b8fbb05d44fc345ffb54861aec/quantum/images/lockup.svg)](https://quantumai.google/). * [What is quantum computing?](https://quantumai.google/discover/whatisqc). [Our Work](https://quantumai.google/quantumcomputer). * [Quantum Computer](https://quantumai.google/quantumcomputer). * [Research Publications](https://quantumai.google/research). [About](https://quantumai.google/team). * [Team](https://quantumai.google/team). [Careers](https://www.google.com/about/careers/applications/jobs/results/?company=Google&employment_type=FULL_TIME&employment_type=PART_TIME&location=California,%20USA&location=Munich,%20Germany&location=Seattle,%20WA,%20USA&location=Zurich,%20Switzerland&q=quantum&sort_by=relevance&src=Online%2FGoogle%20Website%2FQuantum_AI&utm_campaign=Quantum_AI&utm_medium=Google%20Website&utm_source=online)More. [![Image 2: Google Quantum AI](https://www.gstatic.com/devrel-devsite/prod/v2f052e0cca7362dede225b85c12aee59eabee5b8fbb05d44fc345ffb54861aec/quantum/images/lockup.svg)](https://quantumai.google/). * [Our Work](https://quantumai.google/quantumcomputer). * [About](https://quantumai.google/team). * [Careers](https://www.google.com/about/careers/applications/jobs/results/?company=Google&employment_type=FULL_TIME&employment_type=PART_TIME&location=California,%20USA&location=Munich,%20Germany&location=Seattle,%20WA,%20USA&location=Zurich,%20Switzerland&q=quantum&sort_by=relevance&src=Online%2FGoogle%20Website%2FQuantum_AI&utm_campaign=Quantum_AI&utm_medium=Google%20Website&utm_source=online). * [What is quantum computing?](https://quantumai.google/discover/whatisqc). * [Quantum Computer](https://quantumai.google/quantumcomputer). * [Research Publications](https://quantumai.google/research). * [Team](https://quantumai.google/team). * [Google Quantum AI](https://quantumai.google/). ![Image 3](https://quantumai.google/static/site-assets/images/marketing/quantum-application/hero-1.png)![Image 4](https://quantumai.google/static/site-assets/images/marketing/quantum-application/hero-1-mobile.png). Our goal is to identify realistic applications for quantum computers before developing a fault-tolerant quantum computer. ![Image 5](https://quantumai.google/static/site-assets/images/marketing/quantum-application/card-3.png)![Image 6](https://quantumai.google/static/site-assets/images/marketing/quantum-application/card-3-mobile.png). ![Image 7](https://quantumai.google/static/site-assets/images/marketing/quantum-application/card-2.jpeg)![Image 8](https://quantumai.google/static/site-assets/images/marketing/quantum-application/card-2-mobile.jpeg). ![Image 9](https://quantumai.google/static/site-assets/images/marketing/quantum-application/card-1.png)![Image 10](https://quantumai.google/static/site-assets/images/marketing/quantum-application/card-1-mobile.png). ![Image 11](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-1.png)![Image 12](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-1-mobile.png). ![Image 13](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-2.png)![Image 14](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-2-mobile.png). ![Image 15](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-3.png)![Image 16](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-3-mobile.png). ![Image 17](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-4.png)![Image 18](https://quantumai.google/static/site-assets/images/marketing/quantum-application/use-case-4-mobile.png). ![Image 19](https://quantumai.google/static/site-assets/images/marketing/quantum-application/blue-card.png). ![Image 20](https://quantumai.google/static/site-assets/images/marketing/quantum-application/orange-card.png). ![Image 21](https://quantumai.google/static/site-assets/images/marketing/quantum-application/blue-card.png). ![Image 22](https://quantumai.google/static/site-assets/images/marketing/quantum-application/orange-card.png). # XPRIZE Quantum Applications | Google Quantum AI. XPRIZE Quantum Applications | Google Quantum AI is a 3-year, $5M global competition designed to advance the field of quantum algorithms towards pro-society real-world applications, with funding from Google.org. ![Image 23](https://quantumai.google/static/site-assets/images/marketing/quantum-application/footer.png)![Image 24](https://quantumai.google/static/site-assets/images/marketing/quantum-application/footer-mobile.png). [![Image 25: Google Developers](https://www.gstatic.com/devrel-devsite/prod/v2f052e0cca7362dede225b85c12aee59eabee5b8fbb05d44fc345ffb54861aec/quantum/images/lockup-google-for-developers.svg)](https://developers.google.com/). * [Manage cookies](https://quantumai.google/applications#).

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techtarget.com article

Explore 7 future potential quantum computing uses

https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quan…

[Informa TechTarget](https://www.informatechtarget.com/)[Explore the Network](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). [Other Content](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [More](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). How it works and examples](https://www.techtarget.com/whatis/definition/quantum-computing). [Download this guide 1](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses). * [](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses?vgnextfmt=print). * [](mailto:?subject=Explore%207%20future%20potential%20quantum%20computing%20uses%20|%20TechTarget&body=https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses). * * [](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [](mailto:?subject=Explore%207%20future%20potential%20quantum%20computing%20uses%20|%20TechTarget&body=https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses). How it works and examples](https://www.techtarget.com/whatis/definition/quantum-computing). * [The state of quantum computing: What businesses need to know](https://www.techtarget.com/searchdatacenter/opinion/Whats-the-current-state-of-quantum-computing). Optimization can happen much faster and at scale when combined with quantum computing, especially when processing and analyzing highly complex or even unstructured [big data](https://www.techtarget.com/searchdatamanagement/definition/big-data) sets. With the [modeling capabilities of quantum computing](https://www.techtarget.com/searchcio/feature/The-promise-of-quantum-powered-AI), [financial organizations](https://www.techtarget.com/searchcio/tip/Quantum-computing-in-finance-Key-use-cases) could use the technology to better model the behavior of investments and securities at scale. Given the rapidly evolving nature of the cybersecurity landscape, quantum computers could [help keep­­ data encrypted](https://www.techtarget.com/searchcio/tip/How-quantum-cybersecurity-changes-the-way-you-protect-data) while in use, providing both in-transit and at-rest protection. Data center admins should watch the thought leaders in the space and note the risks and [opportunities of quantum computing](https://www.techtarget.com/searchcio/feature/Top-benefits-and-advantages-of-quantum-computing). * [IT Operations](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [Cloud Computing](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [Storage](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). * [Enterprise AI](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). [Cookie Preferences](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#). [Cookie Preferences](https://www.techtarget.com/searchdatacenter/tip/Explore-future-potential-quantum-computing-uses#).

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