From GenAI to Quantum Computing: Tech trends that will define 2025

From GenAI to Quantum Computing: Tech trends that will define 2025

As we approach 2025, the technology environment is poised for dramatic change, predicted to redefine many sectors and affect how people live and work. The following are the key trends to watch as we enter this new era of innovation:

Advancement of quantum computing.

Quantum computing is no longer a future idea; it is poised to become a game changer for sectors that rely on intricate problem-solving. By 2025, quantum computing capabilities will likely develop, with substantial implications for banking and healthcare.

Use case

Material simulation: Researching medicines and battery chemistry.

Banking and Finance: Pricing optimization and the identification of fraud

Automotive and Aerospace: The dilemma of the paint shop and fluid dynamics

Metaverse's Evolution

By 2025, the metaverse, a virtual realm where individuals may communicate, work, and play, will have evolved significantly. Companies like Meta (previously Facebook) and Epic Games are at the forefront of developing virtual environments where users can conduct business meetings, social interactions, and entertainment. Nike, for example, has already built a virtual store in the metaverse, where people can purchase and experience the brand digitally.

Usage

Virtual event management, Metaverse e-commerce, virtual education platforms, Metaverse games, social networking platforms, tourism experiences, NFT markets, and other offerings.

Agentic AI

Organizations have long wanted to promote high-performing teams, improve cross-functional collaboration, and coordinate issues across team networks. Agentic AI, a popular software program, helps CIOs achieve their vision for generative AI to boost productivity by performing tasks independently and providing insights from derivative events.

Use Cases:

Customer interactions are becoming automated by data analysis to make calculated judgments at every step.

Using plain language, workers may build and manage increasingly complex technological tasks.

AI Governance Platforms

AI governance platforms are rapidly being employed in businesses with stringent requirements to manage and oversee AI systems ethically and responsibly. By 2028, organizations that use AI governance systems are likely to outperform their competitors in terms of consumer trust ratings and regulatory compliance scores. These platforms help verify that AI systems make fair judgments, secure data, and follow rules, making them an essential tool for IT leaders in industries like banking.

Use Cases:

Assessing the possible risks and problems that AI systems may cause, such as prejudice, privacy infringement, and negative social consequences.

Guiding AI models through the model governance process, ensuring that all required gates and controls are followed throughout the model's life cycle.

Hybrid Computing

Hybrid computing is a system that employs different technologies to address complicated computational issues, allowing organizations to expand rapidly, save money, and remain flexible. This method enables enterprises to operate core programs on local servers for security and control, using the cloud for high-performance activities such as data analytics and artificial intelligence. It also enables firms to use emerging technologies such as biocomputing and quantum systems for disruptive impact.

Use Cases:

Cost-effective scalability: Critical workloads should be kept in-house for security reasons, with the cloud handling peak demands during busy seasons.

Optimizing Data Security and Compliance: Maintaining critical data on-premises, adhering to tight data protection standards, and leveraging the cloud for less sensitive activities or analytics.

Promoting innovation and development: Using cloud-based development tools while preserving safe on-premises settings for production.

Conclusion

The technological developments that will shape 2025 provide many opportunities for innovation and expansion in various sectors. Adopting these trends can help businesses stay competitive while fostering a safer, sustainable, and interconnected future.

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Physical Qubits, Logical Qubits From Azure Quantum Computing

Physical qubits

Physical and logical qubits news

At Microsoft, they’re advancing a new computing paradigm by fusing quantum computing with the power of artificial intelligence and the cloud. Microsoft Azure Quantum computation platform offers integration with cloud HPC and AI, allowing the smooth execution of quantum applications that take use of hardware across a range of qubits architectures and processors.

Atom Computing

In an effort to fulfill the platform’s objective, they haven’t stopped announcing new developments and partnerships over the last year. Examples of these include providing Accelerated DFT and Generative Chemistry, as well as pushing the field toward dependable quantum computing by showcasing very dependable logical qubits. With a secure, unified, and scalable hybrid computing environment provided by this solid compute foundation, innovators may create best-in-class solutions to solve challenges that are challenging or even unsolvable for traditional computers.

They are combining Azure quantum control, processing, and error correction software with quantum hardware designs from ecosystem partners, along with features for multi-modal AI models, developer tools, copilot-assisted workflows, and classical supercomputing. This next generation of hybrid apps will be made possible by this diversified computing stack. Using both classical and scaled quantum tools at the appropriate phases to create significant insights in an iterative loop to shorten R&D and time-to-solution into days, not years, AI co-reasoning will help clarify challenges and convert them into processes.

Quantinuum Quantum Computer

Maintaining Quantinuum’s implementation of dependable quantum computing

Atom computing are pleased to announce today, in partnership with Quantinuum, the demonstration of the highest number of entangled logical qubits, as well as the best performing logical qubits ever recorded. By refining and streamlining Azure’s physical qubits -virtualization method, they were able to produce 12 logical qubits for Quantinuum’s 56 physical qubits H2 machine.

This development demonstrates Microsoft’s superior error correcting capabilities. Their enhanced qubit-virtualization technology increased countability of logical qubits in less than six months. Furthermore, all 12 logical qubits showed a 22X improvement in circuit error rate over the equivalent physical qubits when they entangled them in a complex state needed for “deeper” quantum processing.

Quantinuum Microsoft

Azure systems’ capacity to more than double their physical qubits count from 30 to 56 while tripling the amount of logical qubits is evidence of the strong fidelities and all-to-all connectivity of their H-Series trapped-ion technology. Microsoft’s qubit-virtualization solution along with it’s existing H2-1 hardware is enabling us to completely transition both the clients and ourselves into Level 2 robust quantum computing. When paired with Azure Quantum’s cutting-edge AI and HPC technologies, this strong partnership will enable even further improvements.

Noise continues to be Microsoft greatest obstacle as to work toward using quantum computers to achieve scientific and commercial advances. They pointed out in an earlier piece that robust quantum error correction cannot be achieved only by adding more physical qubits. As members of the quantum ecosystem, Atom computing need to keep their attention on logical qubit counts and fidelity improvements in order to have a strong basis for delivering significant outcomes.

Improvements in both hardware and software will make this feasible, allowing longer-running and more dependable quantum applications. The news made today shows that achieving these foundational skills is feasible in the direction of large-scale quantum computing.

A real paradigm shift in computing also requires an emphasis on useful and profitable applications. In the first end-to-end workflow, they had effectively finished a chemical simulation in which is to used logical qubit computing, AI, and HPC to estimate the ground state energy for a particular catalyst issue.

Microsoft Quantinuum

With the scalability of quantum technologies, a new generation of hybrid applications will gain more influence, and this demonstration was a crucial first step in that direction. Scientists at Microsoft have shown how this combination has the potential to be revolutionary, and quantum and AI will have the first real influence on scientific discoveries. Only because of Azure’s strong and ongoing partnership with Quantinuum a business that is still at the forefront of quantum computing was this work made feasible.

Latest advancements in logical qubits and the technical specifications of an end-to-end chemical simulation created by Microsoft and Quantinuum. Together, they have created 12 logical qubits.

Atom Computing Quantum

Introducing Atom Computing’s next business venture

Finally, Microsoft Azure are thrilled to be working with Atom Computing to provide consumers a new breed of dependable quantum hardware. They are refining the system to allow dependable quantum processing by combining Atom Computing’s neutral-atom hardware with Microsoft’s improved qubit-virtualization architecture. Together, they have developed logical qubits. All things considered, they think that this new commercial product will be the most powerful quantum machine ever made, capable of scaling to the limits of science and beyond.

Large numbers of high-fidelity qubits, all-to-all qubit connection, lengthy coherence durations, and mid-circuit measurements with qubit reset and reuse are just a few of the qualities that Atom Computing’s hardware uniquely combines and which are crucial for extending quantum error correction. With approximately 1,200 physical qubits in its second generation devices, the business aims to tenfold the number of physical qubits with every successive hardware generation.

Microsoft Azure Quantum computation platform can provide the clients with flexibility and future-proof their investments by offering a range of best-in-class logical qubits across several hardware platforms, all thanks to the use of Microsoft’s cutting-edge fault-tolerance protocols on alternative qubit architectures.

Together, Microsoft and Atom Computing are improving the Azure Quantum computation platform with neutral-atom hardware and customized qubit virtualization. This allows for the creation of a commercial discovery suite that can be upgraded continuously to accommodate more logical qubits.

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Contents Boba Network (BOBA) announces complete rewrite of UI/UX and brand identity HybridCompute to supercharge new generation of Boba Network's (BOBA) use cases Boba Network (BOBA), the first-ever second-layer network that scales numerous EVM-compatible blockchains simultaneously, entered a phase of impressive rebranding and UI/UX reorganization. It is also aimed at bringing L2 blockchains to various use cases previously unexplored by Web3 protocols. Boba Network (BOBA) announces complete rewrite of UI/UX and brand identity Boba Network (BOBA), a multi-blockchain scaling solution, announces that it will completely revamp the UX/UI of its Gateway and Bridge products as well as the design of main website and other elements of its brand identity. The rebranding is set to symbolize the platform's commitment to enhancing Web3 progress globally. Bobarians, Ready for a sleeker, more powerful Boba Network? 🔥 It’s time to reveal a fresh brand identity & revamped UI/UX for the Boba Gateway & Bridge. Dive in and witness the evolution for yourself! 🧋 🌐 https://t.co/dFLS4sofUy ⛩️ pic.twitter.com/2qpzgpjYmr — Boba Network 🧋 (@bobanetwork) August 22, 2023 After the upgrade, Boba Network's (BOBA) enhanced bridge mechanism guarantees fluid, secure and prompt interactions with all of its L1 partners. As covered by U.Today previously, in Q4, 2022, Boba Network (BOBA) became the first second-layer platform to launch on the top of Moonbeam (GLMR) and BNB Chain (BSC). Also, Boba Network (BOBA) is going to release some user-friendly iterations of its new identity kit to its main website and social media channels. Curtis Schlaufman, global head of marketing at Enya Labs and core contributor to the Boba Network, is excited about the role of the last rebranding in Boba Network's (BOBA) marketing and development roadmaps: Boba Network's renewed visual identity goes beyond mere aesthetics; it is a reflection of Boba’s evolving commitment to both Web3 and the integration of traditional enterprise functionalities. Through the capabilities of HybridCompute™, Boba Network is not just adapting to an enterprise-centric approach but leveraging its power to redefine the boundaries of Web3. (...) This rejuvenation is a testament to Boba Network's unwavering dedication to innovation and setting the pace for the future of Web3. In 2023, Boba Network (BOBA) witnessed an unmatched growth in all of its metrics. For instance, in Q1 only, the number of transactions on it soared by over 10,000%. HybridCompute to supercharge new generation of Boba Network's (BOBA) use cases In the coming months, Boba Network (BOBA) is planning to leverage its HybridCompute technology in various real-world use cases. For instance, it will empower smart contracts to seamlessly synchronize with enterprise-level data systems, from CRMs and ERPs to intricate workflows, thereby bridging the gap between classical enterprise functionalities and Web3's vast potential. With the rebranding, Boba Network (BOBA) is going to establish itself as a beacon for developers, lighting the path for the upcoming era of Web3 engineering. It should also be noted that in recent weeks, Boba Network (BOBA) renewed all-time highs across all of its activity indicators thanks to partnerships with mainstream blockchain projects. Source

RT IBMTraining "RT David_Leaser: All signs point to this being the next big thing in the tech industry. #hybridcomputing #cloud #ibmtraining https://t.co/lzNnlF8IBf"

RT IBMTraining "RT David_Leaser: All signs point to this being the next big thing in the tech industry. #hybridcomputing #cloud #ibmtraining https://t.co/lzNnlF8IBf"

— Ross Radev (@Ross_Radev) January 31, 2019

from Twitter https://twitter.com/Ross_Radev

Quantum HPC Ushers in a New Era of Quantum Computing

Quantum HPC is a new discipline that combines quantum computing with high-performance computing (HPC).

Breakdown of the idea:

HPC systems use parallel processing to solve complicated problems that single computers cannot. Scientific models, medicine research, and weather forecasting use them extensively.

Quantum Computing: Quantum computers compute using quantum mechanics. Traditional computers utilise bits (0 or 1), but quantum computers employ qubits, which can be superposed. This makes them faster than classical computers at solving specific tasks.

HPC Quantum Computing

While powerful, older HPC systems have task constraints. But quantum computers excel at tackling problems that traditional computers find exponentially complex. This gap is addressed by quantum HPC:

Quantum Circuit Optimisation: HPC systems can build and optimise quantum circuits for quantum computers, enhancing efficiency and accuracy.

Verifying outcomes: HPC can verify small-scale quantum computation outcomes. Researchers are developing hybrid algorithms that use classical and quantum computers to solve complicated issues.

Quantum HPC benefits:

This connection could revolutionise fields like:

Materials Science: Simulating complicated materials for medicine, battery, and catalyst development.

Financial modelling: Portfolio optimisation and risk management.

Cryptography: Breaking encryption and creating post-quantum cryptography.

Current Status:

Quantum HPC is young. Maintaining quantum coherence and scaling quantum computers are continuing scientific issues. Japanese organisations like RIKEN Centre for Computational Science are creating quantum-HPC hybrid platforms.

Future Outlook:

Quantum HPC could boost scientific discoveries and technological innovation. We may expect to see more progress in merging classical and quantum computing to solve the world’s hardest issues.

IBM Quantum system has been chosen by RIKEN to be built into the supercomputer Fugaku.

RIKEN is a Japanese national research centre that has agreed to use IBM’s best-performing quantum processor and next-generation quantum computer architecture at the RIKEN Centre for Computational Science in Kobe, Japan. This is the one and only occasion that the supercomputer Fugaku and a quantum computer will be together.

A division of the Japanese Ministry of Economy, Trade, and Industry (METI), NEDO backs the “Development of Integrated Utilisation Technology for Quantum and Supercomputers” as a component of the “Project for Research and Development of Enhanced Infrastructures for Post-5G Information and Communications Systems.”” This agreement was signed as part of RIKEN’s ongoing project.

IBM Quantum System 2

IBM’s Quantum System Two design is only used by RIKEN for the purposes of putting its project into action. RIKEN, SoftBank Corp., the University of Tokyo, and Osaka University are working together on a project to show how useful these kinds of hybrid computing platforms will be for providing services in the future after 5G. The goal is to improve business and science in Japan.

In addition to the project, IBM will work on building the software stack needed to create and run integrated quantum-classical workflows in a quantum-HPC hybrid system with different types of computers. With these new features, algorithm quality and processing times will be able to be made better.

IBM plans to introduce its next-generation quantum computing architecture with IBM Quantum System Two, which will be installed at RIKEN and connected to Fugaku. This system will include expandable cryogenic infrastructure, modular quantum control electronics, and advanced system software to provide quantum computing services that work with traditional HPC services. These are the core parts of IBM’s vision for quantum-centric supercomputing.

Quantum Centric Supercomputing

Quantum-centric supercomputing is made possible by combining quantum and classical computing tools and using them to run computations faster than ever before. IBM thinks that quantum computing will be an important part of the design of quantum-centric supercomputing, which is the future of traditional HPC. And IBM Quantum System Two is one of the most important parts of this design.

A 133-qubit “IBM Quantum Heron” processor will run the system. The IBM Heron is the first in a new line of quantum processors. Its design brings the best performance of any IBM quantum processor released so far. Experiments done on IBM Heron had the lowest error rates of any IBM Quantum processor. This was five times better than the previous best records set by IBM Eagle, which can now be accessed through the cloud.

As the number of qubits grows and the accuracy gets better, NISQ’s advanced quantum computers are now ready to be used in real life. In the eyes of the HPC, quantum computers are machines that speed up science programmes that are usually run on supercomputers and make it possible to do calculations that supercomputers can’t do yet.

The head of the Quantum HPC Collaborative Platform Division at the RIKEN Centre for Computational Science, Dr. Mitsuhisa Sato, said, “RIKEN is committed to developing system software for quantum-HPC hybrid computing by leveraging its extensive scientific research capabilities and experience in the development and operation of cutting-edge supercomputers such as Fugaku.”

“IBM’s agreement with RIKEN is a huge step towards a future dominated by quantum-centric supercomputing,” said Jay Gambetta, IBM Fellow and Vice President, IBM Quantum. “It is the first quantum system that will directly connect with the Fugaku classical supercomputer.” “This work moves the field closer to a modular and adaptable structure that combines quantum computing and communication with traditional computing resources. This way, both can be used together to solve problems that get harder to solve.”

IBM has advanced significantly in artificial intelligence, quantum computing, cloud solutions tailored to specific industries, and consulting. These innovations give our customers a lot of open and flexible choices. IBM has a long history of committing to trust, openness, responsibility, inclusion, and service.

Regarding RIKEN

The largest research institute in Japan for both basic and applied study is RIKEN. The top scientific and technology journals publish around 2500 articles authored by RIKEN researchers annually. The subjects covered in these papers are many and include biology, chemistry, physics, engineering, and medical research. RIKEN is renowned for its outstanding research all over the world because of its focus on globalisation and multidisciplinary cooperation.

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