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Explore the concept of Adiabatic Quantum Computing (AQC), its principles, applications, and challenges. Understand the adiabatic theorem, problem Hamiltonian, quantum annealing, and the potential of AQC in solving complex problems across various domains.

Ilana Wisby announced in a LinkedIn post that she left Oxford Quantum Circuit. Wisby has served as the company’s chief executive since the company spun out of Oxford University. She was also an important advocate for accessibility and inclusivity in the quantum industry.

The Qiskit Transpiler Service beta release is now available on the IBM Quantum Premium Plan, providing users with AI and IBM cloud resources to speed up transpilation tasks.

Biologists are exploring the complex process of protein folding to understand how proteins quickly and elegantly fold into shapes that enable them to perform unique tasks, which is crucial for cell functionality and disease prevention.

Toshiba's Long-Distance QKD System LD provides ultimate QKD performance over long distances, ensuring quantum-safe cryptography across fibre networks. It uses Toshiba's unique, patented technology to deliver high secure key rates over distances of 150 km or more.

Quantum Circuits Inc. raised a $26.5 million extended Series B from major venture capital groups, including Sequoia Capital Partners. The funds will likely be used to expand the team and provide additional space in New Haven, as the company transitions from building quantum computers to finding customers.

Toshiba Asia Pacific and SpeQtral are set to present their latest quantum key distribution (QKD) products and services at Asia Tech Singapore (ATxSG) 2024. This strategic partnership aims to equip Singapore enterprises with quantum-safe data communications, fortifying their digital infrastructure against emerging cybersecurity threats.

Photonic demonstrated entanglement between modules, which the team says is a significant milestone on the path to commercially relevant quantum systems. Photonic’s architecture provides a solution to scalable entanglement distribution, a primary challenge to scalable quantum computing.

This article discusses how quantum technology and quantum computing can help reduce the carbon footprint of AI and other data centers and computers.

The initial excitement surrounding generative AI (gen AI) has waned. Although many organizations have successfully developed impressive gen AI pilots, the true challenge lies in transforming these pilots into fully scaled capabilities that deliver significant business value. Achieving this shift from pilot to scale is crucial for unlocking the full potential of gen AI. Here are seven essential strategies for CIOs aiming to scale gen AI effectively.

IBM aims to construct a 100,000-qubit quantum computer within the next decade, marking a significant leap from their current 433-qubit system. This ambitious project will involve partnerships with the University of Tokyo and the University of Chicago.

Illinois, under Gov. Pritzker's leadership, is positioning itself as the quantum capital of the world with significant investments in quantum technology. This initiative aims to address complex problems through quantum computing.

Dive into the collaborative efforts of IBM's Quantum Working Groups as they aim to bring quantum computing closer to real-world applications. These groups focus on healthcare, materials science, high-energy physics, optimization, and sustainability, seeking to leverage quantum algorithms for tangible benefits.

Explore the groundbreaking Prov-GigaPath, a whole-slide pathology foundation model revolutionizing digital pathology with state-of-the-art performance. Trained on over a billion image tiles, this model is set to transform cancer diagnostics and more.

Delve into the pivotal collaboration between Deloitte and the World Economic Forum (WEF) on quantum computing's global stage. Scott Buchholz, Deloitte's global quantum computing lead, discusses their advisory role, exploring quantum's potential in solving complex business and societal problems while gearing up for the impending quantum leap.

Explore the groundbreaking release of the first publicly available cat-qubit chip by Alice & Bob, now accessible via Google Cloud Marketplace. This chip, part of the 'Boson' series, represents a significant leap forward in fault-tolerant quantum computing, promising a robust platform for quantum experiments and applications.

Colorado and Illinois are fiercely competing to secure a significant portion of federal funds under the Chips Act to become the leading quantum computing hubs in the United States. Both states have ambitious plans to foster innovation, attract quantum companies, and build a skilled workforce in the burgeoning field of quantum computing.

Dive deep into the intricate layers of the quantum computing software stack, from high-level programming languages to quantum error correction software. Explore how these technological stacks translate complex quantum algorithms into tangible tasks that can be executed on real quantum hardware, elucidating the path from quantum science to practical applications.

D-Wave and Zapata AI have joined forces in a strategic partnership to harness the capabilities of quantum computing and generative AI. This collaboration aims to develop commercial applications for quantum-enabled machine learning, focusing on accelerating discoveries and solving complex optimization problems in various industries.

Leap by D-Wave offers a real-time quantum cloud service, providing businesses immediate access to state-of-the-art quantum computing resources. This platform includes a comprehensive suite of tools and services designed to facilitate the easy integration of quantum computing into business operations without requiring deep expertise in quantum physics.

Explore how Federated Learning (FL) is revolutionizing network security by enabling collaborative model training without compromising data privacy. This innovative approach allows multiple entities to benefit from shared intelligence while safeguarding sensitive information, transforming cybersecurity measures across industries.

Intel has made significant advancements toward developing practical quantum computing by perfecting the scalability of silicon spin-based quantum processors. This progress could pave the way for fault-tolerant quantum computers, which are essential for real-world applications.

NVIDIA announces a major expansion in quantum computing capabilities globally by deploying its CUDA-Q platform in supercomputing centers across Germany, Japan, and Poland. This strategic move integrates quantum processors with classical supercomputing to advance research in AI, energy, and biology.

In a significant move to safeguard national security, the U.S. Commerce Department has imposed strict export controls on QuantumCTek, a leading Chinese quantum communication technology company, amid concerns over potential military misuse of advanced technologies.

UK pioneers un-jammable quantum navigation technology with a successful commercial flight test, marking a major step forward in enhancing national and global transport system resilience against GPS jamming and spoofing threats.

D-Wave and USC reaffirm their commitment to advancing quantum computing technology by renewing their partnership to house the Advantage system, accelerating research and practical applications in AI, logistics, and more.

Amidst rising concerns over GPS vulnerabilities, UK scientists are pioneering a quantum-based navigation system immune to jamming efforts, notably from Russia. This groundbreaking initiative aims to enhance navigational accuracy and security for critical applications in aviation and beyond.

At the Choose France summit, IQM Quantum Computers unveiled plans for a new fabrication facility in France, signaling a significant advancement in Europe's quantum computing capabilities. This strategic move, celebrated by government officials, positions France as a pivotal player in the global quantum landscape, promising to enhance the industrial and technological fabric of the region.

The Coding School, in partnership with SandboxAQ, launches a quantum education bootcamp aimed at empowering students from Minority Serving Institutions with quantum computing skills and career exploration opportunities. This initiative seeks to diversify the quantum workforce and provide equitable access to cutting-edge technology.

State governments are exploring quantum technology as a new frontier for economic growth, driven by its potential impacts on jobs, economy, and society. With quantum computing poised to revolutionize industries from cybersecurity to medicine, states like Colorado and Illinois are pioneering efforts to harness this advanced technology for regional development.

Researchers at MIT CSAIL and Project CETI have discovered a sperm whale 'alphabet' using machine learning technologies. The study, titled 'Contextual and Combinatorial Structure in Sperm Whale Vocalizations,' points to key breakthroughs in understanding cetacean communication by analyzing sperm whale codas in context.

The U.S. Department of Energy (DOE) has awarded $7 million to five quantum companies to advance practical quantum computers and develop commercial quantum-powered bioimaging. These awards, part of the Phase II Small Business Innovation Research (SBIR) and Small Business Technology Transfer (STTR) programs, highlight the government's commitment to fostering innovation in the quantum computing field.

The Quantum Computing lab of the Advanced Institute of Nano Technology at Sungkyunkwan University (SKKU) in Seoul will deploy three of Quantum Machines advanced OPX1000 controllers. This represents a significant upgrade to the centers on-site research facilities, furthering South Korea's ambitious national project aimed at advancing the countrys quantum computing capabilities.

Exploring the evolution and future of supercomputing, this article discusses the historical milestones and technological advancements that have shaped the field. It delves into the challenges of increasing data volume and energy consumption, highlighting how quantum computing could revolutionize the landscape by addressing these issues.

Scientists have developed an ultra-pure form of silicon, paving the way for high-performance qubit devices and scalable quantum computers. This breakthrough by researchers at The University of Manchester and the University of Melbourne involves engineering silicon to remove silicon 29 and 30 isotopes, significantly enhancing its suitability for quantum computing.

Toshiba Quantum Key Distribution (QKD) offers a quantum-safe solution for the public sector, ensuring the protection of sensitive national data against quantum computing attacks. Using principles of quantum physics, QKD generates keys that result in impenetrable data encryption, making it a crucial technology for maintaining data sovereignty in an era of rapidly advancing quantum computing capabilities.

Swiss startup Terra Quantum has unveiled its TQ42 Cryptography library, an open-source suite of quantum-resistant algorithms designed to help developers and businesses protect data from current and future cybersecurity threats. The library, now available on GitHub, provides post-quantum algorithms and security and key management functions for various applications.

IBM, America's most prolific patent holder in 2023, is seeing a growing number of its patents in the field of quantum information science. These patents cover various aspects of quantum computing, from chip assembly to synchronizing physical and virtual environments using quantum entanglement. Additionally, IBM's quantum technology is inspiring and enabling other firms and individuals to create their own quantum-related inventions.

Innovate UK has announced a new funding initiative, offering up to 33 million to support collaborative research and innovation projects between UK entities and organizations within the European Union. The initiative aims to accelerate the development and commercialization of quantum technologies, addressing both technological and market barriers.

In a significant development for the quantum computing industry, PsiQuantum and QuEra have been awarded substantial funding from the Australian and Japanese governments, respectively. This influx of government money into private quantum firms highlights the growing importance of quantum technology and the need for long-term, coordinated investments to achieve practical quantum advantage.

Recent cyberattacks on U.S. utilities by nation-state actors from Russia, Iran, and China expose a disturbing shift in cyber warfare tactics. These attacks, which employ false flags, political statements, and shows of force, primarily focus on reconnaissance and generating panic among public officials, rather than criminal profiteering.

Lucid Bots, a robotics company that started with window-cleaning drones, has raised $9.1M in Series A funding to advance its portfolio of autonomous robots, scale operations, and expand into new markets. The company aims to build intelligent, purpose-made robots to tackle the 'dirty' jobs that people don't want to do.

As the quantum revolution looms on the horizon, the United States must act swiftly to secure its position at the forefront of this transformative technology. Congress should pass the National Quantum Initiative Reauthorization Act to support research, secure supply chains, and promote the commercialization of quantum applications.

In the wake of the devastating Francis Scott Key Bridge collapse, Baltimore faces severe traffic congestion. Experts suggest that quantum computing could help optimize traffic flow and ease the burden on commuters and businesses, with both the government and private sector exploring this cutting-edge technology.

Discover how quantum computing is revolutionizing logistics management, enabling companies to tackle complex optimization problems, cut operating costs, and enhance efficiency in today's competitive global marketplace. D-Wave's e-book explores real-world success stories and the unique advantages of quantum computing in supply chain optimization.

IBM is releasing a family of Granite code models to the open-source community, aiming to make coding easier and more accessible for developers worldwide. The models, ranging from 3 to 34 billion parameters, are optimized for enterprise software development workflows and consistently match state-of-the-art performance among open-source code LLMs.

A recent study by Michela Ricciardi Celsi and Lorenzo Ricciardi Celsi highlights seven key areas where quantum computing could play a pivotal role in developing solutions to mitigate the damaging effects of climate change. From improving renewable energy forecasting to advancing carbon capture technologies, quantum computers offer a powerful tool to tackle computationally challenging problems in the fight against climate change.

Google Deepmind has unveiled AlphaFold 3, a groundbreaking update to its protein structure prediction model, along with AlphaFold Server, a free web app for non-commercial use. The new version offers improved accuracy and the ability to model interactions between proteins and other biomolecules, making it a powerful tool for researchers in various fields of biology.

In a groundbreaking move, PsiQuantum has released the Quantum Resource Estimation Format (QREF) and the beta version of Bartiq, a powerful Quantum Resource Estimator for Fault Tolerant Quantum Computing (FTQC). These open-source tools are set to transform the quantum computing landscape by providing developers with a standardized format for representing FTQC algorithms and a comprehensive guide for estimating resource requirements. The introduction of QREF and Bartiq addresses a critical gap in the industry, known as the '100-page paper problem,' where developers often struggle to find a balance between writing exhaustive research papers and risking misinterpretation due to lack of explicit details. By offering these open-source solutions, PsiQuantum aims to foster a more collaborative and efficient environment for quantum computing research and development. The potential impact of QREF and Bartiq cannot be overstated. With these tools, developers can streamline their work, focusing on innovation rather than getting bogged down in the complexities of resource estimation. Moreover, the open-source nature of these tools encourages a culture of transparency and reproducibility, enabling researchers to build upon each other's work and accelerate the pace of progress. As the quantum computing industry continues to evolve, initiatives like PsiQuantum's QCOps framework will play a crucial role in guiding the development of practical quantum applications. By taking a holistic approach that encompasses design, development, and operations, QCOps has the potential to become the quantum equivalent of the widely adopted MLOps framework in the machine learning domain. In conclusion, PsiQuantum's release of QREF and Bartiq represents a significant milestone in the journey towards fault-tolerant quantum computing. As more researchers and developers embrace these open-source tools, we can expect to see a surge in innovation, collaboration, and ultimately, the realization of quantum computing's vast potential to tackle some of the world's most complex challenges.

Illinois Governor J.B. Pritzker is championing a $20 billion initiative to create a 150-acre quantum computing campus in Chicago, in partnership with PsiQuantum. This project aims to establish Illinois as a quantum computing hub, potentially revolutionizing sectors from healthcare to climate science.

The Quantum Economic Development Consortium (QED-C) hosted its inaugural Quantum Technology Showcase on Capitol Hill, featuring 22 member companies demonstrating their latest quantum technologies. This event was aimed at enhancing U.S. competitiveness and was supported by the U.S. Senate Committee on Commerce, Science, and Transportation.

Performance Food Group (PFG) partnered with Advanced Energy Machines, FreeWire, GridMarket, and Volvo Trucks North America for a special Earth Day event at its Gilroy, CA facility. The event showcased collaborative efforts to create a sustainable distribution center model.

A planned Nvidia-powered supercomputer in Japan will be getting a quantum computer as a roommate. The supercomputer, dubbed ABCI-Q, will be constructed by Fujitsu for Japans National Institute of Advanced Industrial Science and Technology (AIST). It will be powered by more than 2,000 Nvidia H100 Tensor Core GPUs in over 500 nodes interconnected by Nvidias Quantum-2 InfiniBand technology.

Explore the latest developments in quantum technology with the third annual Quantum Technology Monitor from McKinsey. Discover how sectors like chemicals, life sciences, finance, and mobility are poised to benefit from advances in quantum computing, potentially unlocking $2 trillion in value by 2035.

This article explores the promising application of quantum computers in drug design, highlighting the potential for significant advancements in quantum chemical calculations critical for computational drug discovery.

Extropic is building a full-stack hardware platform to harness matter's natural fluctuations as a computational resource for Generative AI. This innovative approach aims to extend hardware scaling beyond digital computing limits, enabling much faster and energy-efficient AI accelerators.

The UK's space economy is experiencing accelerated growth due to increasing government support for emerging technologies, including quantum computing. This growth is evidenced by ventures like Space Forge, which develops novel manufacturing processes in space, and Eutelsat Group, a leading satellite operator.

QED-Cs Use Cases Technical Advisory Committee presents a study exploring the application of quantum computing in transportation and logistics. The study highlights potential enhancements in supply chain optimization, route planning, and overall efficiency gains across the transportation sectors.

ICOSA and NEC have developed Vector Annealing (VA), a quantum-inspired computing method that significantly accelerates solution finding in financial portfolio optimization, leveraging Markowitzs Modern Portfolio Theory for enhanced performance over traditional methods.

A research team supported by Oak Ridge National Laboratory (ORNL) has utilized Quantinuums H1-1 quantum computer to simulate complex quantum states, potentially surpassing classical computing capabilities with 70 qubits. This advancement marks a significant step in quantum computing, targeting practical applications in modeling complex systems.

Investors buoy established quantum start-ups as technological progress continues, though at a slower pace, and more academic institutions offer quantum programs. This analysis highlights the industrys evolution and the narrowing talent gap.

This article outlines five critical lessons learned from AI talent strategies that can be applied to address the quantum technology talent gap. It highlights the need for clear talent definitions, investment in translators, creation of diverse pathways, building technology literacy, and developing talent strategies to ensure a robust quantum workforce.

This report provides a comprehensive overview of the rapidly evolving quantum computing ecosystem, highlighting emerging business use cases and the potential significant value for industries prepared to embrace this technology.

Discover how a prototype 'thermodynamic computer' uses the inherent random noise of the physical world to perform calculations, challenging the traditional computing paradigm and potentially revolutionizing efficiency in artificial intelligence applications.

The UK government is set to enhance scrutiny on the export of cryogenic equipment essential for quantum computing, aiming to prevent potential military misuse and safeguard against economic vulnerabilities. This move could significantly impact cryogenics firms, central to quantum technology development.

IBM announces a significant acquisition of HashiCorp, Inc. for $6.4 billion, enhancing its hybrid cloud platform capabilities and solidifying its position in the multi-cloud market. This move is set to create synergies across IBM's strategic growth areas including Red Hat, Watsonx, and data security.

The European Commission is set to infuse 112 million into research and innovation across artificial intelligence (AI) and quantum technologies. This funding, part of the Horizon Europes 2023-2024 work programme, aims to advance Europe's competitiveness in these critical high-tech areas.

Unlock the true potential of your sales team with TigerEye. Discover why TigerEye isn't just about meeting sales quotas it's about building a consistent, high-performing team that drives sustainable growth.

Togal.ai is transforming the construction industry by automating the estimation process with advanced AI, reducing time and enhancing accuracy. This case study explores how Togal leverages machine learning to streamline construction workflows, making them more efficient and less error-prone.

Quantum Cyber Solutions is leading the transformation of the construction industry by integrating AI-driven technologies. This article delves into how technologies such as AI, 3D printing, drones, and BIM are revolutionizing construction processes, improving precision, efficiency, and sustainability.

Explore the pioneering stages of quantum computing with insights into its potential to revolutionize technology, from cracking online encryption to modeling new molecules. This Financial Times article provides an overview of current developments and early applications of quantum computing technology in various sectors.

Dive into this McKinsey & Company analysis as it unravels the transformative journey of the construction technology sector. This insightful article not only explores the industrys expedited digital transformation, fueled by infrastructure demands, a dwindling labor pool, and calls for enhanced data transparency, but also illustrates how historical sluggishness in technology adoption is being rapidly overturned by a wave of strategic investments and technological breakthroughs.

The Energy Department Quantum and Space Collaboration project aims to harness cutting-edge quantum technologies for pivotal advancements in space. This initiative includes a focus on quantum computing, quantum sensing for imaging, position navigation and timing, and quantum secure communications. The project aims to leverage the unique properties of quantum technologies in the low-gravity environment of space to enhance communications, sensing, and computational capabilities.

Discover how machine learning is pivotal in overcoming the 'reality gap' in quantum devices, enhancing predictions and performance by addressing inherent variability through a physics-informed approach.

Government continues to be a catalyst, not just through R&D, but in using emerging tech to operate complex systems. Deloitte highlights the impact of quantum and quantum-hybrid solutions in solving current problems, promising significant advancements in public sector applications.

Exploring the unprecedented capabilities of quantum neural networks, this article delves into how quantum computing could revolutionize machine learning, offering advantages over classical approaches through increased model capacity and trainability.

IBM researchers have demonstrated a quantum advantage in machine learning, revealing that quantum kernels can identify patterns in data sets that appear as random noise to classical computers, offering a new pathway for quantum machine learning.

Explore the revolutionary impact of a large-scale optical tweezer array on quantum computing, simulation, and metrology, featuring over 6,100 atomic qubits for unprecedented precision and scalability.

Delve into the transformative impact of Extropic's full-stack hardware platform on industries by leveraging natural matter fluctuations for Generative AI, promising vast improvements in speed and energy efficiency.

Quantum Artificial Intelligence (QAI) stands at the brink of revolutionizing Artificial Intelligence (AI) by leveraging quantum mechanics to surpass the capabilities of classical AI systems. This emerging field promises a leap towards artificial general intelligence (AGI), with potential applications ranging from healthcare innovations to solving climate change. However, the path to realizing QAI's full potential involves overcoming significant technical challenges and ethical considerations.

Explore the revolutionary potential of quantum computing in the construction sector, from enhancing surveying accuracy to accelerating project completion.

Discover how quantum computing is transforming the construction industry by enabling rapid work, optimizing processes, and improving quality.

By Alex Dequevedo Senior DevOps Engineer I, Maksood Mohiuddin Senior Cloud Engineer II, Thomas Neff Senior DevOps Engineer I, and Marco Marulli Principal Lead II Creating a modern, three-tier application that is for all levels of developers emphasize the architecture's dual ability to offer immense power while remaining easily scalable within a free-tier framework. The focus is on building a scalable architecture that optimizes deployment times and minimizes costs and complexity, making it an invaluable resource for developers seeking efficient cloud solutions.

A groundbreaking study by Los Alamos National Laboratory reveals that quantum entanglement significantly enhances the scalability of quantum machine learning, overcoming the previous assumption of needing exponentially large datasets for training quantum neural networks.

Unlocking the Quantum Internet: A Leap Forward by Stony Brook University is a captivating blog post discussing a recent breakthrough by Stony Brook University's research team in quantum computing. This post delves into the team's significant advancement towards a functioning quantum internet. By demonstrating a foundational quantum network measurement using room-temperature quantum memories, the team has paved the way for more secure, efficient communication networks and powerful scientific algorithms. This milestone is a critical step in realizing the dream of a quantum internet, showcasing the potential to revolutionize our approach to data transmission and processing.

Extropic is Accelerating the world of physics-based computing with their innovative approach that leverages natural entropy. This approach allows computers to learn representations of the world with incredible efficiency. They've assembled a dream team of experts from top companies and academic institutions, bolstered by the online movement e/acc (Effective Accelerationism), led by Extropic's founder Guillaume Verdon, better known by his Twitter alt @BasedBeffJezos. Positioning themselfs at the forefront of unifying Physics, AI, and Nature with a groundbreaking thermodynamic computing architecture. Extropic, with its stellar lineup of backers secured $14.1 million series A funding led by Steve Jang and Kindred Ventures. and are poised to revolutionize computing and unlock a world of possibilities. So, buckle upit's time to accelerate with Extropic!

Government agencies balance difficult tradeoffs every day, whether theyre scheduling logistics, people, or satellite launches. The use cases for quantum and quantum-hybrid solutions offer tantalizing advantages because this technology can quickly and predictably deliver high-quality solutions. Whats most remarkable is that there are real-world problems today that can benefit from quantum annealing technology, said Scott Buchholz, chief technology officer for Deloitte Consulting LLPs Government and Public Services practice and the organizations global leader for quantum computing. After 60 years of some of the smartest minds in the world working on traditional computers, the ability of quantum-hybrid technology to be comparable toand even beatclassical machines is incredible.

exploring the current challenges faced by quantum information scientists in securing funding and the eventual superiority of quantum processing units (QPUs) over traditional ASICs and GPUs. The article delves into the idea of Bitcoin as a quantum mechanical computational system and the implications of quantum computing in the realm of cryptocurrencies.

LOS ANGELES, January 16, 2024 - In a significant advancement for geophysics with resource exploration impacts, Q-CTRL, a global leader in developing useful quantum technologies through quantum control infrastructure software, has entered a pioneering partnership with the United States Geological Survey (USGS) to explore potential quantum computing and sensing applications for geological sciences.

For now, the United States continues to rely on the rest of the world for its lithium. After extraction, most of the worlds raw lithium is then transported to China, which has over half of the worlds lithium refining capacity. While the United States has talked a big game about boosting domestic critical mineral production, it has increased its imports of lithium products from China, including lithium batteries used in electric vehicles and specialized electronics.

There is also this aspect of test as we fly, because you really do want to test this new innovative technology in the environment. So not kind of having those, Wait a minute, we didnt do this exactly right, and then have to take some steps back. That, of course, needs resources and money. And then theres this step when youre potentially commercializing or mass producing. Often, small businesses dont have that capability. And we ultimately need to get thousands of them to our troops. So its really going to be important to help to educate and to counsel small businesses along the way. I think thats one of the most important aspects

PRESS RELEASE Nu Quantum, the Cambridge-based quantum networking company, today announces that it has won a significant contract from the UK government to deliver a world-first modular, rack-mount and scalable quantum data centre prototype under the SBRI: Quantum Networks, Enabling Components & Systems competition. In addition, Nu Quantum intends to collaborate with Cisco, using Cisco as a prospective End User for the project. As a world leading supplier of networking infrastructure, Cisco has vast experience in delivering scalable, resilient and performant data-centre services. As part of this collaboration, Cisco intends to contribute to key system requirements and help to evaluate final deliverables.

Imagine you're in a busy market, where the value of goods fluctuates unpredictably. As a savvy trader, you choose to buy an option, which is a ticket that gives you the right, but not the obligation, to buy or sell a good at a specified price and time. Now, imagine if you could predict the most profitable time to exercise this option - this is the complex problem of option pricing that quantitative finance seeks to solve. But what if this market wasn't on the bustling streets of a city, but in the microscopic world of quantum computing? This is the exciting frontier of Quantum Finance, a field that combines the financial wizardry of Wall Street with the mind-bending science of quantum physics.

IonQ, a leader in the quantum computing industry, announced achieving a significant technical milestone of 35 algorithmic qubits (AQ) a full year ahead of schedule, as reported by Matt Swayne on January 26, 2024, for The Quantum Insider. This milestone, achieved on the IonQ Forte system, is a result of substantial hardware and software improvements, including an increased qubit count, improved optical detection hardware, and a new quantum program compiler. The AQ metric, a primary benchmark for IonQ, derived from protocols established by the Quantum Economic Development Consortium (QED-C), signifies the system's capability to consider over 34 billion possibilities simultaneously. The attainment of AQ 35 positions IonQ Forte as a more potent tool for quantum applications such as quantum machine learning and quantum chemistry, enhancing its commercial value for customers and partners. IonQ's advancements are further underscored by their quantum computers' availability on major cloud platforms like Amazon Braket, Microsoft Azure, and Google Cloud, and direct API access, broadening usability across various sectors. Renowned users of IonQs systems include entities like Airbus, Hyundai Motors, and the United States Air Force Research Laboratory. The global interest in IonQ's technology is exemplified by international organizations like QuantumBasel purchasing the AQ 35 system, indicating the growing global adoption and potential of quantum computing technology across diverse industries. The author, Matt Swayne, with a deep background in journalism and science communication, contributes to making complex quantum computing advancements accessible to a broader audience. The article also places IonQ's achievement in the context of the broader quantum technology landscape, highlighting the rapid evolution and increasing commercial interest in this field.

Quantum communication transmission rates have long been limited by the dead time inherent to the single-photon detectors used in the field. Now, researchers at LG Electronics in South Korea have unveiled a new protocol that promises to improve transmission rates, as well as heighten transmission security.

PRESS RELEASE Following the 2024 Annual Meeting of the World Economic Forum in Davos, Rescale, the leader in high performance computing (HPC) built for the cloud to accelerate engineering innovation and scientific discovery, announced it is teaming with quantum computing leader IonQ to merge the raw processing power of accelerated cloud computing with the unique problem-solving potential of quantum computing. This partnership forges a new path to tackle the most intricate challenges facing product development, healthcare, life sciences, financial services, materials research, logistics optimization, and national research labs.

There is a very good chance you are thinking of the gold chandelier often found in a large dilution refrigerator that quantum computing players like IBM and Google use to cool and operate a superconducting qubit. However, there is one core technology that is often overlooked when we talk about quantum computers And thats photonics. Dr. Bob Sutor who spent more than two decades at IBM Research in New York working and leading IBMs efforts in quantum computing knows the large cyrostats very well. Currently Dr. Sutor is the vice president and chief quantum advocate at Infleqtion where at an event he stated:

Digital security experts around the world have their eyes fixed on the Y2Q Years to Quantum clock. It ticks down the time until the projected date when a quantum computer will be able to break an essential form of modern cryptography. Called public-key cryptography because of its ingenious method of sharing secret codes in public, it keeps your credit card number safe when you shop online and ensures that your phone's software update is coming from the phone company and not a hacker. Whistleblowers use it to contact journalists, and businesses use it to send confidential files.

PRESS RELEASE D-Wave Quantum Inc. (NYSE: QBTS) (D-Wave), a leader in quantum computing systems, software, and services and the worlds first commercial supplier of quantum computers, today announced it has calibrated a 1,200+ qubit Advantage2 prototype, which will soon be available in the companys Leap real-time quantum cloud service. Developed with a new lower-noise, multilayer superconducting integrated-circuit fabrication stack, the new Advantage2 prototype demonstrates significant performance gains on hard optimization problems and is expected to be particularly powerful for new use cases such as machine learning. The new Advantage2 prototype features 1,200+ qubits and 10,000+ couplers, double the number of qubits and couplers over the previously released Advantage2 prototype. Benchmarks demonstrate substantial advancements across a number of performance metrics compared to the Advantage quantum processing unit (QPU)

Quantum computing technology continues to advance closer to an everyday reality. While the potential applications of quantum in certain sectors are more speculative, the pharmaceutical industry is poised to be transformed by quantum technology.This sector is likely to be the fastest to unlock the benefits of quantum computing, once the technology is fully realized. But how ready are companies in this sector for this revolution, and what changes can we expect?

This blueprint provides a framework for value-led, democratic access to quantum resources, extending the Quantum Computing Governance Principles into practice for regional or national strategies. The blueprint serves as a guide for policy-makers, industry and academia to build a quantum ecosystem, focusing on economic growth, job creation and responsible development.

There will be a paradigm shift in quantum research, learning, and prediction in society that expands in 2024. A new data era known as quantum computing is beginning to emerge as we move past classical computing. Quantum computing is expected to change the field of data analytics and artificial intelligence, propelling humanity forward faster than ever before. The speed and power of quantum computing will enable us to address some of the most difficult problems facing humanity. Every month, quantum computing becomes closer and it is being used in practical ways.

Dr. Rebekka Garreis, Dr. Chuyao Tong, Dr. Wister Huang and their colleagues in the group of Professors Klaus Ensslin and Thomas Ihn from the Department of Physics at ETH Zurich have been looking into bilayer graphene (BLG) quantum dots, known as a potential platform for spin qubits, to find out if another degree of freedom of BLG can be used to encode quantum information.

Researchers have been able to achieve quantum coherence at room temperature this is the ability of a quantum system to maintain a well-defined state without being affected by external disturbances. This breakthrough is an important step forward in the development of quantum computers. It is easier to work with them if you do not have to cool them down to incredibly low temperatures.

D-Wave Quantum Inc., a leading provider of quantum computing systems, software, and services, recently made a groundbreaking announcement that has sent ripples through the world of quantum technology. The company has appointed former U.S. Secretary of Homeland Security, Kirstjen Nielsen, to their board of directors. This strategic move is set to bridge the gap between government and industry, ensuring that D-Wave's technology remains at the forefront of innovation. This announcement comes at a time when governments around the world are becoming more entangled with quantum technology companies, recognizing the potential of this cutting-edge technology to revolutionize various sectors, including logistics, artificial intelligence, and cybersecurity. With D-Wave's innovative approach to quantum computing, utilizing both quantum annealing and gate-model quantum computers, they are driving operational excellence in today's fast-paced world. As quantum technology companies continue to make significant advancements in the field, it's no surprise that governments are taking notice and getting more involved. Quantum entanglement, a key resource in quantum information technologies, has the potential to revolutionize various sectors, and governments are keen to stay ahead of the curve. In the coming years, we can expect to see quantum technology companies like D-Wave Quantum Inc. and others to continue to play a crucial role in shaping the future of quantum computing. As they work to develop new applications and technologies, the government's involvement in this field will only grow, making it essential for these companies to stay ahead of the curve. So, buckle up and get ready for an exciting journey into the world of quantum computing, where the possibilities are endless and the future is now.

We at Quantum Cyber Solutions are both honored and thrilled to be featured in the insightful blog post The Quantum Leap: USA's Advances in Quantum Computing & Cryptography. This comprehensive piece not only encapsulates the significant strides made by the United States in the realms of quantum computing and cryptography but also highlights the pivotal role played by leading companies in this sector, including our own. As a company rooted in the visionary foresight of quantum technologies, Quantum Cyber Solutions is dedicated to pioneering advanced quantum-resistant cryptographic solutions. Our approach, which seamlessly integrates technical expertise with a deep spiritual understanding, positions us uniquely in this rapidly evolving field. This recognition underscores our commitment to contributing significantly to both national and global advancements in quantum computing and cybersecurity. The blog post does a commendable job of detailing the collaborative efforts and investments of the U.S. government in quantum research and development, particularly under the auspices of the National Quantum Initiative (NQI) and the National Quantum Coordination Office (NQCO). It's heartening to see how these initiatives have fostered a conducive environment for breakthroughs in quantum technology, thereby ensuring the USA's continued leadership in this critical domain. We are particularly appreciative of the section dedicated to Quantum Cyber Solutions. The writer adeptly captures the essence of our mission: to blend cutting-edge technological innovation with ethical principles, thereby paving the way for a future that is secure in the quantum age. Our focus on government contracting and aligning with national security interests is not just a business strategy; it is a testament to our dedication to societal and global well-being.

Chinese scientists have achieved a significant breakthrough in e-commerce security, developing the worlds first five-user online trading platform utilizing advanced quantum technology, Xinhua News Agency reports. Th research, detailed in a recent publication in the journal Science Advances, has the potential to improve online transaction security.

Topological defects play a central role in dynamical systems undergoing a non-adiabatic transition. In solids, topological defects as a result of femtosecond laser excitation have attracted increasing interest not only because they are key to understanding phase transitions but also because they can generate a variety of hidden orders that are not accessible in thermal equilibrium. Despite the common occurrence of these defects in a non-equilibrium system, the fundamental limit on how fast they can emerge in solids and the generic pathway for defect creation at such fast timescales have remained open questions. Here we apply ultrafast electron diffraction to study the reciprocal-space signatures of transient defects in a two-dimensional charge density wave, where simultaneous measurements of both defect and phonon dynamics yield a microscopic view of defect formation in the femtosecond regime. We find that one-dimensional domain walls are generated well within 1ps following photoexcitation, during which the defect growth is not dictated by the amplitude of the order parameter, but is mediated by a non-thermal population of longitudinal optical phonons. Our work provides a framework for the ultrafast engineering of topological defects that are coupled to specific collective modes, which will prove useful for the dynamical control of non-equilibrium phases in correlated materials.

A secure exchange between a merchant and a buyer has been successfully tested as a proof of concept using a small quantum computing network in China. To shop on the unhackable quantum internet, we will need new security techniques. Though we do not have a fully operational quantum internet yet, researchers have now demonstrated a proof of concept for secure quantum e-commerce. Hua-Lei Yin at Renmin University of China and his colleague built a small network from five quantum computers connected with several kilometres of fibre. This worked as all quantum networks do, by tweaking the quantum properties of light

Potential Impact on Technology: Now, lets go into the crystal ball and see how quantum computing could transform our technological world. The possibilities are astounding, ranging from supercharging sophisticated simulations to transforming cryptography. Have a clear picture of the potential discoveries that could radically alter the way we compute and analyze data.

Its still early days, but quantum is heating up. Quantum computing is early in the maturity cycle, but the landscape is heating up. IBM launched Osprey, a 433-qubit machine, last year and has set its sights on building a 100,000-qubit machine within 10 years. Google is targeting a million qubits by the end of the decade. Other players in the nascent space include D-Wave Systems, IonQ, Rigetti Computing, Honeywell, Microsoft, Intel, and PsiQuantum with some of the companies offering quantum computing services in the cloud. Fortune Business Insights has projected that the quantum computing market will grow from $928.8 million this year to $6.5 billion by 2030, a compound annual growth rate of 32.1%.

McKinsey estimates that 5,000 quantum computers will be operational by 2030, but that the hardware and software required to handle the most complex problems will not be available until 2035 or later. However, organizations must begin planning now for how they will use technology to solve real-world business problems. According to a November 2022 report, some companies expect to invest more than $15 million per year in quantum computing. A group of MIT researchers, in partnership with Accenture, has developed a framework to help tech-savvy executives start to evaluate the potential of quantum computing for problem-solving at their companies.

Whats really important is that if we keep making these devices bigger and bigger, we also need the performance to continue improving, in order for us to be able to realize some of these really complex algorithms, where each qubit is needed to be able to implement billions of gates, said Bluvstein. To be able to implement these billions of gates, we really need to start, now in the field, switching over to not only testing our algorithms with physical qubits and learning about how quantum algorithms work, but begin testing our algorithms with logical qubits. We need to determine how error-corrected algorithms work because we know that in order to, for example, solve really big problems, such as really big chemistry problems, we need things on the scale of more than a billion gates. And were never going to be able to achieve this with our physical qubits, so we need to focus on error-correcting algorithms

Singlet fission can generate an exchange-coupled quintet triplet pair state 5TT, which could lead to the realization of quantum computing and quantum sensing using entangled multiple qubits even at room temperature. However, the observation of the quantum coherence of 5TT has been limited to cryogenic temperatures, and the fundamental question is what kind of material design will enable its room-temperature quantum coherence. Here, we show that the quantum coherence of singlet fissionderived 5TT in a chromophore-integrated metal-organic framework can be over hundred nanoseconds at room temperature. The suppressed motion of the chromophores in ordered domains within the metal-organic framework leads to the enough fluctuation of the exchange interaction necessary for 5TT generation but, at the same time, does not cause severe 5TT decoherence. Furthermore, the phase and amplitude of quantum beating depend on the molecular motion, opening the way to room-temperature molecular quantum computing based on multiple quantum gate control.

Various systems can be employed to implement qubits, with one approach being the utilization of intrinsic spin a quantum property related to a particles magnetic moment of an electron. Electrons have two spin states: spin up and spin down. Qubits based on spin can exist in a combination of these states and can be entangled, allowing the state of one qubit to be inferred from another. By leveraging the extremely sensitive nature of a quantum entangled state to environmental noise, quantum sensing technology is expected to enable sensing with higher resolution and sensitivity compared to traditional techniques. However, so far, it has been challenging to entangle four electrons and make them respond to external molecules, that is, achieve quantum sensing using a nanoporous MOF.

From a quantum algorithms perspective, stochastic gradient descent processes are solved here using quantum ordinary differential equation (ODE) solvers derived from the findings of ref. 30, based on linearizing non-linear equations using so-called quantum Carleman linearization. We find that the corresponding differential equation solvers can, in principle, also be used in the discrete setting and for stochastic gradient descent in machine learning. However, in the discrete setting, the theoretical details are significantly different from those applicable in the small learning rate limit. In this work, we systematically establish a novel discrete Carleman linearization in the supplementary material, including reformulations of the Carleman linearization theory, a tensor network diagrammatic notation for the discretization error, analytic derivations of higher-order corrections, and explicit examples for lower order expansions. Further details about the novelty of our algorithms beyond the findings of ref. 30 are summarized in the supplementary material.

To run large-scale algorithms on a quantum computer, error-correcting codes must be able to perform a fundamental set of operations, called logic gates, while isolating the encoded information from noise1,2,3,4,5,6,7,8. We can complete a universal set of logic gates by producing special resources called magic states9,10,11. It is therefore important to produce high-fidelity magic states to conduct algorithms while introducing a minimal amount of noise to the computation. Here we propose and implement a scheme to prepare a magic state on a superconducting qubit array using error correction. We find that our scheme produces better magic states than those that can be prepared using the individual qubits of the device. This demonstrates a fundamental principle of fault-tolerant quantum computing12, namely, that we can use error correction to improve the quality of logic gates with noisy qubits. Moreover, we show that the yield of magic states can be increased using adaptive circuits, in which the circuit elements are changed depending on the outcome of mid-circuit measurements. This demonstrates an essential capability needed for many error-correction subroutines. We believe that our prototype will be invaluable in the future as it can reduce the number of physical qubits needed to produce high-fidelity magic states in large-scale quantum-computing architectures.

- Intel (INTC): Intel may have lost ground to market leaders in the semiconductor market but is eyeing up a comeback with its own specialized quantum computing chip. - Honeywell (HON): Leading quantum computing firm Honeywell has grown a reputation from utilizing trapped-ion technology and establishing strategic acquisitions to become a key industry player. - D-Wave Quantum (QBTS): D-Wave is a unanimous buy from analysts thanks to its strengths in building annealing quantum computers.

If successful, the startup could beat industry leaders IBM, Microsoft and Google to error-corrected quantum computing.

This program was envisioned by DARPA to include an escalating engagement over a multi-phase, multi-year effort. During the initial phase, which was announced in January 2023, PsiQuantum worked closely with a dedicated team of experts from the government looking to verify and evaluate the status of the companys technology, as well as the future viability of the photonic approach as a means of building the worlds first utility-scale, fault tolerant quantum computer. The year-long government diligence effort determined that PsiQuantums photonic approach is worthy of elevating to the next phase of the US2QC program. The DARPA-led team included multiple experts from each of the following institutions: Air Force Research Laboratory; DARPA; Johns Hopkins University Applied Physics Laboratory; Los Alamos National Laboratory; Oak Ridge National Laboratory; and the NASA Ames Research Center.

Quantum error correction is critical to fulfill the immense promise of quantum computers. This advanced technique addresses the inherent fragility of quantum states and the susceptibility of qubits to interference from their environment, which can lead to errors in quantum computations. By implementing error correction protocols, quantum computers can maintain the integrity of quantum information over longer periods, enabling them to perform complex calculations that are beyond the reach of classical computers. This enhances the reliability and scalability of quantum systems and paves the way for groundbreaking advancements in fields ranging from materials science to drug discovery and optimization problems. By providing the first commercial error-corrected system, QuEra is setting a new bar in performance and usability.

Financial institutions need to continuously interpret complex data streams to extract information necessary for providing accurate credit risk evaluation, managing market-making services, and predicting emissions in the context of green finance, among other things. Classical machine learning techniques used to assist and provide insights to these services have limitations as these data streams are, in general, complex. Combining quantum computing with classical machine learning methodology could offer more powerful resources for processing these data streams, given the potential for quantum computers to process some types of information more efficiently than with classical resources alone.

With funding in hand, FQF is now armed with the necessary resources to broaden interdisciplinary quantum expertise and translate it beyond the scientific community. This is important. Finland is one of the known forerunners in quantum technologies, and our national collaboration is flexible. Although global competition is getting fierce, the spirit of collaboration among Finnish universities, research institutions, government agencies, and industrial partners is what sets us apart from other countries. The launching of this flagship will serve as a catalyst in bolstering Finlands excellency in education, research, and industrial development in quantum technologies, says FQF Director Peter Liljeroth, a professor of physics at Aalto University.

For a Harvard-led team of researchers, the solution to this challenge, relying on the natural strengths of the design of the neutral atom quantum computer, was to take a group of logical qubits on a train ride to what they called an entanglement zone, where they can perform calculations. Think of this approach as a quantum computational bullet train that brings these all-important qubits to their destination together.

Researchers at Google have created an algorithm that can translate complex physical problems into the language of quantum mechanics, which could make quantum computers able to tackle more tasks.

We utilize the graphon a continuous mathematical object which represents the limit of convergent sequences of dense graphs to formulate a general, continuous description of quantum spin systems in thermal equilibrium when the average coordination number grows extensively in the system size

The Knill-Laflamme (KL) conditions distinguish perfect quantum error correction codes, and it has played a critical role in the discovery of state-of-the-art codes. However, the family of perfect codes is a very restrictive one and does not necessarily contain the best-performing codes. Therefore, it is desirable to develop a generalized and quantitative performance metric. In this Letter, we derive the near-optimal channel fidelity, a concise and optimization-free metric for arbitrary codes and noise.

While quantum computing can positively serve humanity in a myriad of ways, it also brings concerning cybersecurity threats. In turn, the U.S. government and security leaders have called for accelerated post-quantum cryptography (PQC) migration. President Biden signed the Quantum Computing Cybersecurity Preparedness Act after visiting IBMs quantum data center in October 2022. In addition, NIST, CISA, and NSA recently advised organizations to develop PQC readiness roadmaps.

POLARISqb was the first company to develop a drug discovery platform that utilizes the well-documented optimization power of todays quantum computers, stated Bill Shipman, CTO and Co-Founder of POLARISqb. We look forward to working with the team at Scientist.com to make this platform available to their vast network of scientists and researchers, who can use our tools to accelerate the search for novel drug candidates. POLARISqb uses quantum annealing computers that complete calculations more than 500x faster than conventional computers

The ability to transduce single-photon quantum states between visible and telecom wavelengths with high fidelity has implications across quantum information science applications. Single telecom photons are an important resource for photonic quantum computing; replacing current resource state generators with single telecom photon sources would improve processing efficiency and reduce errors from multiphoton events

AI and quantum software-as-a-service provider SandboxAQ has already won several government contracts. These include researching quantum navigation systems with the U.S. Air Force and providing its quantum-resistant cryptography solution SandboxAQ Security Suite to the U.S. Defense Information Systems Agency (DISA) and the U.S. Department of Health and Human Services.

The team at Quantinuum realized that just such a code, nicknamed the iceberg code, if optimized to take advantage of the industry-leading components in Quantinuums trapped-ion quantum computers, could offer real potential for early fault-tolerance. Quantinuums H-Series hardware boasts mobile qubits, mid circuit measurement and the ability to program circuits with arbitrary-angle gates making it ripe for new algorithm implementation and development. The teams results, published today in Nature Physics Protecting expressive circuits with a quantum error detection code, detail a code thats so efficient it was able to protect much deeper and more expressive circuits than had previously been realized with quantum error correction, and it did so making extremely efficient use of the very high-fidelity qubits and gates available in Quantinuums quantum charge-coupled device (QCCD) architecture.

A quantum state of matter has been made for the first time using dipolar molecules molecules that have a positively charged end and a negatively charged end. It could help enhance our understanding of the quantum properties of exotic materials.

Quasi-local integrals of motion are a key concept underpinning the modern understanding of many-body localisation, a phenomenon in which interactions and disorder come together. Despite the existence of several numerical ways to compute them and in the light of the observation that much of the phenomenology of many properties can be derived from them it is not obvious how to directly measure aspects of them in real quantum simulations; in fact, hard experimental evidence is still missing.

Singlet fission can generate an exchange-coupled quintet triplet pair state 5TT, which could lead to the realization of quantum computing and quantum sensing using entangled multiple qubits even at room temperature. However, the observation of the quantum coherence of 5TT has been limited to cryogenic temperatures, and the fundamental question is what kind of material design will enable its room-temperature quantum coherence.

PALO ALTO, Calif., BURNABY, B.C., --- December 26, 2023 -- D-Wave Quantum Inc. (NYSE: QBTS), a leader in quantum computing systems, software, and services and the worlds first commercial supplier of quantum computers, commends U.S. policy makers for including a quantum pilot program focused on near-term quantum computing applications in the National Defense Authorization Act (NDAA) that was passed by Congress and signed into law by President Biden on December 22, 2023.

Researchers working with the Optimization with Noisy Intermediate-Scale Quantum (ONISQ) program say they have created the worlds first quantum circuit using logical quantum bits (qubits). The innovation marks a significant stride towards fault-tolerant quantum computing, promising to revolutionize the design of quantum computer processors.

Entanglement is a property of quantum physics that is manifested when two or more systems interact in such a way that their quantum states cannot be described independently. In the terminology of quantum physics, they are said to be entangled, i.e. strongly correlated. Entanglement is of paramount importance to quantum computing. The greater the entanglement, the more optimized and efficient the quantum computer.

PRESS RELEASE Siemens Digital Industries Software announced its collaboration with sureCore and Semiwise to develop groundbreaking cryogenic CMOS circuits capable of operating at temperatures near absolute zero a fundamental component of quantum computing systems. The joint effort holds the potential for dramatic advances in both performance and power efficiency for next-generation integrated circuits (IC) targeting quantum computing considered the leading edge in the high-performance computing (HPC) research and development.

For a while researchers thought theyd have to make do with noisy, error-prone systems, at least in the near term. Thats starting to change.

We introduce a framework for fault-tolerant postselection (FTPS) of fault-tolerant codes and channels such as those based on surface codes using soft-information metrics based on visible syndrome and erasure information. We introduce several metrics for ranking configurations of syndromes and erasures. In particular, we introduce the logical gap (and variants thereof) as a powerful soft-information metric for predicting logical error rates of fault-tolerant channels based on topological error-correcting codes. The logical gap is roughly the unsigned weight difference between inequivalent logical corrections and is adaptable to any tailored noise model or decoder.

Space exploration has always embodied the pursuit of the extraordinary and unknown. From the launch of the first satellite to the exploration of distant planets, humanity's venture into space has consistently pushed the boundaries of technology, and now, one of the most revolutionary technological frontiers on the horizon is quantum computing. This vital field can reshape the landscape of space exploration, potentially unlocking new realms of possibility in space-related research and technology.

The idea of quantum computing, once relegated to academic circles and science fiction novels, has now migrated to the tech media, and now is headed toward mainstream media outlets, like 60 Minutes. While its impossible to predict how technologies or if technologies are adopted, its evident that quantum technology is here, and it seems poised to revolutionize everything from drug discovery to materials science.

Quantum computing shows great potential for faster problem-solving, among other benefits. Discover key areas where the enterprise could implement the rapidly advancing tech.

This quantum revolution is approaching at an alarming pace, possibly within the next few years, and it is imperative for governments and organizations across sectors to begin adapting and preparing in 2024. The magnitude of this issue extends far beyond the confines of cyberspace it poses an existential threat to the protection of our most critical national security secrets and systems. The scope of the problem reaches into the heart of our nation's security. Protecting critical assets such as infrastructure, healthcare systems, advanced weapons and intelligence assets becomes nearly impossible in the face of quantum advancements. It's not just about safeguarding data; it's about securing the very pillars that uphold the security and functionality of our society.

In simple terms, the basic idea of our protocol is to first inject the state to be prepared into one of the qubits in the surface code, and then 'propagate' the state information to the entire surface code, thereby achieving a logical state preparation, Prof. Zhu explained. In this protocol, the choice of the inject position of the state to be prepared and the initialization states of other qubits is important

Researchers have achieved a significant advance in real-time quantum computing with the development of Noisy Intermediate Scale Quantum Reservoir Computing, NISQRC, according to a study posted on the pre-print server ArXiv. This novel algorithm enables quantum machines to learn from continuously flowing data streams, overcoming a major hurdle that has previously limited their applicability to dynamic real-world scenarios.

Its been an eventful year for Frances quantum experts and enthusiasts. We have seen French scientists significantly advance research that is bringing the quantum era closer and closer. French entrepreneurs have built businesses that are in global leadership positions for quantum tech.

The pilot program aims to build and mature demonstrations, proof of concepts (POCs), and pilots using all viable quantum computing systems ensuring that the U.S. Defense department is using the best available technology to achieve mission objectives. D-Wave has already developed demos, POCs, and applications for other governments and businesses around the world to solve optimization challenges and has the technology that is necessary to begin working with the U.S

Several roadmaps are now pointing to the first undeniable demonstration of useful quantum advantage in 2024. We expect this demonstration to be in computational chemistry, on a use case relevant to pharma or materials engineering, which is why we have made investments in companies like QSimulate and Kvantify. This will be a turning point for the sector, and we expect it to generate an in-flux of funding, especially into companies developing the application layer for quantum computing, with established customer relationships. The integration of AI with quantum computing, which has started in earnest in 2023, will also continue to grow, and we will see quantum techniques increasingly being used to improve current generative models.

In a significant development, the European High-Performance Computing Joint Undertaking (EuroHPC JU) recently selected six sites within the EU to host the first European quantum computers. Integrating into EuroHPC supercomputers, these computers will use tech from European firms. The 100 million (about $110 million dollar) project, funded equally by the EU and 17 participating EuroHPC JU countries, aims to address complex problems in materials development, drug discovery, weather forecasting, transportation and other critical, real-world issues.

The term, Quantum Practicality, entered the lexicon in earnest in 2023, probably chosen because it sounds less hubristic than quantum advantage and, certainly, quantum supremacy. Like those terms, quantum practicality is hard to define and, therefore, hard to measure. However, in 2024 we should see of a glimpse of achieving the spirit of that term.

Quantum computing, with its ability to run millions of calculations in a fraction of the time as traditional binary code, poses a real threat to todays most widely used encryption algorithms.

Space is one of the sectors that could benefit from experimenting with and adopting cutting-edge quantum technologies. This article explores the applications of quantum technologies for space.

See OQC CTO Simon Phillips prediction on what to expect for #Quantum in 2024, in UKTN's latest article:

Given the large sums tied to expensive weapon systems think $100-million-plus per F-35 fighter its easy to forget the U.S. Department of Defense is a penny-pincher at heart. Speaking at the Quantum Economic Development Consortiums (QEDC) annual meeting last week, DoDs top quantum research director, John Burke, reminded the gathering, After the Army pays for people fuel, food and ammunition, theres not that much money left over for new tech. So, it needs to be very inexpensive.

How can you or your business benefit from training? What makes D-Waves training unique? What can you learn in the course? Do you need any qualifications? Learn more about our quantum training course with D-Wave's Senior Manager of Learning Solutions, Kelly Novic. Upgrade your career, find business opportunities, or train your IT team to kick start your quantum journey today!

The Air Force Research Laboratory, or AFRL, is using all resources at its disposal to advance quantum computing and networking capabilities. In the past year, AFRLs Information Directorate with congressional support and funding has collaborated with several industry and academic partners to help build an industrial support system that is advancing the United States capabilities in quantum technology.

Proposed updates to the federal governments legal framework on quantum technology and agency research and development efforts have both moved to prioritize the near-term impacts of what has long been seen as a still-emerging technology. On Thursday, government officials spoke in Palo Alto about the growing presence of quantum information systems research and development at a federal level, illuminating both the congressional and agency-led initiatives that stand to push the governments QIST agenda further.

In the race to keep America at the forefront of scientific, technological, and economic competitiveness, maintaining our U.S. advantage in quantum science, engineering, and technology is of critical importance.

The Nobel Prize in Chemistry has been awarded to three researchers who harnessed the quantum behaviors of semiconductor nanocrystals.

The journey towards a quantum computing revolution continues to advance, with global tech giants and researchers alike pushing the boundaries. The promise of quantum computers is vast, from drug discovery to financial modeling, climate forecasting, and cryptography. Its a rapidly evolving field that has the potential to transform industries by executing certain calculations significantly faster than traditional computers. The quantum leap forward lies in the use of quantum bits, or qubits, rather than classical bits for information processing.

Office of the National Cyber Director official Dylan Presman said there has been nothing like this effort to move critical assets to quantum-resistant encryption standards.

When you hear the words, quantum computing, it sounds like something out of a science fiction movie. Yet in recent years, quantum computing has become a hot topic, especially in the world of cryptography. Post-quantum cryptography raises many questions and challenges, and a group of researchers and security experts across GitHub, Santander, and Microsoft came together to start trying to tackle them. They started with a question: how do you understand how cryptography is used and implemented, whether it be on-prem or in the cloud, across hundreds of thousands if not millions of lines of code?

Building on last weeks exciting announcement, were thrilled to announce that Q-CTRLs performance management is now available for you to use on the 127-qubit IBM Brisbane processor through the IBM Quantum Pay-As-You-Go plan. By expanding to larger devices, you can build utility-scale applications and push the limits of what quantum computers can do, as we usher in the era of quantum utility.

In the last few years, a new quantum technology has gained the attention of the quantum computing community. Thanks to recent developments in optical-tweezer technology, neutral atoms can be used as robust and versatile qubits. In 2022, a collaboration between QuEra and various academic institutions produced a neutral-atom device with a whopping 256 qubits! It is no surprise that this family of devices has gained traction in the private sector, with startups such as Pasqal, QuEra, and Atom Computing suddenly finding themselves in the headlines.

Quantum machine learning algorithms based on parameterized quantum circuits are promising candidates for near-term quantum advantage. Although these algorithms are compatible with the current generation of quantum processors, device noise limits their performance, for example by inducing an exponential flattening of loss landscapes. Error suppression schemes such as dynamical decoupling and Pauli twirling alleviate this issue by reducing noise at the hardware level.

Quantum computing can help and now that CERN openlabs current Quantum Technology Initiative comprises dozens of projects across computing, sensing, communication, and theory. Read the case study.CERN has become the newest IBM Quantum Hub, the the CERN-IBM relationship will be closer than ever before. Until now, scientists have been using classical machine learning techniques to analyze raw data captured by the particle detectors, automatically selecting the best candidate events. But we think we can greatly improve this screening process by boosting machine learning with quantum. In particular, exploiting the exponentially large qubit A Hilbert space can be thought of as the state space in which all quantum state vectors live. The main difference between a Hilbert space and any random vector space is that a Hilbert space is equipped with an inner product, which is an operation that can be performed between two vectors, returning a scalar. Read more about linear algebra in the Qiskit TextbookHilbert space, quantum computers should be able to capture quantum correlations in the particle collision datasets more efficiently and accurately than conventional, classical, machine learning algorithms. This ability should lead to a better interpretation of experiments.

We are thrilled to officially launch our QuProtect Cryptographic Agility white paper - Discover the inner workings of our unified, software-based solution that provides #quantum protection for critical data anywhere it travels.

IBM's new Condor quantum computer is only the second ever to have more than 1000 qubits

Quantum computers offer the potential to simulate nuclear processes that are classically intractable. With the goal of understanding the necessary quantum resources, we employ state-of-the-art Hamiltonian-simulation methods, and conduct a thorough algorithmic analysis, to estimate the qubit and gate costs to simulate low-energy effective field theories (EFTs) of nuclear physics.

We normally talk about this revolution in a scientific and technical sense, Lamas-Linares told the Vatican News. We call it a revolution because it concerns certain aspects of quantum mechanics, such as entanglement. This is a quantum effect that is considered paradoxical, that is, it is one of the things that Einstein considered completely impossible and that could not be part of a scientific theory. And now we dont see them as problems or as philosophical problems, but we see them as resources, in the sense of how we can create them measurably, how we can manipulate them and how we can use them to build better sensors, better computers and so on

DoD offices within the Navy and Air Force are recognizing the importance of post-quantum cryptography as mission critical as they look to both safeguard systems and harness the benefits of quantum computing.

Rep. Mike Gallagher, R-Wis., chairs a hearing of a congressional subcommittee in July 2023. Gallagher is a sponsor of bipartisan legislation that would authorize the federal government to launch programs to support the development of the cybersecurity workforce

Google, IBM make strides toward quantum computers that may revolutionize problem solving

Cascading Photons: New Entanglement Scheme Promises Enhanced Quantum Communication, a novel approach is unveiled for generating entanglement in the photon-number basis. This technique, involving sequential resonant two-photon excitation within a three-level system, is particularly applied to quantum dots. By harnessing a biexciton-exciton cascade, the method can emit photon pairs, offering a significant leap in secure communication.

The ransomware epidemic hitting UK businesses is leading many to increase their prices, adding to already high inflation, new data from Veeam has warned. The data protection firm surveyed 100 directors of UK businesses with over 500 employees that had been successfully compromised at least once by ransomware in the past 18 months.

The Defense Department's chief information officer, John Sherman, today recognized more than a dozen individuals and teams who contributed in exceptional ways to the advancement of the DOD's information technology goals during 2023.

BOSTON, MASSACHUSETTS, December 6, 2023 QuEra Computing, the leader in neutral-atom quantum computers, today announced a significant breakthrough published in the scientific journal Nature. In experiments led by Harvard University in close collaboration with QuEra Computing, MIT, and NIST/UMD, researchers successfully executed large-scale algorithms on an error-corrected quantum computer with 48 logical qubits and hundreds of entangling logical operations. This advancement, a significant leap in quantum computing, sets the stage for developing truly scalable and fault-tolerant quantum computers that could solve practical classically intractable problems.

A team of four prominent mathematicians, including two Fields medalists, proved a conjecture described as a holy grail of additive combinatorics. Within a month, a loose collaboration verified it with a computer-assisted proof.

Critical Quote: The homogeneity of Rydberg qubits allows them to scale rapidly and also allows them to be manipulated and moved around easily using lasers on a quantum circuit. This overcomes the current error-prone methods of performing qubit operations by having to connect them sequentially, which propagates errors throughout the chip. Dr. Mukund Vengalattore, ONISQ program manager, DARPAs Defense Sciences Office.

Infleqtion, the worlds leading quantum information company, proudly announces the launch of Oqtant, the worlds first quantum innovation platform as a service that provides groundbreaking access to quantum matter for researchers, innovators, and students working on next-generation quantum applications. Oqtant will be used to build more powerful and versatile solutions for new and better sensors, atomtronic circuits, and signal processing, providing the next leap in technology innovation. With access to quantum matter typically out of reach to many, Oqtant will fundamentally democratize quantum discovery and invention. Oqtant provides the core capabilities to create and manipulate matter, anywhere, anytime, by anyone with internet access.

The Government Accountability Office found that just three federal agencies were in compliance with the Office of Management and Budgets advanced cyber event logging requirements.

In noisy intermediate-scale quantum computing, the limited scalability of a single quantum processing unit (QPU) can be extended through distributed quantum computing (DQC), in which one can implement global operations over two QPUs by entanglement-assisted local operations and classical communication. To facilitate this type of DQC in experiments, we need an entanglement-efficient protocol. To this end, we extend the protocol in [Eisert et. al., PRA, 62:052317(2000)] implementing each nonlocal controlled-unitary gate locally with one maximally entangled pair to a packing protocol, which can pack multiple nonlocal controlled-unitary gates locally using one maximally entangled pair.

Quantacet is an eagerly-awaited new player within Quebecs innovation ecosystem, bringing an added dimension to the range of resources available for creating, supporting, developing, and attracting quantum startups in Quebec. This fund will play a key role in the growth of the quantum industry in Quebec, which has already benefited from numerous private and public investments in recent years. By joining a select group of quantum funds based around the world, Quantacet confirms Quebecs international leadership in this field.

2023 was a busy year for quantum technology in the U.K. In March, The Rt. Hon. Michelle Donelan MP, Secretary of State for Science, Innovation and Technology, launched the U.K. Quantum Strategy that promised 32.5 billion ( 2.9 billion) of government funding over the next decade. This announcement built on the 2014 program to invest 1 billion (~ 1.1 billion) in quantum research and development and establish national quantum technology hubs. Recently, the U.K. Quantum Showcase, an annual indicator of the U.K.s quantum scene, highlighted a flurry of R&D activity and an active investment environment.

New paper alert! High-uniformity atomic layer deposition of superconducting niobium nitride thin films for quantum photonic integration.

some aspects of quantum technologies are on the horizon, and we should be prepared to invest ensure that quantum capabilities for economic prosperity and national security are developed accordingly.

A deep dive into the looming cybersecurity threats posed by quantum technologies.

A new tool for measuring #entanglement in many-body systems has been developed and demonstrated in experiment by a team led by Peter Zoller. This method could contribute to a better understanding of #quantum matter

Exploring the impact of quantum technologies on Bitcoin's cryptographic foundations.

Understanding the profound economic implications of quantum technologies.

Exploring predictions about the trajectory of quantum technologies.

The significance of education and training in the quantum domain.

Exploring companies at the forefront of quantum technological advancements.

Navigating the vast landscape of quantum technologies.

Exploring the software and tools ecosystem in quantum technology.

Diving into quantum research and its applications across sectors.

Exploring the challenges in the quantum domain.

Essentials of cybersecurity in a quantum world.

Discovering the potential and capabilities of quantum technologies.

Venturing into the world of quantum materials.

Exploring strategic quantum initiatives led by governments.

Navigating potential risks in the quantum domain.

The future of secure and efficient quantum networking.

Unveiling services in the quantum domain.

The significance of Quantum Cybersecurity in the era of quantum computers.