Category Archives: Quantum Computing
IBM creates largest ever superconducting quantum computer – New Scientist
IBM claims it has produced a 127-qubit quantum computer. This is over double the size of comparable machines made by Google and the University of Science and Technology of China
By Matthew Sparkes
IBM has created the worlds largest superconducting quantum computer, surpassing the size of state-of-the-art machines from Google and from Chinese researchers. Previous devices have demonstrated up to 60 superconducting qubits, or quantum bits, working together to solve problems, but IBMs new Eagle processor more than doubles that by stringing together 127.
Several approaches are being pursued by teams around the world to create a practical quantum computer, including superconductors and entangled photons, and it remains unclear which will become the equivalent of the transistor which powered the classical computing revolution.
In 2019, Google announced that its Sycamore processor, which uses the same superconducting architecture that IBM is working with, had achieved quantum supremacy the name given to the point at which quantum computers can solve a problem that a classical computer would find impossible. That processor used 54 qubits, but has since been surpassed by a 56 and then 60-qubit demonstration with the Zuchongzhi superconducting processor from the University of Science and Technology of China (USTC) in Hefei.
IBMs 127-qubit Eagle processor now takes the top spot as the largest, and therefore theoretically most powerful, superconducting quantum computer to be demonstrated. Each additional qubit represents a significant step forward in ability: unlike classical computers, which rise in power in a linear fashion as they grow, one additional qubit effectively doubles a quantum processors potential power.
Canadian company D-Wave Systems has sold machines for some years that consist of thousands of qubits, but they are widely considered to be very specific machines tailored towards a certain algorithm called quantum annealing rather than fully programmable quantum computers. In recent years, much progress in quantum computing has focused on superconducting qubits, which is one of the main technologies that Google, USTC and IBM are backing.
Bob Sutor at IBM says that breaking the 100-qubit barrier is more psychological than physical, but that it shows the technology can grow. With Eagle, were demonstrating that we can scale, that we can start to generate enough qubits to get on a path to have enough computation capacity to do the interesting problems. Its a stepping stone to bigger machines, he says.
However, it is difficult to compare the power of the IBM chip with previous processors. Both Google and USTC used a common test to assess such chips, which was to simulate a quantum circuit and sample random numbers from its output. IBM claims to have created a more programmable and adaptable processor, but has yet to publish an academic paper setting out its performance or abilities.
Peter Leek at the University of Oxford says it is tempting to assess performance entirely on the qubit count, but that there are other metrics that need to be looked at none of which has yet been released for Eagle. Its definitely positive, its good that theyre making something with more qubits, but ultimately it only becomes useful when the processor performs really well, he says.
Scott Aaronson at the University of Texas at Austin has similar reservations about judging the importance of the new processor at this stage, saying that more detail is needed. I hope that information will be forthcoming, he says.
IBM has said that it hopes to demonstrate a 400-qubit processor next year and to break the 1000-qubit barrier the following year with a chip called Condor. At that point, it is expected that a limit on expansion will be reached that requires quantum computers to be created from networks of these processors strung together by fibre-optic links.
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IBM creates largest ever superconducting quantum computer - New Scientist
Quantum computing breakthrough may help us learn about the earliest moments of the universe – TechRadar
The latest breakthrough in the field of quantum computing could pave the way for complex simulations that tell us about the earliest moments of the universe and more.
A team of researchers from the University of Waterloo, Canada, claims to have performed the first ever simulation of baryons (a highly complex type of subatomic particle) on a quantum computer.
To achieve this goal, the researchers paired a traditional computer with a quantum machine in the cloud, and developed from scratch a quantum algorithm that was resource-efficient enough to allow the system to shoulder the workload.
Until now, computers have only been able to simulate the composite elements of baryons (which are made up of three quarks), but the research paper shows its possible to perform detailed quantum simulations with many baryons.
Although the science is complex, the broad significance is this: scientists will be able to simulate aspects of physics completely out of reach for traditional supercomputers.
According to the researchers, the breakthrough represents a landmark step towards overcoming the limitations of classical computing and allowing the massive potential of quantum computers to be realized.
This is an important step forward - it is the first simulation of baryone on a quantum computer ever, said Christine Muschik, faculty member at the Institute for Quantum Computing (IQC). Instead of smashing particles in an accelerator, a quantum computer may one day allow us to simulate these interactions that we use to study the origins of the universe and so much more.
More specifically, researchers will be able to simulate complex lattice gauge theories, which describe the physics of reality. So-called non-Abelian gauge theories are said to be particularly attractive candidates for quantum simulation, as they relate to the stability of matter in the universe.
While the most powerful traditional computers are able to simulate simple non-Abelian gauge theories, only a quantum computer (as has now been proven) can perform the complex simulations necessary to unpack the inner workings of the universe.
Whats exciting about these results for us is that the theory can be made so much more complicated, added Jinglei Zhang, another researcher at the IQC. We can consider simulating matter at higher densities, which is beyond the capability of classical computers.
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Quantum computing breakthrough may help us learn about the earliest moments of the universe - TechRadar
Atos and NVIDIA to Advance Climate and Healthcare Research With Exascale Computing – HPCwire
Nov. 15, 2021 Atos and NVIDIA today announced the Excellence AI Lab (EXAIL), which brings together scientists and researchers to help advance European computing technologies, education and research.
The labs first research projects will focus on five key areas enabled by advances in high performance computing and AI: climate research, healthcare and genomics, hybridization with quantum computing, edge AI/computer vision and cybersecurity.
Atos will develop an exascale-class BullSequana X supercomputer with NVIDIAs Arm-based Grace CPU, NVIDIAs next-generation GPU, Atos BXI Exascale Interconnect andNVIDIA Quantum-2 InfiniBand networking platform.
Predicting and Addressing Climate Change
In an effort to more accurately predict climate change, researchers from Atos and NVIDIA will run new AI and deep learning models on Europes fastest supercomputer at the Jlich Supercomputing Center. Such giant-scale models can be used to predict the evolution of extreme weather events and their changing behavior due to global warming, and they will benefit greatly from exascale-class computing.
The JUWELS Booster system, based on AtosBullSequana XH2000 platform, with nearly 2.5 exaflops of AI and 3,744NVIDIA A100 Tensor Core GPUsand NVIDIA Quantum InfiniBand networking, will help provide deeper understanding of climate change and more accurate long-term predictions of events, such as hurricanes, extreme precipitation, and heat and cold waves.
Atos is strongly committed to itsdecarbonization objectives, which are to offset all of our residual emissions by 2028 to reach net zero, and to reach the SBTi target to reduce our global carbon emissions under our control and influence by 50 percent by 2025, said Andy Grant, vice president of global sales for HPC, AI and Quantum at Atos. Many leading climate modeling centers, such asMeteo France,DKRZ, KNMI andAEMet, are using our BullSequana supercomputers to run their large weather and climate models, and the current EXAIL announcement is a clear demonstration of our commitment, one year after the creation of ourCenter of Excellence in Weather and Climate Modellingwith ECMWF.
Climate change intensifies and increases the frequency of extreme weather events that disrupt entire regions, costing governments and economies hundreds of billions each year, said Ian Buck, vice president and general manager of Accelerated Computing at NVIDIA. The goal for EXAIL is to advance vital research to address pressing global challenges surrounding climate change.
Accelerating Medical Research With HPC, Quantum and AI
Supercharging medical breakthroughs with computational genomics is revolutionizing drug discovery and healthcare.Atos Life Sciences Center of Excellencehas partnered with 40 leading institutions to leverage HPC, quantum computing and AI to advance medical imaging, genomics and pharmaceuticals. TheNVIDIA Clara healthcare application frameworkprovides supercomputing performance for genomics, healthcare imaging and computational chemistry applications.
EXAIL will harness Atos advanced computing solutions and NVIDIA Clara to help healthcare researchers and providers accelerate drug discovery and design advanced diagnostic solutions using embedded, edge, data center and cloud platforms.
Advancing Quantum Research
Quantum computing holds the potential to solve complex problems in fields like drug discovery, climate research, machine learning, logistics and finance. But much research remains before quantum computers become viable.
AtosQuantum Learning Machine, a quantum software development and simulation appliance for the coming quantum computer era, enables researchers and engineers to develop and experiment with quantum software. It will use NVIDIA GPUs to help dramatically increase the speed and scale of quantum simulations. This will speed the research in quantum algorithms, quantum information science, new quantum processor architectures and hybrid quantum-GPU system architectures.
Accelerating Computer Vision
Using Atos edge appliances, such as itsBullSequana Edgewhich runs onNVIDIA BlueField DPUs, the research teams at EXAIL will work together to accelerate computer vision and 5G wireless infrastructure. Six Atos labs around the world dedicated to computer vision will be equipped with the latestNVIDIA Fleet Command technologyfor secure deployment and management of AI applications across distributed edge infrastructure.
Advancing Zero-Trust Cybersecurity
Furthermore, the EXAIL research teams will develop a new data-center-to-edge, zero-trust cybersecurity platform leveraging theNVIDIA Morpheus open AI framework, as well as new AI models to instantly detect new cybersecurity threats.
About Atos
Atos is a global leader in digital transformation with 107,000 employees and annual revenue of over 11 billion. European number one in cybersecurity, cloud and high performance computing, the Group provides tailored end-to-end solutions for all industries in 71 countries. A pioneer in decarbonization services and products, Atos is committed to a secure and decarbonized digital for its clients. Atos is a SE (Societas Europaea), listed on Euronext Paris and included on the CAC 40 ESG and Next 20 Paris Stock Indexes. Thepurpose of Atosis to help design the future of the information space. Its expertise and services support the development of knowledge, education and research in a multicultural approach and contribute to the development of scientific and technological excellence. Across the world, the Group enables its customers and employees, and members of societies at large to live, work and develop sustainably, in a safe and secure information space.
About NVIDIA
NVIDIAs invention of the GPU in 1999 sparked the growth of the PC gaming market and has redefined modern computer graphics, high performance computing and artificial intelligence. The companys pioneering work in accelerated computing and AI is reshaping trillion-dollar industries, such as transportation, healthcare and manufacturing, and fueling the growth of many others. More information at https://nvidianews.nvidia.com/.
Source: NVIDIA
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Atos and NVIDIA to Advance Climate and Healthcare Research With Exascale Computing - HPCwire
IBM Launches Its First Quantum Computing Certification | The Info-Tech Brief – Oakland News Now
https://www.youtube.com/watch?v=dnY1WiHUdzgOakland News Now
video made by the YouTube channel with the logo in the videos upper left hand corner. OaklandNewsNow.com is the original blog post for this type of video-blog content.
The quantum future gets a little closer
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Note from Zennie62Media and OaklandNewsNow.com : this video-blog post demonstrates the full and live operation of the latest updated version of an experimental Zennie62Media , Inc. mobile media video-blogging system network that was launched June 2018. This is a major part of Zennie62Media , Inc.s new and innovative approach to the production of news media. What we call The Third Wave of Media. The uploaded video is from a YouTube channel. When the video is liked by Zennie62 YouTube, then it is automatically uploaded to and formatted automatically at the Oakland News Now site and Zennie62-created and owned social media pages. The overall objective here, on top of our is smartphone-enabled, real-time, on the scene reporting of news, interviews, observations, and happenings anywhere in the World and within seconds and not hours is the use of the existing YouTube social graph on any subject in the World. Now, news is reported with a smartphone and also by promoting current content on YouTube: no heavy and expensive cameras or even a laptop are necessary, or having a camera crew to shoot what is already on YouTube. The secondary objective is faster, and very inexpensive media content news production and distribution. We have found there is a disconnect between post length and time to product and revenue generated. With this, the problem is far less, though by no means solved. Zennie62Media is constantly working to improve the system network coding and seeks interested content and media technology partners.
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IBM Launches Its First Quantum Computing Certification | The Info-Tech Brief - Oakland News Now
Intel Marks 50th Anniversary of the Intel 4004 – HPCwire
Nov. 15, 2021 Today, Intel celebrates the 50th anniversary of the Intel 4004, the worlds first commercially available microprocessor. With its launch in November 1971, the 4004 paved the path for modern microprocessor computing the brains that make possible nearly every modern technology, from the cloud to the edge. Microprocessors enable the convergence of the technology superpowers ubiquitous computing, pervasive connectivity, cloud-to-edge infrastructure and artificial intelligence and create a pace of innovation that is moving faster today than ever.
This year marks the 50th anniversary of the 4004 chip. Think of how much weve accomplished in the past half-century. This is a sacred moment for technology. This is what made computing really take off!
Why Its Important
The 4004 is the pioneer microprocessor, and its success proved that it was possible to build complex integrated circuits and fit them on a chip the size of a fingernail. Its invention also established a new random logic design methodology, one that subsequent generations of microprocessors would be built upon, before evolving to create the chips found in todays modern devices.
[Looking back at] 1970, it was clear that microprocessors would change the way that we design systems, switching from using hardware to software instead. But the speed with which microprocessors developed over time and were adopted by the industry was really surprising, said Federico Faggin, former Intel engineer who designed and produced the Intel 4004 with Tedd Hoff and Stan Mazor.
Whats Next
While the 4004 delivered the modern computing era through the design and production of the first commercially available microprocessor for a desktop calculator, the latest 12th Gen Intel Core processors which company leaders revealed at the Intel Innovation event in October will usher in a new era of computing. The performance hybrid architecture of this new family represents an architectural shift made possible by close co-engineering of software and hardware and will deliver new levels of leadership performance for generations. And with research in fields like quantum computing, with the cryogenic Intel Horse Ridge II solution, and neuromorphic computing, with theIntel Loihi 2 chip, Intel continues to innovate, explore new territories and push the limits of computing.
About the 4004s History
In 1969, Nippon Calculating Machine Corp. approached Intel about designing a set of integrated circuits for its engineering prototype calculator, the Busicom 141-PF. Intel engineer Faggin and his team adapted the original plans for 12 custom chips and designed a set of four chips including the 4004 CPU that met the challenge. Ultimately, the 4004, at the size of a human fingernail, delivered the same computing power as the first electronic computer built in 1946, which filled an entire room.
For an in-depth look at the history of the 4004, read this article by Intel Corporation Historian Elizabeth Jones.
About Intel
Intel is an industry leader, creating world-changing technology that enables global progress and enriches lives. Inspired by Moores Law, we continuously work to advance the design and manufacturing of semiconductors to help address our customers greatest challenges. By embedding intelligence in the cloud, network, edge and every kind of computing device, we unleash the potential of data to transform business and society for the better. To learn more about Intels innovations, go to newsroom.intel.comandintel.com.
Source: Intel
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Intel Marks 50th Anniversary of the Intel 4004 - HPCwire
QCI Qatalyst Selected by BMW Group and Amazon Web Services as a Finalist in the Quantum Computing Challenge – HPCwire
LEESBURG, Va., Nov. 10, 2021 Quantum Computing Inc., a leader in bridging the power of classical and quantum computing, announced that its Qatalyst ready-to-run quantum software was selected as one of three finalists for the second and final round of the BMW GroupandAmazon Web Services (AWS)Quantum Computing Challenge for the Vehicle Sensor Placement use case.
The Quantum Computing Challenge invited the quantum community to apply innovations in quantum computing to real world problems in industrial applications. The use case problems presented in the challenge represent critical commercial applications that demonstrate the real-world value of quantum computing.
BMW stated that its goal with the challenge is to tap into additional innovative power, inspire new thinking, and create opportunities for quantum builders to work with BMW on meaningful business problems.
The Vehicle Sensor Placement use case challenges participants to find optimal configurations of sensors for a given vehicle so that it can reliably detect obstacles in different driving scenarios using quantum computing or nature-inspired optimization approaches. The number of sensors per car is expected to increase significantly as autonomous driving becomes more common. Vehicles need sensors to gather data from as large a portion of their surroundings as possible, but each sensor adds additional costs, so optimizing the sensor placement uses genetic algorithms. The goal of the challenge is to use quantum computing techniques to optimize the positions of sensors, enabling maximum coverage while keeping costs to a minimum.
This Challenge is yet another step in showcasing quantum computings potential for commercial applications and real-world business problem solving, said Bob Liscouski, CEO of QCI. We are pleased that we have been selected to participate in the final level of competition, and our team will work hard to demonstrate the power of Qatalyst. Regardless of the final outcome, we believe that the applications for quantum computing will significantly increase over the coming years, and QCI is well positioned to be a key player.
About Quantum Computing Inc.
Quantum Computing Inc. (QCI) (Nasdaq: QUBT) is focused on accelerating the value of quantum computing for real-world business solutions. The companys flagship product, Qatalyst, is the first software to bridge the power of classical and quantum computing, hiding complexity and empowering SMEs to solve complex computational problems today. QCIs expert team in finance, computing, security, mathematics and physics has over a century of experience with complex technologies; from leading edge supercomputing innovations, to massively parallel programming, to the security that protects nations. Connect with QCI on LinkedIn and @QciQuantum on Twitter. For more information about QCI, visit http://www.quantumcomputinginc.com.
About the BMW Group Quantum Computing Challenge
The BMW Group Quantum Computing Challengeis open to participants from research groups and companies worldwide. The challenge is organized into two rounds. In the first round, participants need to submit a well-documented concept proposal for one of four use case challenges, described below. In the second and final round, teams with the top three submissions in each use case will be asked to build out their solutions. The final, virtual presentation to the competitions judging panel, including domain experts from BMW and AWS will take place in December. The winners will be announced at theQ2B quantum computing industry conference(Dec. 79).
Source: Quantum Computing Inc. (QCI)
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QCI Qatalyst Selected by BMW Group and Amazon Web Services as a Finalist in the Quantum Computing Challenge - HPCwire
Will Quantum Computers Burst The Bitcoin Boom? – Forbes
PARIS, FRANCE - JUNE 25: In this photo illustration, a visual representation of the digital ... [+] Cryptocurrency, Bitcoin is displayed in front of the Bitcoin course's graph on June 25, 2019 in Paris, France.
Everyone was stunned when the new mayor of New York City Eric Adams announced he was planning to receive his first three paychecks in Bitcoin, the cryptocurrency thats been dominating the financial headlines for the past year. The mayor of Miami, Francis Suarez, had already announced he would accept his first paycheck 100% in Bitcoin.
The mayoral announcements are still more signs that cryptocurrencies are no longer esoteric investments for the super-rich (or super-crooks) but have entered the financial mainstream.Back in May Deutsche Bank pronounced Bitcoin the third biggest world currency in terms of circulation. Only the euro and the U.S. dollar are bigger.
Mayor Adams himself says he intends to make New York City the center of the cryptocurrency industry.
Of course, the history of markets teaches us that what goes up must eventually come downespecially a commodity like crypto, whose rise has been fueled as much by media hype as by financial realities. Whether the current crypto boom turns out to be a crypto bubble, is impossible to say. What Bitcoin and other cryptocurrencies do have going for them are two virtues.
The first is that they are not state-denominated currencies, whose heads around the world have turned out to be inept or corrupt or both.
The other is cryptocurrencys reliance on blockchain, or Distributed Ledger Technology (DLT), to protect and authenticate its transactions.The on-going ledger of cryptocurrency transactions is never stored in any single location, which means no centralized version exists for a hacker to corrupt.Since the data is hosted by millions of computers simultaneously, its accessible to anyone on the internet. But its also protected because after every transaction within the shared ledger; and once all the ledgers match for every computer in the network; the transaction is encrypted with the rest in whats known as a block. The new block is then added to existing previous blocks to form a chain of blockshence the term blockchain.
All in all, blockchain is a built-in security system that prohibits a hacker or attacker from forcing open the distributed ledger without everyone knowing it.
As tech guru George Gilder argues in his book, Life After Google, using blockchain to share but also protect data poses a greater threat to Big Tech dominance of the internet than any government regulation or legislationjust as cryptocurrencies pose a useful challenge to the elites who control our state-denominated currencies.
But as always theres a catch. Blockchain is an adequate safeguard against existing cyber threats, but not against the future one posed by large-scale quantum computers.
As I mentioned in a previous column, blockchains encryption is based on Elliptical Curve Cryptography, which will be vulnerable to factorization by quantum computers that can decrypt the complex algorithms used by asymmetric encryption systems to secure almost all electronic data, including blockchain.The quantum attacker will simply look like another member of the shared ledger, in a cyber assault that will be undetectable and persistent.
CHICAGO, IL - DECEMBER 19: Traders trade VIX contracts at the Cboe Global Markets exchange ... [+] (previously referred to as CBOE Holdings, Inc.) on December 19, 2017 in Chicago, Illinois. Last week the exchange became the first in the Unites States to begin trading Bitcoin futures. (Photo by Scott Olson/Getty Images)
How vulnerable will cryptocurrencies like Bitcoin be?
Consider: in 2020 the total market cap of cryptocurrencies was $330 billion. Today it is approaching $2 trillion. Institutional investors account for 63% of trading in cryptos, compared to just 10% in 2017, which means a collapse of crypto value is bound to ripple through balance sheets all around Wall Street-and around the world.
Our most recent study conducted here at the Quantum Alliance Initiative done in conjunction with the econometric firm Oxford Economics indicates that a quantum attack on crypto precipitating a 99.2% collapse of value, would inflict $1.865 Trillion in immediate losses to owners, with nearly $1.5 trillion in indirect losses to the whole economy due to that collapse.
All in all, we are looking at a $3.3 trillion blow to the U.S. economy.
Thats a calculation based on cryptos current value. By the time a large-scale quantum computer emerges, by 2030 or so, cryptocurrencies will be even more imbedded in the global financial systemand the losses even greater.
Fortunately, theres a solution. The most immediate is post-quantum cryptography, i.e., deploying algorithm-based encryption that is impenetrable to future quantum attack but also to classical attack right now. Crypto exchanges have already drawn highly damaging attacks, like the one in 2018 on Bithumb, the South Korean crypto-currency exchange, which cost $30 million, or the assault on Poly Network this past August in which cyber thieves stole more than $600 million.
BEIJING, Dec. 4, 2020 A research team including renowned Chinese quantum physicist Pan Jianwei on ... [+] Dec. 4, 2020 announced a significant computing breakthrough, achieving quantum computational advantage. (Photo by An Zhiping/Xinhua via Getty) (Xinhua/An Zhiping via Getty Images)
The National Institute for Standards and Technology (NIST) is working on standards for post-quantum cryptography for rollout starting in 2024, but there is no reason to wait.Companies in the USA and Canada can offer solutions now, including hybrid solutions that offer the best of both post-quantum and quantum-based technologieswhile others are creating versions of DLT that incorporates quantum solutions from the start.
Make no mistake; regardless of Bitcoin and Ethereums ups and downs in the current marketseven if a Bitcoin bubble burstscrypto currencies are here to stay.Quantum-safe solutions can make sure they are stable and secure for a long time to come.
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Will Quantum Computers Burst The Bitcoin Boom? - Forbes
Quantum Computing Market Research Report by Technology, by Deployment, by Offering, by End-Use, by Application, by Region – Global Forecast to 2026 -…
Quantum Computing Market Research Report by Technology (Quantum Annealing, Superconducting Qubits, and Topological and Photonic), by Deployment (Cloud-Based and On Premise), by Offering, by End-Use, by Application, by Region (Americas, Asia-Pacific, and Europe, Middle East & Africa) - Global Forecast to 2026 - Cumulative Impact of COVID-19
New York, Nov. 10, 2021 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Quantum Computing Market Research Report by Technology, by Deployment, by Offering, by End-Use, by Application, by Region - Global Forecast to 2026 - Cumulative Impact of COVID-19" - https://www.reportlinker.com/p06183451/?utm_source=GNW
The Global Quantum Computing Market size was estimated at USD 421.48 million in 2020 and expected to reach USD 509.61 million in 2021, at a CAGR 21.24% to reach USD 1,339.16 million by 2026.
Market Statistics:The report provides market sizing and forecast across five major currencies - USD, EUR GBP, JPY, and AUD. It helps organization leaders make better decisions when currency exchange data is readily available. In this report, the years 2018 and 2019 are considered historical years, 2020 as the base year, 2021 as the estimated year, and years from 2022 to 2026 are considered the forecast period.
Market Segmentation & Coverage:This research report categorizes the Quantum Computing to forecast the revenues and analyze the trends in each of the following sub-markets:
Based on Technology, the market was studied across Quantum Annealing, Superconducting Qubits, Topological and Photonic, and Trapped Ions.
Based on Deployment, the market was studied across Cloud-Based and On Premise.
Based on Offering, the market was studied across Consulting, Quantum Computing as a Service (QCaaS), Services, and Systems.
Based on End-Use, the market was studied across Banking & Finance, Banking and Finance, Chemicals, Energy and Power, Healthcare and Pharmaceuticals, and Space and Defense.
Based on Application, the market was studied across Machine Learning, Optimization, Quantum Chemistry, Quantum Finance, and Simulation.
Based on Region, the market was studied across Americas, Asia-Pacific, and Europe, Middle East & Africa. The Americas is further studied across Argentina, Brazil, Canada, Mexico, and United States. The United States is further studied across California, Florida, Illinois, New York, Ohio, Pennsylvania, and Texas. The Asia-Pacific is further studied across Australia, China, India, Indonesia, Japan, Malaysia, Philippines, Singapore, South Korea, Taiwan, and Thailand. The Europe, Middle East & Africa is further studied across France, Germany, Italy, Netherlands, Qatar, Russia, Saudi Arabia, South Africa, Spain, United Arab Emirates, and United Kingdom.
Cumulative Impact of COVID-19:COVID-19 is an incomparable global public health emergency that has affected almost every industry, and the long-term effects are projected to impact the industry growth during the forecast period. Our ongoing research amplifies our research framework to ensure the inclusion of underlying COVID-19 issues and potential paths forward. The report delivers insights on COVID-19 considering the changes in consumer behavior and demand, purchasing patterns, re-routing of the supply chain, dynamics of current market forces, and the significant interventions of governments. The updated study provides insights, analysis, estimations, and forecasts, considering the COVID-19 impact on the market.
Competitive Strategic Window:The Competitive Strategic Window analyses the competitive landscape in terms of markets, applications, and geographies to help the vendor define an alignment or fit between their capabilities and opportunities for future growth prospects. It describes the optimal or favorable fit for the vendors to adopt successive merger and acquisition strategies, geography expansion, research & development, and new product introduction strategies to execute further business expansion and growth during a forecast period.
FPNV Positioning Matrix:The FPNV Positioning Matrix evaluates and categorizes the vendors in the Quantum Computing Market based on Business Strategy (Business Growth, Industry Coverage, Financial Viability, and Channel Support) and Product Satisfaction (Value for Money, Ease of Use, Product Features, and Customer Support) that aids businesses in better decision making and understanding the competitive landscape.
Market Share Analysis:The Market Share Analysis offers the analysis of vendors considering their contribution to the overall market. It provides the idea of its revenue generation into the overall market compared to other vendors in the space. It provides insights into how vendors are performing in terms of revenue generation and customer base compared to others. Knowing market share offers an idea of the size and competitiveness of the vendors for the base year. It reveals the market characteristics in terms of accumulation, fragmentation, dominance, and amalgamation traits.
Competitive Scenario:The Competitive Scenario provides an outlook analysis of the various business growth strategies adopted by the vendors. The news covered in this section deliver valuable thoughts at the different stage while keeping up-to-date with the business and engage stakeholders in the economic debate. The competitive scenario represents press releases or news of the companies categorized into Merger & Acquisition, Agreement, Collaboration, & Partnership, New Product Launch & Enhancement, Investment & Funding, and Award, Recognition, & Expansion. All the news collected help vendor to understand the gaps in the marketplace and competitors strength and weakness thereby, providing insights to enhance product and service.
Company Usability Profiles:The report profoundly explores the recent significant developments by the leading vendors and innovation profiles in the Global Quantum Computing Market, including 1QB Information Technologies Inc., Amazon, Amgen Inc, Anyon Systems Inc, Cambridge Quantum Computing Ltd, D-Wave Systems, Google, Honeywell International, Intel, International Business Machines, IonQ Inc., Microsoft, QC Ware, Quantum Circuits, Rigetti Computing, and River Lane Research.
The report provides insights on the following pointers:1. Market Penetration: Provides comprehensive information on the market offered by the key players2. Market Development: Provides in-depth information about lucrative emerging markets and analyze penetration across mature segments of the markets3. Market Diversification: Provides detailed information about new product launches, untapped geographies, recent developments, and investments4. Competitive Assessment & Intelligence: Provides an exhaustive assessment of market shares, strategies, products, certification, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players5. Product Development & Innovation: Provides intelligent insights on future technologies, R&D activities, and breakthrough product developments
The report answers questions such as:1. What is the market size and forecast of the Global Quantum Computing Market?2. What are the inhibiting factors and impact of COVID-19 shaping the Global Quantum Computing Market during the forecast period?3. Which are the products/segments/applications/areas to invest in over the forecast period in the Global Quantum Computing Market?4. What is the competitive strategic window for opportunities in the Global Quantum Computing Market?5. What are the technology trends and regulatory frameworks in the Global Quantum Computing Market?6. What is the market share of the leading vendors in the Global Quantum Computing Market?7. What modes and strategic moves are considered suitable for entering the Global Quantum Computing Market?Read the full report: https://www.reportlinker.com/p06183451/?utm_source=GNW
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Quantum Computing Inc. to Present at the ROTH 10th Annual – GlobeNewswire
LEESBURG, Va., Nov. 10, 2021 (GLOBE NEWSWIRE) -- Quantum Computing Inc. (QCI) (Nasdaq: QUBT), a leader in bridging the power of classical and quantum computing, has been invited to present at the ROTH 10th Annual Technology Event being held virtually on November 17-18.
QCI CEO Robert Liscouski is scheduled to present and participate in one-on-one meetings with institutional analysts and investors at the conference. He will be joined by the companys CFO, Chris Roberts.
Management will discuss the companys flagship Qatalyst ready-to-run quantum software and how it allows businesses to affordably solve mission-critical problems with quantum-enhanced classical computing, from supply chain, logistics, and transportation to drug discovery, cybersecurity and more.
Qatalyst is the first software to bridge the power of classical and quantum computing. It has accelerated the value of quantum computing for real-world business solutions by minimizing complexity and empowering subject matter experts (SMEs) to solve complex computational problems. Qatalyst launched earlier this year as a software-as-a-service (SaaS) on AWS.
This conference presents a great opportunity to discuss Qatalysts commercial applications and ability to solve challenging business problems, stated Liscouski. As the only public pure-play quantum software company, QCI is well positioned to be a key player in the quantum space, given the unique power of Qatalyst and how its now easily accessible via AWS.
Demonstrating the strengthening trends in quantum computing and AWS commitment to the space, last week Amazon announced the opening of the AWS Center for Quantum Computing in Pasadena, California, where it plans to build a fault-tolerant quantum computer. QCI anticipates it will be accessible via AWS Braket quantum computing services and easily programmable via Qatalyst SaaS.
You can learn more about Qatalyst on AWS by listening to the podcast hosted by Provitit here, which featured guest speakers Richard Moulds, general manager of Amazon Braket, AWS, and Liscouski.
To schedule a one-on-one meeting with QCI at ROTH, you may submit your request online via the link provided upon registration. For more information about the event or questions about registration, please contact your ROTH representative.
For any questions aboutQCI, please contactRon Bothof CMA at (949) 432-7557 or submit your requesthere.
About Quantum Computing Inc.Quantum Computing Inc. (QCI) (Nasdaq: QUBT) is focused on accelerating the value of quantum computing for real-world business solutions. The companys flagship product, Qatalyst, is the first software to bridge the power of classical and quantum computing, minimizing complexity and empowering SMEs to solve complex computational problems today. QCIs expert team in finance, computing, security, mathematics and physics has over a century of experience with complex technologies; from leading edge supercomputing innovations, to massively parallel programming, to the security that protects nations. Connect with QCI on LinkedIn and @QciQuantum on Twitter. For more information about QCI, visit http://www.quantumcomputinginc.com.
Company Contact:Robert Liscouski, CEOQuantum Computing, Inc.+1 (703) 436-2161Email Contact
Investor Relations Contact:Ron Both or Justin LumleyCMA Investor Relations+1 (949) 432-7566Email Contact
Media Relations Contact:Bob GellerFusion Public Relations+1 (917) 816-0562qci@fusionpr.com
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Quantum Computing Inc. to Present at the ROTH 10th Annual - GlobeNewswire
QCI Qatalyst Selected by BMW Group and Amazon Web Services – GlobeNewswire
LEESBURG, Va., Nov. 09, 2021 (GLOBE NEWSWIRE) -- Quantum Computing Inc. (Nasdaq: QUBT), a leader in bridging the power of classical and quantum computing, announced that its Qatalyst ready-to-run quantum software was selected as one of three finalists for the second and final round of the BMW Group and Amazon Web Services (AWS) Quantum Computing Challenge for the Vehicle Sensor Placement use case.
The Quantum Computing Challenge invited the quantum community to apply innovations in quantum computing to real world problems in industrial applications. The use case problems presented in the challenge represent critical commercial applications that demonstrate the real-world value of quantum computing.
BMW stated that its goal with the challenge is to tap into additional innovative power, inspire new thinking, and create opportunities for quantum builders to work with BMW on meaningful business problems.
The Vehicle Sensor Placement use case challenges participants to find optimal configurations of sensors for a given vehicle so that it can reliably detect obstacles in different driving scenarios using quantum computing or nature-inspired optimization approaches. The number of sensors per car is expected to increase significantly as autonomous driving becomes more common. Vehicles need sensors to gather data from as large a portion of their surroundings as possible, but each sensor adds additional costs, so optimizing the sensor placement uses genetic algorithms. The goal of the challenge is to use quantum computing techniques to optimize the positions of sensors, enabling maximum coverage while keeping costs to a minimum.
This Challenge is yet another step in showcasing quantum computings potential for commercial applications and real-world business problem solving, said Bob Liscouski, CEO of QCI. We are pleased that we have been selected to participate in the final level of competition, and our team will work hard to demonstrate the power of Qatalyst. Regardless of the final outcome, we believe that the applications for quantum computing will significantly increase over the coming years, and QCI is well positioned to be a key player.
About Quantum Computing Inc.Quantum Computing Inc. (QCI) (Nasdaq: QUBT) is focused on accelerating the value of quantum computing for real-world business solutions. The companys flagship product, Qatalyst, is the first software to bridge the power of classical and quantum computing, hiding complexity and empowering SMEs to solve complex computational problems today. QCIs expert team in finance, computing, security, mathematics and physics has over a century of experience with complex technologies; from leading edge supercomputing innovations, to massively parallel programming, to the security that protects nations. Connect with QCI on LinkedIn and @QciQuantum on Twitter. For more information about QCI, visit http://www.quantumcomputinginc.com.
About the BMW Group Quantum Computing ChallengeThe BMW Group Quantum Computing Challengeis open to participants from research groups and companies worldwide. The challenge is organized into two rounds. In the first round, participants need to submit a well-documented concept proposal for one of four use case challenges. In the second and final round, teams with the top three submissions in each use case will be asked to build out their solutions. The final, virtual presentation to the competitions judging panel, including domain experts from BMW and AWS will take place in December. The winners will be announced at theQ2B quantum computing industry conference(Dec. 79).
Important Cautions Regarding Forward-Looking Statements
This press release contains forward-looking statements as defined within Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended. By their nature, forward-looking statements and forecasts involve risks and uncertainties because they relate to events and depend on circumstances that will occur in the near future. Those statements include statements regarding the intent, belief or current expectations of Quantum Computing (Company), and members of its management as well as the assumptions on which such statements are based. Prospective investors are cautioned that any such forward-looking statements are not guarantees of future performance and involve risks and uncertainties, and that actual results may differ materially from those contemplated by such forward-looking statements.
The Company undertakes no obligation to update or revise forward-looking statements to reflect changed conditions. Statements in this press release that are not descriptions of historical facts are forward-looking statements relating to future events, and as such all forward-looking statements are made pursuant to the Securities Litigation Reform Act of 1995. Statements may contain certain forward-looking statements pertaining to future anticipated or projected plans, performance and developments, as well as other statements relating to future operations and results. Any statements in this press release that are not statements of historical fact may be considered to be forward-looking statements. Words such as may, will, expect, believe, anticipate, estimate, intends, goal, objective, seek, attempt, aim to, or variations of these or similar words, identify forward-looking statements. These risks and uncertainties include, but are not limited to, those described in Item 1A in the Companys Annual Report on Form 10-K, which is expressly incorporated herein by reference, and other factors as may periodically be described in the Companys filings with the SEC.
Qatalyst is the trademark of Quantum Computing Inc. All other trademarks are the property of their respective owners.
Company Contact:Robert Liscouski, CEOQuantum Computing, Inc.+1 (703) 436-2161Email Contact
Investor Relations Contact:Ron Both or Grant StudeCMA Investor Relations+1 (949) 432-7566Email Contact
Media Relations Contact:Bob GellerFusion Public Relations+1 (917) 816-0562qci@fusionpr.com
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QCI Qatalyst Selected by BMW Group and Amazon Web Services - GlobeNewswire