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Category Archives: Quantum Computing
The Fourth Industrial Revolution AI, Quantum, and IoT Impacts on Cybersecurity – Security Boulevard
Posted: February 18, 2021 at 2:20 pm
Technology changes at a breakneck pace, and to be of any use, the security we rely on to protect that technology must change alongside it.
Cybersecurity solutions, in particular, must keep up with the evolving needs of hybrid enterprise networks that connect an ever-expanding mesh of cloud devices, on-prem legacy hardware and everything in between.
The next cybersecurity challenge lies with the advances in quantum computing that are set to revolutionize tech while simultaneously equipping threat actors with a new arsenal of cyberweapons.
The fourth industrial revolution is upon us. Its a bold claim are we really about to usher in an era as potentially impactful as the steam engine, the age of science and mass production and the initial rise of digital technology?
Well, yes. According to several high-profile industry experts who spoke at the Consumer Electronics Show (CES) 2021, advances in artificial intelligence (AI) and quantum computing are set to fundamentally change the way the world engages with technology.
As an emerging concept, the high-level technology industry has yet to arrive at a fully-consistent definition, but widespread consensus points to a focus on several key elements. The fourth industrial revolution will be marked by fundamental advances and interconnectivity between fields like:
Tying them all together is quantum computing, which we can define aswell, its not particularly simple to explain quantum computing for most of us. Even MIT, while trying to explain it like were five years old, refers to quantum computing as technology that harnesses some of the almost-mystical phenomena of quantum mechanics.
Still, its good to develop a high-level understanding so that we can view the impact on cybersecurity within a more informed context. The MIT explainer referenced above offers a relatively-accessible introduction, as does this Microsoft Azure guide. Without diving deep into a course on qubits, superposition and entanglement, however, we can also gain insight by considering how enterprises are already using quantum computing.
Volkswagen and Daimler, for example, are using quantum supercomputers to improve electric vehicle batteries based on chemical simulations. Simulating, at a molecular level, the behavior of matter is one way we will fundamentally change our approach to problem-solving in the age of quantum computing.
Quantum computing is based on technology weve yet to fully harness. However, the same constant remains true when it comes to bad actors: whatever the good guys understand about quantum computing, the bad guys do, too.
Unfortunately, there will always be an army of cyber criminals standing by, ready to apply their knowledge and talents to nefarious activity. Its safe to say that vulnerabilities will plague quantum systems just as theyve plagued every other next generation system.
In order for cybersecurity solutions to adequately guard quantum networks, they will need to address several key factors:
While each of these issues will require specific high-level and granular solutions, networks equipped with true self-learning AI capabilities will fare better when monitoring network activity, even as it occurs at whirlwind, quantum speeds.
MixModes predictive, proactive, efficient AI gives organizations a fighting chance at combating modern actors. Rules-based approaches are doomed to fail against cyberthreats in the quantum space.
On one level, its a simple matter of speed. The systems of tomorrow (and many of the systems of today) will move too quickly for modern SOCs to keep their security platforms up-to-date. Context-aware AI must live within enterprise systems in order to detect anomalies as they occur in such rapidly changing environments.
MixMode is ready to face quantum threats by thriving within quantum networks. MixMode is data- and feed-agnostic it can operate effectively and independently regardless of data format and type.
As systems rapidly expand and scale to allow for the increased data inputs organizations will need to monitor. For example, we can expect an influx of 5G-enabled IoT sensors and increased remote connections among a workforce forever changed by the 2020 pandemic.
Because MixModes third-wave, self-supervised AI doesnt need constant babysitting or continual rules-tweaking, the platform will protect quantum systems with an approach proven to identify threats and anomalies in network traffic, log systems, API, time-series, cloud data, and beyond.
Learn more about MixMode and set up a demo today.
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The Fourth Industrial Revolution AI, Quantum, and IoT Impacts on Cybersecurity - Security Boulevard
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PQShield publishes white paper series to educate business leaders on the quantum threat to information security – PRNewswire
Posted: at 2:20 pm
LONDON and OXFORD, England, Feb. 17, 2021 /PRNewswire/ -- PQShield, the cybersecurity company specialising in post-quantum cryptography, has today published a series of white papers explaining the quantum threat to information security and outlining the solutions that will help organisations to protect their sensitive information for the future.
When full-scale quantum computers arrive, they will be able to break the public-key encryption widely relied on to protect sensitive data, accessing all digital information - past, present and future. Knowing the sheer scale of the quantum security threat, engineers and scientists around the world have been working to develop a new generation of encryption - post-quantum cryptography - that will enable organisations to protect their sensitive data now and for years to come.
Based in Oxford, PQShield is helping businesses prepare for the quantum threat, pioneering the development and commercial roll-out of advanced, quantum-ready cryptographic solutions for hardware, software and communications. With one of the UK's highest concentrations of cryptography PhDs outside academia and the classified sector, the PQShield team is a leading contributor to NIST's post-quantum cryptography standardisation project, now in its concluding stages, having contributed two of the seven finalist algorithms.
Designed to educate and inform security and technical teams across every type of organisation, the new white paper series covers three topics:
To read more, visit: https://pqshield.com/quantum-threat/
About PQShield
PQShield is a cybersecurity startup that specialises in post-quantum cryptography, protecting information from today's attacks while readying organisations for the threat landscape of tomorrow. It is the only cybersecurity company that can demonstrate quantum-safe cryptography on chips, in applications and in the cloud. Headquartered in Oxford, its quantum-secure cryptographic solutions work with companies' legacy systems to protect devices and sensitive data now and for years to come. PQShield is principally backed by Kindred Capital, Crane Venture Partners, Oxford Sciences Innovation, and InnovateUK.
Press contact: [emailprotected]
SOURCE PQShield
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The global quantum computing race has begun. What will it take to win it? – ZDNet
Posted: February 10, 2021 at 1:09 pm
The UK is now facing a huge challenge: after having secured a top spot in the quantum race, retaining the country's status is going to require some serious stepping up.
National quantum programs and decade-long quantum strategies are increasingly being announced by governments around the world. And as countries unlock billions-worth of budgets, it is becoming clear that a furious competition is gradually unrolling. Nations want to make sure that they are the place-to-be when quantum technologies start showing some real-world value and the UK, for one, is keen to prove that it is a quantum hotspot in the making.
"We have a very successful program that is widely admired and emulated around the world," said Peter Knight, who sits on the strategic advisory for the UK's national quantum technology program (NQTP), as he provided a virtual update on the NQTP's performance so far.
Speaking at an online conference last month, Knight seemed confident. The UK, said the expert, in line with the objectives laid out in the program, is on track to become "the go-to place" for new quantum companies to start, and for established businesses to base all manners of innovative quantum activities.
SEE: Hiring Kit: Computer Hardware Engineer (TechRepublic Premium)
The UK is just over halfway through the NQTP, which saw its second five-year phase kick off at the end of 2019, and at the same timehit an impressive milestone of 1 billion ($1.37 billion) combined investment. This, the government claims, is letting the UK keep pace with competitors who are also taking interest in quantum namely, the US and China.
There is no doubt that the country has made strides in the field of quantum since the start of the NQTP. New ground-breaking research papers are popping up on a regular basis, and so are news reports of rounds of funding from promising quantum startups.
But with still just under half of the national quantum program to carry out, and despite the huge sums already invested, the UK is now facing a bigger challenge yet: after having chased a top spot in the quantum race, retaining the country's status in the face of ferocious competition is going to require some serious stepping up.
Clearly playing in favor of the UK is the country's early involvement in the field. The NQTP was announced as early as 2013, and started operating in 2014, with an initial 270 million ($370 million) budget. The vision laid out in the program includes creating a "quantum-enabled economy", in which the technology would significantly contribute to the UK's economy and attract both strong investment and global talent.
"The national program was one of the first to kick off," Andrew Fearnside, senior associate specializing in quantum technologies at intellectual property firm Mewburn Ellis, tells ZDNet. "There are increasingly more national programs emerging in other countries, but they are a good few years behind us. The fact that there has been this sustained and productive long-term government initiative is definitely attractive."
The EU's Quantum Technologies Flagship, in effect,only launched in 2018; some countries within the bloc,like France, started their own quantum roadmaps on top of the European initiative even later. Similarly, the National Quantum Initiative Act wassigned into law by the Trump administration but that was also in 2018, years into the UK's national quantum technology program.
Since it launched in 2014, there has been abundant evidence of the academic successes of the initial phase of the NQTP. In Birmingham, the Quantum Sensing Hub is developing new types of quantum-based magnetic sensors that could help diagnose brain and heart conditions, while the Quantum Metrology Institute leads the development of quantum atomic clocks. There are up to 160 research groups and universities registered across the UK withprograms that are linked to quantum technologies, working on projects ranging from the design of quantum algorithms to the creation of new standards and verification methods.
A much harder challenge, however, is to transform this strong scientific foundation into business value and as soon as the UK government announced the second phase of the NQTP at the end of 2019,a clear messageemerged: quantum technology needed to come out of the lab, thanks to increased private sector investment that would accelerate commercialization.
Some key initiatives followed. A national quantum computing center was established for academics to work alongside commercial partners such as financial services company Standard Chartered, "possibly with an eye on financial optimization problems," notes Fearnside, given the business'established interest in leveraging quantum technologies. A 10 million ($13 million) "Discovery" program alsolaunched a few months ago, bringing together five quantum computing companies, three universities and the UK's national physical laboratory all for the purpose of making quantum work for businesses.
The government's efforts have been, to an extent, rewarded. The quantum startup ecosystem is thriving in the UK, with companies like Riverlane or Cambridge Quantum Computing completing strong rounds of private financing. In total, up to 204 quantum-related businesses have been listed so far in the country.
But despite these encouraging results, the UK is still faced with a big problem. Bringing university-born innovation to the real worldhas always been a national challenge, and quantum is no exception. A 2018 report from the Science and Technology committee, in fact,gave an early warning of the stumbling blocksthat the NQTP might run into, and stressed the need for improved awareness across industry of the potential of quantum technologies.
The committee urged the government to start conveying the near-term benefits that quantum could provide to businesses something that according to the report, CEOs and company chairs in North America worryingly seem to realize a whole lot better.
It's been three years since the report was published, and things haven't changed much. Speaking at the same forum as the NQTP's Peter Knight, Ian West, a partner at consultancy firm KPMG, said that there remained a huge barrier to the widespread take-up of quantum technologies in the UK. "Some of our clients feel they don't understand the technology, or feel it's one for the academics only," he argued.
"We need that demand from businesses who will be the ultimate users of quantum technologies, to encourage more investment," West added. "We need to do much more to explain the near-term and medium-term use cases for business applications of quantum technologies."
SEE: BMW explores quantum computing to boost supply chain efficiencies
Without sufficient understanding of the technology, funding problems inevitably come. The difficulty of securing private money for quantum stands in stark contrast to the situation across the Atlantic, where investors have historically done a better job of spotting and growing successful technology companies. Add the deep pockets of tech giants such as Google, IBM or Microsoft, which are all pouring money into quantum research, and it is easy to see why North America might have better prospects when it comes to winning the quantum game.
In the worst of cases, this has led to US technology hubs hoovering up some of the best quantum brains in the UK. In 2019, for example, PsiQ, a promising startup that was founded at the University of Bristol with the objective of producing a commercial quantum computer, re-located to Silicon Valley. The movewas reported to be partly motivated by a lack of access to capital in Europe. It was a smart decision: according to the company's latest update, PsiQ hasnow raised $215 million (156 million) in VC funding.
Pointing to the example of PsiQ, Simon King, partner and deep tech investor at VC firm Octopus Ventures, explains that to compete against the US, the UK needs to up its game when it comes to assessing the startups that show promise, and making sure that they are injected with adequate cash.
"The US remains the biggest competitor, with a big concentration of universities and academics and the pedigree and culture of commercializing university research," King tells ZDNet. "Things are definitely moving in the right direction, but the UK and Europe still lag behind the US, where there is a deeper pool of capital and there are more investors willing to invest in game-changing, but long-term technology like quantum."
US-based private investors are only likely to increase funding for the quantum ecosystem in the coming years, and significant amounts of public money will be backing the technology too. The National Quantum Initiative Act that was signed in 2018 came with $1.2 billion (870 million) to be invested in quantum information science over the next five years; as more quantum companies flourish, the budget can be expected to expand even further.
Competition will be coming from other parts of the world as well. In addition to the European Commission's 1 billion ($1.20 billion) quantum flagship, EU countries are also spending liberally on the technology. Germany, in particular, has launched a 2 billion ($2.4 billion) funding program for the promotion of quantum technologies in the country, surpassing by far many of its competitors; but France, the Netherlands, and Switzerland are all increasingly trying to establish themselves as hubs for quantum startups and researchers.
SEE: Less is more: IBM achieves quantum computing simulation for new materials with fewer qubits
Little data is available to measure the scope of the commercialization of quantum technology in China, but the country has made no secret of its desire to secure a spot in the quantum race, too. The Chinese government has ramped up its spending on research and development, and the impact of that investment has already shown in the countryachieving some significant scientific breakthroughs in the field.
In the midst of this ever-more competitive landscape, whether the UK can effectively distinguish itself as the "go-to place" for quantum technologies remains to be seen. One thing is for certain: the country has laid some very strong groundwork to compete. "The UK has some genuinely world-class universities with some really brilliant academics, so while the objective is certainly ambitious, it's not out of the question," argues King.
But even top-notch researchers and some of the most exciting quantum startups might not cut it. The UK has positioned itself well from an early stage in the quantum race, but becoming a frontrunner was only one part of the job. Preserving the country's position for the coming years might prove to be the hardest challenge yet.
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The Quantum Computing market is expected to grow from USD 472 million in 2021 to USD 1,765 million by 2026, at a CAGR of 30.2% – Yahoo Finance
Posted: at 1:09 pm
The early adoption of quantum computing in the banking and finance sector is expected to fuel the growth of the market globally. Other key factors contributing to the growth of the quantum computing market include rising investments by governments of different countries to carry out research and development activities related to quantum computing technology.
New York, Feb. 10, 2021 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Quantum Computing Market with COVID-19 impact by Offering, Deployment, Application, Technology, End-use Industry and Region - Global Forecast to 2026" - https://www.reportlinker.com/p05064748/?utm_source=GNW Several companies are focusing on the adoption of QCaaS post-COVID-19. This, in turn, is expected to contribute to the growth of the quantum computing market. However, stability and error correction issues is expected to restrain the growth of the market.
Services segment is attributed to hold the largest share of the Quantum Computing marketThe growth of services segment can be attributed to the increasing number of startups across the world that are investing in research and development activities related to quantum computing technology. This technology is used in optimization, simulation, and machine learning applications, thereby leading to optimum utilization costs and highly efficient operations in various end-use industries.
Cloud based deployment to witness the highest growth in Quantum Computing market in coming yearsWith the development of highly powerful systems, the demand for cloud-based deployment of quantum computing systems and services is expected to increase.This, in turn, is expected to result in a significant revenue source for service providers, with users paying for access to noisy intermediate-scale quantum (NISQ) systems that can solve real-world problems.
The limited lifespan of rapidly advancing quantum computing systems also favors cloud service providers.The flexibility of access offered to users is another factor fueling the adoption of cloud-based deployment of quantum computing systems and services.
For the foreseeable future, quantum computers are expected not to be portable. Cloud can provide users with access to different devices and simulators from their laptops.
Optimization accounted for a major share of the overall Quantum Computing marketOptimization is the largest application for quantum computing and accounted for a major share of the overall Quantum Computing market.Companies such as D-Wave Systems, Cambridge Quantum Computing, QC Ware, and 1QB Information Technologies are developing quantum computing systems for optimization applications.
Networked Quantum Information Technologies Hub (NQIT) is expanding to incorporate optimization solutions for resolving problems faced by the practical applications of quantum computing technology.
Trapped ions segment to witness highest CAGR of Quantum Computing market during the forecast periodThe trapped ions segment of the market is projected to grow at the highest CAGR during the forecast period as quantum computing systems based on trapped ions offer more stability and better connectivity than quantum computing systems based on other technologies. IonQ, Alpine Quantum Technologies, and Honeywell are a few companies that use trapped ions technology in their quantum computing systems.
Banking and finance is attributed to hold major share of Quantum Computing market during the forecast periodIn the banking and finance end-use industry, quantum computing is used for risk modeling and trading applications.It is also used to detect the market instabilities by identifying stock market risks and optimize the trading trajectories, portfolios, and asset pricing and hedging.
As the financial sector is difficult to understand; the quantum computing approach is expected to help users understand the complexities of the banking and finance end-use industry. Moreover, it can help traders by suggesting them solutions to overcome financial challenges.
APAC to witness highest growth of Quantum Computing market during the forecast periodAPAC region is a leading hub for several industries, including healthcare and pharmaceuticals, banking and finance, and chemicals.Countries such as China, Japan, and South Korea are the leading manufacturers of consumer electronics, including smartphones, laptops, and gaming consoles, in APAC.
There is a requirement to resolve complications in optimization, simulation, and machine learning applications across these industries.The large-scale development witnessed by emerging economies of APAC and the increased use of advanced technologies in the manufacturing sector are contributing to the development of large and medium enterprises in the region.
This, in turn, is fueling the demand for quantum computing services and systems in APAC.In APAC, the investments look promising, as most countries such as China, Japan, and South Korea have successfully contained the virus compared with the US and European countries.China is easing the restrictions placed on factory lockdowns and worker movement.
Despite being the epicenter of COVID-19, China has maintained its dominant position as a global network leader.
The break-up of primary participants for the report has been shown below: By Company Type: Tier 1 - 18%, Tier 2 - 22%, and Tier 3 - 60% By Designation: C-level Executives - 21%, Manager Level - 35%, and Others - 44% By Region: North America - 45%, Europe - 38%, APAC - 12%, and RoW - 5%
The Quantum Computing market was dominated by International Business Machines (US), D-Wave Systems (Canada), Microsoft (US), Amazon (US), and Rigetti Computing (US).
Research Coverage:This research report categorizes the Quantum Computing based on offering, deployment, application, technology, end-use industry and region. The report describes the major drivers, restraints, challenges, and opportunities pertaining to the Quantum Computing market and forecasts the same till 2026.
Key Benefits of Buying the Report
The report would help leaders/new entrants in this market in the following ways:1. This report segments the Quantum Computing market comprehensively and provides the closest market size projection for all subsegments across different regions.2. The report helps stakeholders understand the pulse of the market and provides them with information on key drivers, restraints, challenges, and opportunities for market growth.3. This report would help stakeholders understand their competitors better and gain more insights to improve their position in the business. The competitive landscape section includes product launches and developments, partnerships, and collaborations.4. This report would help understand the pre and post-COVID-19 scenarios as to how would the penetration of quantum computing will look like for the forecast period. The region segment includes the country wise impact analysis of COVID-19 and initiatives taken to overcome these impacts.
Read the full report: https://www.reportlinker.com/p05064748/?utm_source=GNW
About ReportlinkerReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.
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Danna Freedman to Discuss Applications of Quantum Technology at AAAS Annual Meeting, Feb. 8-11 – HPCwire
Posted: at 1:09 pm
Feb. 9, 2021 Northwestern Universitys Danna Freedman will share novel insights on quantum chemistrys ability to unlock access to molecules and open new fields of study at the American Association for the Advancement of Science (AAAS) annual meeting.
Freedman is a founding member of Q-NEXT, a transformative 100-person cross-institutional Department of Energy National Quantum Information Science Research Center at the Argonne National Laboratory.
Freedmans research approaches quantum systems from the bottom up rather than building quantum bits from the same components as everyday electronics will enable the creation of next-generation quantum technology.
Molecular chemistry enables a new paradigm for creating quantum information systems from the ground up, Freedman said. Molecules enable the construction of complex architectures by conferring structural precision and reproducibility.
Freedman will discuss this work in her presentation Molecular Quantum Information Technology: A New Way to Access Quantum Computers during a group scientific session called Designer Molecules: Understanding and Utilizing Their Quantum Nature.
Participants can register for the virtual 2021 AAAS Annual Meeting, which will take place Feb. 8 to 11, here.
Freedman, a professor of chemistry in the Weinberg College of Arts and Sciences at Northwestern, applies synthetic inorganic chemistry to overcome fundamental obstacles in physics and energy research.
Molecules are critical to our understanding of some of sciences most fundamental questions such as the Big Bang, star formation and access to quantum computing techniques. However, researchers have long considered molecules as too complex to study effectively.
Freedmans research challenges this assumption and paves the way for new understandings of molecules in ways that previously seemed impossible. Her cross-disciplinary team chemically synthesizes molecules that encode quantum information into their magnetic, or spin, states.
Source: NORTHWESTERN UNIVERSITY
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UN Intl Day of Women and Girls in Science to Address Women Scientists Leading the COVID-19 Fight – HPCwire
Posted: at 1:09 pm
Feb. 10, 2021 The outbreak of the COVID-19 pandemic has clearly demonstrated the critical role of women researchers in different stages of the fight against COVID-19, from advancing the knowledge on the virus, to developing techniques for testing, and finally to creating the vaccine against the virus.
At the same time, the COVID-19 pandemic also had a significant negative impact on women scientists, particularly affecting those at the earlystages of their career, and thus contributing to widening the existing gender gap in science, and revealing the gender disparities in the scientific system, which need to be addressed by new policies, initiatives and mechanisms to support women and girls in science.
Against this backdrop, this years celebration of the Day will address the theme Women Scientists at the forefront of the fight against COVID-19and will gather together experts working in fields related to the pandemic from different parts of the world.
The 2021 main event will take place online. A simultaneous interpretation of the debates will be provided in English and French.
On 11 February 2021,the 6th International Day of Women and Girls in Science Assemblywill be held at the United Nations Headquarters virtually. With great momentum and interest to accelerate progress in achieving the 2030 Development Agenda and its 17 Global Goals, the 6th International Day of Women and Girls in Science Assembly theme will be Beyond the Borders: Equality in Science for Society, with a special focus on the value of the social aspects and cultural dimensions in Science, Technology and Innovation to enhance sustainable development programmes.
Science and gender equality are both vital for the achievement of the internationally agreed development goals, including the2030 Agenda for Sustainable Development. Over the past 15 years, the global community has made a lot of effort in inspiring and engaging women and girls in science. Yet women and girls continue to be excluded from participating fully in science.
At present,less than 30 per centof researchers worldwide are women. According toUNESCO data(2014 2016), only around 30 per cent of all female students select STEM-related fields in higher education. Globally, female students enrolment is particularly low in ICT (3 per cent), natural science, mathematics and statistics (5 per cent) and in engineering, manufacturing and construction (8 per cent).
Long-standing biases and gender stereotypes are steering girls and women away from science related fields. As in the real world, the world on screen reflects similar biasesthe 2015Gender Bias Without Bordersstudy by the Geena Davis Institute showed that of the onscreen characters with an identifiable STEM job, only 12 per cent were women.
In order to achieve full and equal access to and participation in science for women and girls, and further achieve gender equality and the empowerment of women and girls, the United Nations General Assembly adoptedresolution A/RES/70/212declaring 11 February as theInternational Day of Women and Girls in Science.
Source: UN
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Core Scientific Extends its Leading Software in New HPC as-a-Service Offering from HPE – HPCwire
Posted: at 1:09 pm
BELLEVUE, Wash., Feb. 10, 2021 Core Scientific, a leading infrastructure and software solutions provider for artificial intelligence and blockchain led by CEO Kevin Turner, the former COO of Microsoft, today announced a partnership with Hewlett Packard Enterprise (HPE) to deliver its software solutions in the new HPE GreenLake cloud services for high performance computing (HPC).
HPE GreenLake cloud services for HPC will allow customers to combine the power of an agile, elastic, pay-per-use cloud experience with the some of the worlds most-proven, market-leading HPC solutions from HPE. By leveraging Core Scientifics Plexus for HPC in the new services from HPE, any enterprise can now tackle their most demanding compute and data-intensive workloads using modeling and simulation capabilities to speed time to insight, and create new products and experiences through a flexible, as-a-service platform that customers can run on-premises or in a colocation facility.
In the initial HPC service, HPE will feature HPE Apollo systems, combined with storage and networking technologies, which are purpose-built for running modeling and simulation workloads, and make available Core Scientifics Plexus as an option for HPC workload management, support for HPC-specific containers and orchestration, and HPC application management and monitoring.
Core Scientific Plexus proprietary technology will be available in in the new HPE GreenLake cloud services portfolio to power multi-cloud platforms and provide workload management, containers orchestration, and HPC application management and monitoring in an agnostic way, said Ian Ferreira, Chief Product Officer of Artificial Intelligence. We are delighted that HPE selected Core Scientific to help support such a game-changing IT model and deliver the cloud experience everywhere.
HPC workloads and AI are converging to create solutions that span across a range of industries, from performing seismic analysis in the oil and gas field, to calculating complex risks in financial markets for more informed decision-making. More recently, HPC and AI have been the key pillars in propelling research in fields such as life sciences and pharmaceuticals, with AI being integrated into HPC workflows to solve molecular genetic codes of viruses like COVID-19 and aid drug discovery efforts.
To learn more about Core Scientifics AI operations, please visit https://www.corescientific.com/ai.
About Core Scientific
Core Scientific equips and enables data scientists to take on the worlds most advanced AI challenges. Through delivery of high-end leading-edge AI hardware infrastructure in a near-cloud environment and delivering best-in-class software tooling to streamline AI workflows, Core Scientific delivers the ease of public cloud with benefits of colocation. To learn more, visit http://www.corescientific.com.
Source: Core Scientific
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Core Scientific Extends its Leading Software in New HPC as-a-Service Offering from HPE - HPCwire
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Strathclyde leads team advancing 3D imaging deep in biological tissue – University of Strathclyde
Posted: at 1:09 pm
The University of Strathclyde is leading a team developing a new technique enabling 3D imaging of even the most fragile and delicate specimens.
The project has received a grant of 187,000 from QuantIC, the UK Quantum Technology Hub in Quantum Enhanced Imaging. The funding is the first award to be made from the Hubs Accelerated Development Fund.
Many pioneering advances in medicine and biology require observation of the microscopic world with high resolution and without damaging the specimen. One of the most widespread techniques used for this purpose is multiphoton fluorescence microscopy, which allows full 3D imaging via optical sectioning - imaging of planes within the sample, without the need for physical slicing. The project will focus on overcoming a major limitation of this technique.
Dr Lucia Caspani, a Chancellors Fellow with Strathclydes Institute of Photonics, is leading the research. She said: The current issue with multiphoton fluorescence microscopy resides in the excitation of fluorescence. The lasers required are so powerful that they can damage or alter delicate biological samples.
In our project, we aim to exploit the unique properties of quantum entanglement to improve the probability of exciting fluorescence by several orders of magnitude. We expect our quantum enhanced microscope to require illumination powers around 1000 times lower than the classical counterpart, enabling 3D imaging of even the most fragile and delicate specimens.
Experimentalists around the world are testing this hypothesis, with the aim of the development of the first quantum-enhanced fluorescence microscope. Such a microscope should maintain the strengths of a standard multiphoton fluorescence imaging system - high 3D resolution and molecular specificity - yet with an increased penetration depth and signal-to-background ratio. These advantages could enable deeper imaging at low illumination levels, giving access to sub-cortical brain regions that are fundamental for studies into learning, memory and degenerative neural conditions such as Alzheimer's disease.
QuantIC Director Professor Steve Beaumont said: This is a very exciting project, and it is the first award that QuantIC has made from its new Accelerated Development Fund. We are always looking for projects that address a demonstrable industrial or societal need and feed the pipeline of technology to be translated into industrial applications and commercial opportunities through the Hub.
The University of Strathclyde is the only academic institution that has been a partner in all four EPSRC funded Quantum Technology Hubs in both phases of funding. The Hubs are in: Sensing and Timing; Quantum Enhanced Imaging; Quantum Computing and Simulation, and Quantum Communications Technologies.
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Global Quantum Computing Market 2020 Industry Insights, Drivers, Top Trends, Global Analysis And Forecast to 2027 – The Courier
Posted: at 1:09 pm
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A Swiss company claims it used quantum computers to find weakness in encryption – HT Tech
Posted: February 8, 2021 at 11:05 am
Security experts have long worried that advances in quantum computing could eventually make it easier to break encryption that protects the privacy of peoples data. Thats because these sophisticated machines can perform calculations at speeds impossible for conventional computers, potentially enabling them to crack codes previously thought indecipherable.
Now, a Swiss technology company says it has made a breakthrough by using quantum computers to uncover vulnerabilities in commonly used encryption. The company believes its found a security weakness that could jeopardize the confidentiality of the worlds internet data, banking transactions and emails.
Terra Quantum AG said its discovery upends the current understanding of what constitutes unbreakable encryption and could have major implications for the worlds leading technology companies, such as Alphabet Inc.s Google, Microsoft Corp., and International Business Machines Corp.
Don't miss: ProtonMail, Threema, Tresorit and Tutanota warn EU of risks of weakening encryption
But some other security experts said they arent nearly ready to declare a major breakthrough, at least not until the company publishes the full details of its research. If true, this would be a huge result, said Brent Waters, a computer science professor who specialises in cryptography at the University of Texas at Austin. It seems somewhat unlikely on the face of it. However, it is pretty hard for experts to weigh in on something without it being published.
IBM spokesman Christopher Sciacca said his company has known the risks for 20 years and is working on its own solutions to address the issue of post-quantum security. This is why the National Institute of Science & Technology (NIST) has been hosting a challenge to develop a new quantum safe crypto standard, he said in an email. IBM has several proposals for this new standard in the final round, which is expected in a few years.
Brian LaMacchia, distinguished engineer at Microsoft, said company cryptographers are collaborating with the global cryptographic community to prepare customers and data centers for a quantum future. Preparing for security in a post-quantum world is important not only to protect and secure data in the future but also to ensure that future quantum computers are not a threat to the long-term security of todays information.
Google didnt reply to a message seeking comment.
Terra Quantum AG has a team of about 80 quantum physicists, cryptographers and mathematicians, who are based in Switzerland, Russia, Finland and the US What currently is viewed as being post-quantum secure is not post-quantum secure, said Markus Pflitsch, chief executive officer and founder of Terra Quantum, in an interview. We can show and have proven that it isnt secure and is hackable.
Also read: Heres how an encrypted, locked Android and Apple phone gets bypassed
Pflitsch founded the company in 2019. Hes a former finance executive who began his career as a research scientist at CERN, the European Organization for Nuclear Research. Terra Quantums research is led by two chief technology officers Gordey Lesovik, head of the Laboratory of Quantum Information Technology at the Moscow Institute of Physics and Technology, and Valerii Vinokur, a Chicago-based physicist who in 2020 won the Fritz London Memorial Prize for his work in condensed matter and theoretical physics.
The company said that its research found vulnerabilities that affect symmetric encryption ciphers, including the Advanced Encryption Standard, or AES, which is widely used to secure data transmitted over the internet and to encrypt files. Using a method known as quantum annealing, the company said its research found that even the strongest versions of AES encryption may be decipherable by quantum computers that could be available in a few years from now.
Vinokur said in an interview that Terra Quantums team made the discovery after figuring out how to invert whats called a hash function, a mathematical algorithm that converts a message or portion of data into a numerical value. The research will show that what was once believed unbreakable doesnt exist anymore, Vinokur said, adding that the finding means a thousand other ways can be found soon.
Read more: Chinese scientists make world's first light-based quantum computer: Report
The company, which is backed by the Zurich-based venture capital firm Lakestar LP, has developed a new encryption protocol that it says cant be broken by quantum computers. Vinokur said the new protocol utilizes a method known as quantum key distribution.
Terra Quantum is currently pursuing a patent for the new protocol. But the company will make it available for free, according to Pflitsch. We will open up access to our protocol to make sure we have a safe and secure environment, said Pflitsch. We feel obliged to share it with the world and the quantum community.
The US government, like China, has made research in quantum computing research an economic and national security priority, saying that the world is on the cusp of what it calls a new quantum revolution. In addition, technology companies including Google, Microsoft, and IBM have made large investments in quantum computing in recent years.
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A Swiss company claims it used quantum computers to find weakness in encryption - HT Tech
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