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When it comes to practical problems, including things such as the traveling salesman problem, a classic in optimization, the value of quantum is still to be decided, say Richard Moulds, left, head of Amazon's Braket quantum computing service, and Robert Liscouski, head of Quantum Computing Inc., which makes Qatalyst software to do optimization on both classical and quantum machines.

It's easy to imagine a problem for which, if one had a computer that magically leapt across steps of the computation, your life would be much better.

Say, for example, a computer that auto-magically searches through a vast space of possible solutions much faster than you can with a CPU or GPU.

That's the premise of quantum computing, and surprisingly, for all the hype, it's not clear if that premise is true.

"I don't think we've seen any evidence yet that a quantum machine can do anything that's commercially interesting faster or cheaper than a classical machine," Richard Moulds, head of Amazon Braket, the cloud giant's quantum computing service, said in an interview with ZDNet. "The industry is waiting for that to arrive."

It is the question of the "quantum advantage," the notion that the entangled quantum states in a quantum computer will perform better on a given workload than an electronic system.

"We haven't seen it yet," Robert Liscouski, CEO of Quantum Computing Inc, said of the quantum advantage, in the same Zoom interview with Moulds.

That aporia, the as-yet-unproven quantum advantage, is in fact the premise for a partnership announced this month, whereby QCI's Qatalyst software program will run as a cloud service on top of Braket.

QCI's corporate tag line is "ready-to-run quantum software," and the Qatalyst program is meant to dramatically simplify sending a computing task to the qubits of a quantum hardware machine, the quantum processing units, or QPUs, multiple instances of which are offered through Bracket, including D::Wave, IonQ, and Rigetti.

The idea is to get more people working with quantum machines precisely to find out what they might be good for.

"Our platform basically allows the democratization of quantum computing to extend to the user community," said Liscouski.

"If you look back on the quantum industry since it started, it's traditionally been very difficult to get access to quantum hardware," said Moulds, including some machines that are "totally unavailable unless you have a personal relationship with the the physicist that built it."

"We're trying to make it easy for everyone to have access to the same machinery; it shouldn't be those that have and those that have not, it should be everyone on the same flywheel," he said.

The spectrum of users who will be working with quantum comprise "two important communities" today, said Moulds, those that want to twiddle qubits at the hardware level, and those that want to spend time on particular problems in order to see if they actually gain any benefit when exposed to the quantum hardware.

"There's a lot of researchers focused on building better hardware, that is the defining force in this industry," said Moulds. "Those types of researchers need to be in the weeds, playing at the qubit level, tweaking the frequencies of the pulses sent to the chip inside the fridge."

On the other hand, "the other class of users is much more geared to Robert's view of the world: they don't really care how it gets done, they just want to understand how to program their problem so that it can be most easily solved."

That second class of users are "all about abstraction, all about getting away from the technology." As quantum evolves, "maybe it slides under so that customers don't even know it's there," mused Moulds.

When it comes to those practical problems, the value of quantum is still to be decided.

There has been academic work showing quantum can speed up tasks, but "that's not been applied to a problem that anybody cares about," said Moulds.

The entire quantum industry is "still finding its way to what applications are really useful," he said. "You tend to see this list of potential applications, a heralded era of quantum computing, but I don't think we really know," he said.

The Qatalyst software from QCI focuses on the kinds of problems that are of perennial interest, generally in the category of optimization, particularly constrained optimization, where a solution to a given loss function or objective function is made more complicated by having to narrow the solution to a bunch of variables that have a constraint of some sort enforced, such as bounded values.

"They are described at a high level as the traveling salesman problem, where you have multi-variate sort of outcomes," said Liscouski. "But it's supply-chain logistics, it's inventory management, it's scheduling, it's things that businesses do today that quantum can really accelerate the outcomes in the very near future."

Such problems are "a very important use case," said Moulds. Quantum computers are "potentially good at narrowing the field in problem spaces, searching through large potential combinations in a wide variety of optimization problems," he said.

However, "classical will probably give you the better result" at this time, said Liscouski.

One of the reasons quantum advantage is not yet certain is because the deep phenomena at the heart of the discipline, things such as entanglement, make the field much more complex than early digital computing.

"A lot of people draw the analogy between where we are and the emergence of the transistor," said Moulds.

"I think that's not true: this is not just a case of making the computers we have today smaller and faster and cheaper, we're not anywhere near that regime, that Moore's Law notion of just scaling these things up."

"There's fundamental scientific discoveries that have to be made to build machines that can tackle these sorts of problems on the grand scale that we've been talking about."

Beyond the machines' evolution, there is an evolution implicit for programmers. Quantum brings a fundamentally different approach to programming. "These are physics-based machines, they're not just computational engines that add ones and zeros together, it's not just a faster slide rule," said Moulds.

That different way of programming may, in fact, point the way to some near-term payoff for the Qatalyst software, and Braket. Both Liscouski and Moulds expressed enthusiasm for taking lessons learned from quantum and back-loading them into classical computers.

"Typically, access to quantum computing is through toolkits and resources that require some pretty sophisticated capabilities to program to ultimately get to some result that involves a quantum computer," observed Liscouski.

"With Braket, the platform provides both access to QPUs and classical computing at the same time, and the quantum techniques that we use in the platform will get results for both," said Liscouski.

"It isn't necessarily a black and white decision between quantum and classical," said Moulds. "There's an emerging area, particularly in the area of optimization, people use the term quantum-inspired approaches are used."

"What that means is, looking at the ways that quantum computers actually work and applying that as a new class of algorithms that run on classical machines," he said.

"So, there's a sort of a morphing going on," he said.

An advantage to working with QCI, said Moulds, is that "they bring domain expertise that we don't have," things such as the optimization expertise.

"We've coined the phrase, 'Build on Braket'," said Moulds. "We're trying to build a quantum platform, and we look to companies like QCI to bring domain expertise to use that platform and apply it to problems that customers have really got."

Also important is operational stability and reliability, said Moulds. For a first-tier Web service with tons of users, the priority for Amazon is "running a professional service, a platform that is reliable and secure and durable" on which companies can "build businesses and solve problems."

Although there are "experimental" aspects, he said, "this is not intended to be a best-effort showcase."

Although the quantum advantage is not certain, Moulds holds out the possibility someone working with the technology will find it, perhaps even someone working on Braket.

"The only way we can move this industry forward is by pulling the curtains apart and giving folks the chance to actually see what's real," he said.

"And, boy, the day we see a quantum computer doing something that is materially advantageous from a commercial point of view, you will not miss that moment, I guarantee."

Originally posted here:
Quantum: It's still not clear what its good for, but Amazon and QCI will help developers find out - ZDNet

After a year in which scientists raced to understand Covid-19 and to develop treatments and vaccines to stop its spread, Cleveland Clinic is partnering with IBM to use next-generation technologies to advance healthcare research and potentially prevent the next public health crisis.

The two organizations on Tuesday announced the creation of the "Discovery Accelerator," which will apply technologies such as quantum computing and artificial intelligence to pressing life sciences research questions. As part of the partnership, Cleveland Clinic will become the first private-sector institution to buy and operate an on-site IBM quantum computer, called the Q System One. Currently, such machines only exist in IBM labs and data centers.

Quantum computing is expected to expedite the rate of discovery and help tackle problems with which existing computers struggle.

The accelerator is part of Cleveland Clinic's new Global Center for Pathogen Research & Human Health, a facility introduced in January on the heels of a $500 million investment by the clinic, the state of Ohio and economic development nonprofit JobsOhio to spur innovation in the Cleveland area.

The new center is dedicated to researching and developing treatments for viruses and other disease-causing organisms. That will include some research on Covid-19, including why it causes ongoing symptoms (also called "long Covid") for some who have been infected.

"Covid-19 is an example" of how the center and its new technologies will be used, said Dr. Lara Jehi, chief research information officer at the Cleveland Clinic.

"But ... what we want is to prevent the next Covid-19," Jehi told CNN Business. "Or if it happens, to be ready for it so that we don't have to, as a country, put everything on hold and put all of our resources into just treating this emergency. We want to be proactive and not reactive."

Quantum computers process information in a fundamentally different way from regular computers, so they will be able to solve problems that today's computers can't. They can, for example, test multiple solutions to a problem at once, making it possible to come up with an answer in a fraction of the time it would take a different machine.

Applied to healthcare research, that capability is expected to be useful for modeling molecules and how they interact, which could accelerate the development of new pharmaceuticals. Quantum computers could also improve genetic sequencing to help with cancer research, and design more efficient, effective clinical trials for new drugs, Jehi said.

Ultimately, Cleveland Clinic and IBM expect that applying quantum and other advanced technologies to healthcare research will speed up the rate of discovery and product development. Currently, the average time from scientific discovery in a lab to getting a drug to a patient is around 17 years, according to the National Institutes of Health.

"We really need to accelerate," Jehi said. "What we learned with the Covid-19 pandemic is that we cannot afford, as a human race, to just drop everything and focus on one emergency at a time."

Part of the problem: It takes a long time to process and analyze the massive amount of data generated by healthcare, research and trials something that AI, quantum computing and high-performance computing (a more powerful version of traditional computing) can help with. Quantum computers do that by "simulating the world," said Dario Gil, director of IBM Research.

"Instead of conducting physical experiments, you're conducting them virtually, and because you're doing them virtually through computers, it's much faster," Gil said.

For IBM, the partnership represents an important proof point for commercial applications of quantum computing. IBM currently offers access to quantum computers via the cloud to 134 institutions, including Goldman Sachs and Daimler, but building a dedicated machine on-site for one organization is a big step forward.

"What we're seeing is the emergency of quantum as a new industry within the world of information technology and computing," Gil said. "What we're seeing here in the context of Cleveland Clinic is ... a partner that says, 'I want the entire capacity of a full quantum computer to be [dedicated] to my research mission."

The partnership also includes a training element that will help educate people on how to use quantum computing for research which is likely to further grow the ecosystem around the new technology.

Cleveland Clinic and IBM declined to detail the cost of the quantum system being installed on the clinic's campus, but representatives from both organizations called it a "significant investment." Quantum computers are complex machines to build and maintain because they must be stored at extremely cold temperatures (think: 200 times colder than outer space).

The Cleveland Clinic will start by using IBM's quantum computing cloud offering while waiting for its on-premises machine to be built, which is expected to take about a year. IBM plans to later install at the clinic a more advanced version of its quantum computer once it is developed in the coming years.

Jehi, the Cleveland Clinic research lead, acknowledged that quantum computing technology is still nascent, but said the organization wanted to get in on the ground floor.

"It naturally needs nurturing and growing so that we can figure out what are its applications in healthcare," Jehi said. "It was important to us that we design those applications and we learn them ourselves, rather than waiting for others to develop them."

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Cleveland Clinic and IBM hope their tech partnership could help prevent the next pandemic - WTHITV.com

Quantum Computing Market is a professional and a detailed report focusing on primary and secondary drivers, market share, leading segments and geographical analysis. This analysis provides an examination of various market segments that are relied upon to observe the fastest development amid the estimated forecast frame. The report encompasses market definition, currency and pricing, market segmentation, market overview, premium insights, key insights and company profile of the key market players. The persuasive Quantum Computing market report also helps to know about the types of consumers, their response and views about particular products, and their thoughts for the step up of a product.

Quantum computing is an advanced developing computer technology which is based on the quantum mechanics and quantum theory. The quantum computer has been used for the quantum computing which follows the concepts of quantum physics. The quantum computing is different from the classical computing in terms of speed, bits and the data. The classical computing uses two bits only named as 0 and 1, whereas the quantum computing uses all the states in between the 0 and 1, which helps in better results and high speed. Quantum computing has been used mostly in the research for comparing the numerous solutions and to find an optimum solution for a complex problem and it has been used in the sectors like chemicals, utilities, defence, healthcare & pharmaceuticals and various other sectors. Quantum computing is used for the applications like cryptography, machine learning, algorithms, quantum simulation, quantum parallelism and others on the basis of the technologies of qubits like super conducting qubits, trapped ion qubits and semiconductor qubits. Since the technology is still in its growing phase, there are many research operations conducted by various organizations and universities including study on quantum computing for providing advanced and modified solutions for different applications. For instance, Mercedes Benz has been conducting research over the quantum computing and how it can be used for discovering the new battery materials for advanced batteries which can be used in electric cars. Mercedes Benz has been working in collaboration with the IBM on IBM Q network program, which allows the companies in accessing the IBMs Q network and early stage computing systems over the cloud. Global quantum computing market is projected to register a healthy CAGR of 29.5% in the forecast period of 2019 to 2026.

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Quantum Computing Market Scope and Segmentation:

Global quantum computing market is segmented into seven notable segments which are system, qubits, deployment model, component, application, logic gates and vertical.

Quantum Computing Market Country Level Analysis

For detailed insights on Global Quantum Computing Market Size, competitive landscape is provided i.e. Revenue Share Analysis (Million USD) by Players, Revenue Market Share (%) by Players and further a qualitative analysis is made towards market concentration rate, product differentiation, new entrants are also considered in heat map concentration.

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Leading Key Players Operating in the Quantum Computing Market Includes:

Some of the major players operating in this market are Honeywell International, Inc., Accenture, Fujitsu, Rigetti & Co, Inc., 1QB Information Technologies, Inc., IonQ, Atom Computing, ID Quantique, QuintessenceLabs, Toshiba Research Europe Ltd, Google,Inc., Microsoft Corporation, Xanadu, Magiq Technologies, Inc., QX branch, NEC Corporation, Anyon System,Inc. Cambridge Quantum Computing Limited, QC Ware Corp, Intel Corporation and others.

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The Quantum Computing Market research covers a comprehensive analysis of the following facts:

Table of Content:

PART 01: EXECUTIVE SUMMARY

PART 02: SCOPE OF THE REPORT

PART 03: RESEARCH METHODOLOGY

PART 04: INTRODUCTION

PART 05: MARKET LANDSCAPE

PART 06: MARKET SIZING

PART 07: FIVE FORCES ANALYSIS

PART 08: MARKET SEGMENTATION BY PRODUCT

PART 09: MARKET SEGMENTATION BY DISTRIBUTION CHANNEL

PART 10: CUSTOMER LANDSCAPE

PART 11: MARKET SEGMENTATION BY END-USER

PART 12: REGIONAL LANDSCAPE

PART 13: DECISION FRAMEWORK

PART 14: DRIVERS AND CHALLENGES

PART 15: MARKET TRENDS

PART 16: COMPETITIVE LANDSCAPE

PART 17: COMPANY PROFILES

PART 18: APPENDIX

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Quantum Computing Market Share Current and Future Industry Trends, 2020 to 2027 The Courier - The Courier

BRUSSELS Johnson & Johnson said Tuesday that it would resume the rollout of its coronavirus vaccine in Europe after the European Unions drug regulator said that a warning should be added to the product indicating a possible link to rare blood clots, but that the shots benefits outweigh the risks.

The company decided to delay distribution in the blocs 27 member states last week, after regulators in the United States suspended use of the vaccine there amid concerns about the potential side effect.

The E.U. drug regulators endorsement even with the caveat not only clears a path for Johnson & Johnson in Europe, but could presage how the United States will handle the vaccine in the days to come.

On Friday, an advisory panel to the Centers for Disease Control and Prevention is to meet for a second to time to decide whether to recommend lifting a pause put on the vaccines use in the United States, perhaps with a similar warning.

That would free up millions of doses for a country still waging a fierce battle against the pandemic, and where almost eight million Americans have already had the Johnson & Johnson vaccine.

But some health experts worry that the headline-grabbing pause, which began over a week ago, might discourage some people from getting vaccinated, even though the risks from Covid-19 are far greater than the risk from a clot.

Youve put a scarlet letter on the Johnson & Johnson vaccine, said Dr. Paul A. Offit, a vaccine expert at Childrens Hospital of Philadelphia.

After clotting concerns associated with another vaccine, produced by AstraZeneca, were reported in Europe, Dr. Offit noted, some grew leery of it, overestimating the threat. For the Johnson & Johnson vaccine, the clot risk has been put at an estimated one in a million.

If you take a theoretical million people who are infected with Covid, five thousand will die, Dr. Offit said. Therefore, the benefits of this vaccine clearly outweigh its risks.

A loss of confidence in the Johnson & Johnson vaccine may carry a particular cost.

The vaccine has been greeted warmly by many health workers because it requires just a single shot, unlike the ones from Moderna or Pfizer-BioNTech, and is easier to store than some other vaccines. It is especially useful for hard-to-reach or transient populations.

There is no doubt in my mind that there are groups for whom this vaccine is of benefit, Dr. Offit said, meaning that theyre more likely to get this vaccine than the other vaccines, whether its because of where they live, or because theyre homebound, or its hard to get a second dose.

If that changes, he said, then you have probably elevated a rare risk above a much more common risk, and youve done harm.

In clearing the way for the vaccines use, the E.U.s drug regulator, the European Medicines Agency, said the blood clots, which have been reported in a very small group of people, are very similar to those associated with the AstraZeneca vaccine.

The E.M.A.s recommendation is not binding, but it is the first indication of what might happen next with the European rollout of the Johnson & Johnson vaccine.

April 25, 2021, 10:32 a.m. ET

The agency said that authorities in individual E.U. member states should decide how to proceed, taking into account their particular case load and vaccine availability. Poland is the only E.U. country that defied the companys guidance and went ahead and administered some Johnson & Johnson doses over the past week.

All the rare cases of blood clots reviewed by the European regulator were reported in the United States, but the agency proceeded with its recommendations Tuesday before U.S. regulators acted.

Europe has been here before.

In early March, regulators began receiving reports of rare blood clots in Europeans who had been vaccinated with the AstraZeneca shot, which has been widely used on the continent. E.U. and national regulators then scrambled to interpret and respond to the findings.

The E.U. regulator said it had moved faster in greenlighting the Johnson & Johnson vaccine than the U.S. authorities have because, having spent the past two months reviewing the AstraZeneca issues, it had built some confidence in how to respond.

In a statement, the agency stressed the importance of treating the potential side effect and issued guidelines to health care professionals on the lookout for the rare clotting disorder. It listed symptoms to be vigilant for, including shortness of breath, chest pain, leg swelling, persistent abdominal pain, severe and persistent headaches or blurred vision, and tiny blood spots under the skin.

The temporary suspension of the Johnson & Johnson rollout in the European Union had added to the blocs vaccine rollout woes, but it was not as big a blow as the AstraZeneca issues have been.

Vaccination efforts have fallen behind in Europe partly because AstraZeneca, a British-Swedish pharmaceutical company that is a major component of the regions inoculation efforts, was unable to deliver the number of doses expected in the first quarter of the year. Then its vaccine was suspended over the blood-clotting concerns.

Even though the authorities eventually declared that the benefits of the AstraZeneca vaccine outweighed risks, and advised E.U. members to use it, the damage had been done.

Many Europeans have been refusing to take it, and several E.U. countries have limited its use to older people, as most of those affected by the rare clots were younger than 60.

Confronted with supply shortages after the AstraZeneca and the Johnson & Johnson disruptions, the European Union last week announced it was increasing its supply of the Pfizer-BioNTech vaccine, and was negotiating a new deal for future booster shots with the company for 2022 and 2023.

But while the impact for Europe may be cushioned, it could be a different story elsewhere. The Johnson & Johnson vaccine has been an important component of vaccination plans for countries around the world.

While it has not yet been rolled out at anything near the scale of AstraZenecas, some regions have pivoted to the shot amid AstraZeneca shortages. The African Union recently acquired 400 million doses.

The pause on Johnson & Johnson vaccinations in the United States, along with new restrictions on the use of AstraZenecas shot in Europe, rattled vaccination campaigns around the world relying on those vaccines. South Africa followed the United States in pausing Johnson & Johnson shots, though its health regulator in recent days recommended resuming its use.

U.S. health officials called for a pause in the vaccines use on April 13. Johnson & Johnson suspended its E.U. rollout immediately afterward, just as the first shipments of the shot were arriving in the region.

U.S. regulators and scientists are still studying the original reports of the clotting disorder and sifting through any new safety reports of possible cases of the clotting disorder. That effort has so far turned up little.

Dr. Rochelle P. Walensky, the C.D.C. director, said on Monday that health officials were investigating a handful of new, unconfirmed reports that emerged after the pause was recommended, to determine whether they might be cases of the rare blood clotting disorder.

Right now, we are encouraged that it hasnt been an overwhelming number of cases, but we are looking and seeing what has come in, she said at a White House news conference.

Carl Zimmer contributed reporting from New Haven; Noah Weiland and Sharon LaFraniere from Washington; and Benjamin Mueller from London.

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Johnson & Johnson to Resume European Union Vaccine Rollout - The New York Times

The European Union put forward a package of measures that took aim at the patchy data available around sustainable investing, seen as one of the fast-growing markets biggest problems.

The blocs executive arm in Brussels proposed making companies for the first time report standardized information about their impact on their environment, and social metrics, such as how they treat their employees.

The EU wants the rules to apply to both publicly-listed firms in Europe and large private companies, a total of nearly 50,000 entities. Credit institutions, including the large U.S. banks that have subsidiaries in the EU, would also have to comply. The bloc also unveiled its classification system that will define green investments, and said the taxonomy will apply from next year.

If passed, companies in the EU will have to start disclosing sustainability metrics, similarly to financial reporting. The taxonomy is expected to be used as a tool to cut down on greenwashing, a term that describes an exaggeration of sustainability claims. The initial version of the taxonomy labels bioenergy as green, but doesnt include nuclear energy and natural gas, although this may be revised.

Sustainability has emerged as a hot topic in finance. It is commonly known by the acronym ESG, which stands for environmental, social and governancethree pillars on which companies are judged.

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European Union Aims for Clarity in Murky World of Sustainable Investing - The Wall Street Journal