Mediaboss Marketing

Analysts state that the financial services sector is expected to see significant benefits from quantum computing through enhanced portfolio optimization and fraud detection capabilities. Throughout all of this, the healthcare industry is anticipated to leverage quantum computing for drug discovery and personalized medicine. As the technology evolves, we will see a transition from physical qubits to more stable, error-corrected logical qubits. This will enhance the reliability of quantum computations. So now could be a great time for investors to consider these quantum computing stocks to buy.

Here are three companies to consider.

Source: Amin Van / Shutterstock.com

IonQ (NYSE:IONQ) is a leading developer of quantum computing systems and software. The company uses trapped ion technology to create quantum computers with high-fidelity qubits and low error rates.

There are a few reasons Im bullish on IONQ. The average analyst rating for IonQ is a Buy. The consensus price target is $16.50. Furthermore, this representing a potential upside of 141.23% from the current stock price.

Also, analysts expect IonQs revenue to grow at a rapid pace, with a 5-year revenue growth forecast of 95.40%. If the company can maintain this growth trajectory and improve its profitability, the stocks valuation may become more attractive over time.

IonQ also has a strong balance sheet with a net cash position of $359.72 million, or $1.70 per share. Moreover, this provides the company with financial flexibility to invest in growth opportunities and weather potential challenges. Also, this is hedging against short-term fears of shareholder dilution through the issuance of new shares.

Source: Bartlomiej K. Wroblewski / Shutterstock.com

D-Wave Quantum (NYSE:QBTS) is a leader in quantum computing systems, software, and services. People know this company for its quantum annealing technology.

I think that QBTS could be one of the frontrunners in the quantum computing arms race for a few reasons.

QBTS launched the fast-anneal feature. This is now available on all of its quantum processing units (QPUs) in the Leap real-time quantum cloud service. Furthermore, this feature allows users to perform quantum computations at unprecedented speeds. As a result, this will significantly reduce the impact of external disturbances such as thermal fluctuations and noise.

In the press release, QBTS states that the fast-anneal feature has generated significant interest from commercial and academic researchers who are eager to leverage its capabilities for building world-class applications, expanding benchmarking studies, and exploring the potential benefits of increased coherence in various industrial applications.

In terms of financial forecasts, D-Wave Quantums revenue may grow by 46.02% this year to $12.79 million, and by 101.46% next year to $25.76 million. While the company is still expected to report losses in the coming years, the magnitude of those losses is projected to decrease

Source: Boykov / Shutterstock.com

Rigetti Computing (NASDAQ:RGTI) is a pioneer in quantum computing, offering full-stack quantum-classical computing services. The company provides its services through Rigetti Quantum Cloud Services, serving global enterprise, government, and research clients.

The average analyst rating for RGTI is strong buy, with a consensus price target of $3.17, representing a potential upside of 217.41% from the current stock price of around $1 at the time of writing.

Also, RGTIs revenue is expected to grow by 29.96% this year to $15.61 million and by 88.86% next year to $29.47 million. The companys 5-year revenue growth forecast is 70.72%, indicating a strong growth trajectory.

This optimism is reflected in RGTIs valuation, RGTI has a high price-to-sales (PS) ratio of 13 times sales and a forward PS ratio of 10, so the market is pricing in some very strong expectations for the company. This companys valuation though is slightly on the smaller side compared with its peers in the industry, which could mean it may be an undervalued opportunity also.

On the date of publication, the responsible editor did not have (either directly or indirectly) any positions in the securities mentioned in this article.

On the date of publication, Matthew Farley did not have (either directly or indirectly) any positions in the securities mentioned in this article. The opinions expressed are those of the writer, subject to the InvestorPlace.com Publishing Guidelines.

Matthew started writing coverage of the financial markets during the crypto boom of 2017 and was also a team member of several fintech startups. He then started writing about Australian and U.S. equities for various publications. His work has appeared in MarketBeat, FXStreet, Cryptoslate, Seeking Alpha, and the New Scientist magazine, among others.

Follow this link:
The 3 Best Quantum Computing Stocks to Buy in July 2024 - InvestorPlace

Source: Boykov / Shutterstock.com

Quantum computing could very well bring about a digital age greater than generative artificial intelligence (AI). For those unaware, quantum computing leverages quantum mechanics, the physics undergirding small particles, to solve problems that classical computers have a hard time getting through. Moreover, in classical computers, bits, which are the fundamental units of information, can only take the form of 0s and 1s, yet qubits can take either of those forms and can assume both states at the same time. Because classical computers are binary-based machines, they can struggle when performing extremely complex problem-solving, such as modeling the behavior of individual atoms or identifying subtleties in fraudulent financial transactions. Quantum computers are ideal for these problems. However, despite this technologys potential, there are quantum computing stocks to sell, as not all companies succeed long-term.

While start-ups firms leveraging innovative techniques to build scalable quantum computers for enterprises was a hot trade in 2023, the macroeconomic environment and a beleaguered economy has soured investor sentiment on start-up businesses in a novel field. Below are three quantum computing stocks to sell in July.

Source: Amin Van / Shutterstock.com

IonQ (NYSE:IONQ) has received a ton of attention from investors in the past twelve months. The firm develops and manufactures various quantum computing systems and has done so since 2015 with a firm commitment to innovation. To develop such advanced systems, IonQ leverages a trapped-ion system. The system traps ions from barium or ytterbium in an electromagnetic field that allows their ability to be harnessed for quantum computations. The Aria quantum system is IonQs latest quantum computer and boasts 25 qubits. While the quantum computing firm does manufacture and sell large quantum systems, the power of its existing computers is available on cloud services, including Amazon (NASDAQ:AMZN) Web Services, Microsoft (NASDAQ:MSFT) Azure and Alphabets (NASDAQ:GOOG, NASDAQ:GOOGL) Google Cloud.

IonQ had a runup in its share price due to more innovative advances as well investor hype around artificial intelligence and fields loosely related to it, particularly quantum computing. However, investors desiring concrete results and real use-cases for quantum computers have begun to shun the stock. IONQ has plummeted 43.3% since the start of 2024, and investor fatigue around AI could see shares fall even further in the near and medium terms.

Source: Shutterstock

Rigetti Computing (NASDAQ:RGTI) is another pure-play quantum computing startup. In particular, Rigetti specializes in designing and building quantum processors. As a vertically integrated company, Rigetti both owns and operates a wafer fabrication facility called Fab-1 that produces quantum processors. While the company came into inception in 2013, it begun to sell quantum processing power via cloud environments as early as 2017. Moreover, Rigetti had begun selling physical quantum computers towards the end of 2023. The companys most impressive advancement has been the building of the Ankaa-2 system which boasts 84 qubits and has processing power that is available through various cloud services.

However, similar to IonQ, Rigettis stock rallied amidst all the noise about novel technologies like generative AI. In the middle of March, Rigettis share price had risen more than 112% for the year, but shares have fallen precipitously since then. Trading at just above $1/share, Rigetti is increasingly looking like a bad investment, despite all of its innovations. Investors are beginning to focus on earnings quality, and because Rigetti is still a cash-burning startup, it will probably face a tough time getting more love from the market.

Source: Bartlomiej K. Wroblewski / Shutterstock.com

Quantum Computing (QCi) (NASDAQ:QUBT) is, as the name suggests, a quantum computing firm and specializes in creating affordable quantum systems. The startups focus on photonics has allowed it to create the QCi core technology, which leverages light as well as lights quantum mechanical properties as a tool for various quantum applications. Outside of developing hardware, QCi has built a key software platform, Qatalyst, which the company says has focused on agnostic enterprise software for quantum computing systems.

Unfortunately, the quantum computing firms stock has absolutely tanked. Now trading around $0.50/share, QUBT has plummeted 60.7% over the past 12 months and more than 90% if we zoom out over the past 3 years. Again, were dealing with a startup that is barely generating any sales or earnings, which has definitely hurt its long-term prospects in the eyes of investors.

Because quantum computing applications only serve the needs of research institutes and a select few enterprises, its hard to say when Quantum Computings growth will pick up.

On the date of publication, Tyrik Torresdid not have (either directly or indirectly) any positions in the securities mentioned in this article.The opinions expressed in this article are those of the writer, subject to the InvestorPlace.comPublishing Guidelines.

On the date of publication, the responsible editor did not have (either directly or indirectly) any positions in the securities mentioned in this article.

Tyrik Torres has been studying and participating in financial markets since he was in college, and he has particular passion for helping people understand complex systems. His areas of expertise are semiconductor and enterprise software equities. He has work experience in both investing (public and private markets) and investment banking.

Follow this link:
3 Quantum Computing Stocks to Sell in July Before They Crash & Burn - InvestorPlace

At the recent MCQST Colloquium held at the Max Planck Institute for Quantum Optics, Johannes Zeiher provided a compelling overview of the advances in quantum simulation and quantum computing with neutral-atom arrays. His presentation offered valuable insights into how these systems are poised to transform quantum technology.

Zeiher started by explaining the core motivation behind their work.

Our goal is to understand, control and create many-body systems using individually controllable neutral atoms, he stated. These neutral atoms, arranged using optical tweezers, serve as a powerful platform for studying quantum phenomena due to their high level of controllability and scalability.

One of the key advantages of neutral-atom arrays is their ability to simulate complex quantum systems.

We can use these systems to study strongly correlated systems, transport out of equilibrium dynamics, and phase transitions, Zeiher elaborted. This capability is vital for exploring fundamental aspects of quantum mechanics and for developing new technological applications.

Zeiher also stressed the importance of long-range interactions in these systems.

Long-range interactions introduce competing length scales, which can lead to rich and complex physical phenomena, he noted. By manipulating these interactions, researchers can simulate various phases of matter, such as the superfluid and Mott insulator phases, and even more exotic states like the Haldane insulator and density wave phases.

In terms of practical applications, Zeiher discussed the potential of neutral-atom arrays in quantum computing.

Neutral atoms offer a promising platform for quantum computing due to their scalability and the high fidelity of quantum gates, he said. Recent advancements have pushed the fidelity of two-qubit gates to over 99.5%, putting them on par with other leading quantum computing platforms.

One of the groundbreaking techniques Zeiher discussed is the use of Rydberg dressing. By coupling atoms off-resonantly to Rydberg states, researchers can induce long-range interactions while maintaining a high level of stability. He explained that Rydberg dressing allows them to significantly enhance the lifetime of these states, enabling complex quantum simulations and computations over extended periods.

Zeiher concluded his talk by drawing attention to the broader implications of their research.

The ability to control and manipulate neutral atoms with such precision opens up new frontiers in both quantum simulation and quantum computing, he remarked.

The insights from these systems do not just allow one to push understanding in the realm of quantum mechanics further. Still, they will also serve as a frontier toward innovative technologies that have the potential to be revolutionary in most fields, from materials science to cryptography.

Zeiher uncovered the revolutionizing potential that neutral-atom arrays bear in quantum technology in his talk at the MCQST Colloquium. Given developments in controlling long-range interactions and fidelity of quantum gates, these systems will be of great importance for the future of quantum computing and simulation.

See more here:
The Future of Quantum Computing with Neutral-Atom Arrays - The Quantum Insider

The Biden administration said Tuesday that it was providing $504 million in implementation grants for a dozen tech hubs in Ohio, Montana, Nevada and Florida, among other locations.

The money would support the development of quantum computing, biomanufacturing, lithium batteries, computer chips, personal medicine and other technologies.

The administration is trying to encourage moretechnological innovationacross the country, instead of allowing it be concentrated in a few metro areas such as San Francisco, Seattle, Boston and New York City.

The reality is there are smart people, great entrepreneurs, and leading-edge research institutions all across the country, Commerce SecretaryGina Raimondosaid in a call previewing the announcement. Were leaving so much potential on the table if we dont give them the resources to compete and win in the tech sectors that will define the 21st century global economy.

The money comes from the Commerce Departments Economic Development Administration. In October 2023, PresidentJoe Bidendesignated 31 tech hubs. Raimondo said the administration was pushing for more funding for the program so that all the designated tech hubs can get additional resources to compete.

The tech hubs receiving funding include:

$41 million for the Elevate Quantum Tech Hub in Colorado and New Mexico

$41 million for the Headwaters Hub in Montana

$51 million for Heartland BioWorks in Indiana

$51 million for the iFAB Tech Hub in Illinois

$21 million for the Nevada Tech Hub

$40 million for the NY SMART I-Corridor Tech Hub in New York

$44 million for ReGen Valley Tech Hub in New Hampshire

$45 million for the SC Nexus for Advanced Resilient Energy in South Carolina and Georgia

$19 million for the South Florida ClimateReady Tech Hub

$51 million for the Sustainable Polymers Tech Hub in Ohio

$51 million for the Tulsa Hub for Equitable & Trustworthy Autonomy in Oklahoma

$51 million for the Wisconsin Biohealth Teach Hub.

More here:
Biden administration is providing $504 million to 12 tech hubs - Fortune

At the Tech.eu Summit in London, Dr. Ken Urquhart, Global Vice-President of 5G/Edge/Satellite at Zscaler, and Steve Brierley, Founder and CEO of Riverlane, discussed the critical intersection of artificial intelligence (AI), cybersecurity and quantum computing. Moderated by Duygu Oktem Clark, Managing Partner at DO Venture Partners, the talk underlined both the challenges and opportunities these technologies present.

Urquhart opened the discussion by addressing the limitations of AI in cybersecurity.

AI, as we apply it today, involves algorithms that are interpretable and useful for cyber defense, he said. However, he pointed out that current AI technologies, such as neural networks and large language models, come with issues like statistical variability and hallucinations, where the AI makes things up that may not be true.

Urquhart explained that these statistical models could become less accurate over time, adding: You need to be thoughtful about how you apply AI because it can give less accurate answers if asked the same question twice in a row over a span of hours or days.

Brierley shared his thoughts into the advancements in quantum computing and its implications for cybersecurity. He noted that while todays quantum computers are extremely error-prone and capable of only about 100 to 1,000 operations before failure, significant progress is being made with quantum error correction.

Quantum error correction is a layer that sits on top of the physical qubits and corrects errors in real-time, Brierley explained.

This development is crucial for achieving cryptographically relevant quantum computing capabilities.

2023 and 2024 have been pivotal years as we crossed the threshold in various qubit modalities, making error correction viable, he said. Brierley projected that within the next two to three years, we could see quantum computers performing up to a million operations, surpassing what classical computers can simulate.

As AI and quantum computing advance, ethical and security challenges emerge. Urquhart stressed the importance of understanding AIs current limitations.

We are on a journey with artificial intelligence. It does not think; it is a collection of statistical outcomes, he stated. Urquhart warned against over-reliance on AI for critical decisions, as its current form can lead to significant errors.

Brierley added that quantum computing has the potential to revolutionize industries, particularly in simulating molecular dynamics and chemical interactions.

Quantum computers can replace time-consuming lab experiments with simulations, transforming industries like drug discovery and material science, he said.

Both experts agreed on the necessity of collaboration among academia, industry and government to harness these technologies responsibly. Brierley called attention to the importance of a coordinated effort, likening it to a Manhattan-scale project to build the worlds most powerful quantum computers. We need effective collaboration across sectors to ensure the technology benefits society, he said.

Urquhart echoed this sentiment, giving emphasis to the role of commercial entities in driving innovation and the governments role in providing a regulatory and funding environment.

The machinery is there; we just need the will to engage and make it run, he remarked.

Looking ahead, both Urquhart and Brierley stressed the urgency of preparing for the impact of quantum computing on cybersecurity.

Quantum computing will break most encryption at some point, Urquhart warned, urging businesses to act now to mitigate future risks.

Brierley concluded: Quantum computers are not just faster computers; they represent a massive step forward for specific problems, and their potential for both good and bad is immense.

The discussion underscored the transformative potential of AI and quantum computing while cautioning against complacency. As these technologies evolve, proactive collaboration and ethical considerations will be paramount in shaping a secure digital future.

Featured image: Credit: Tech.eu

Read the rest here:
The Interplay of AI, Cybersecurity & Quantum Computing - The Quantum Insider