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By Ken Briodagh

Senior Technology Editor

Embedded Computing Design

May 30, 2024

News

According to a recent release, NXP Semiconductors has partnered with eleQtron and ParityQC, with theQSea consortiumof theDLR Quantum Computing Initiative (DLR QCI), to create what is reportedly the first full-stack, ion-trap based quantum computer demonstrator made entirely in Germany. The new quantum computer demonstrator is in Hamburg.

Hamburg is one of our most important R&D locations. We are proud that, together with DLR and our partners eleQtron and ParityQC, we are able to present the first ion-trap based quantum computer demonstrator developed entirely in Germany, said Lars Reger, CTO at NXP Semiconductors. We are convinced that industry and research communities in Hamburg and throughout Germany will benefit from this project. It will help to build up and expand important expertise in quantum computing, to use it for the economic benefit of us all, and also to further strengthen our digital sovereignty in Germany and the EU.

The goal of this demonstrator is to enable early access to quantum computing resources and help companies and research teams leverage it for applications like climate modeling, global logistics and materials sciences, the companies said.

DLR QCI says it aims to build necessary skills by creating a quantum computing ecosystem in which economy, industry and science cooperate closely to fully leverage the potential of this technology. Quantum computers are expected to tackle complex problems across industries, and will likely dramatically change the cybersecurity landscape.

NXP, eleQtron and ParityQC have used their expertise to build this ion-trap based quantum computer demonstrator by combining eleQtrons MAGIC hardware, ParityQC architecture, and NXP chip design and technology. To speed innovation and iteration, they have also developed a digital twin, which reportedly will be used to help this QSea I demonstrator to evolve to a quantum computer with a modular architecture, scalable design, and error correction capabilities. That evolution will be the goal of the ongoing work with the project.

The demonstrator is set up at the DLR QCI Innovation Center in Hamburg and will be made available to industry partners and DLR research teams, the release said. The three partners and the DLR QCI say they aim to foster and strengthen the development of an advanced quantum computing ecosystem in Germany.

To achieve a leading international position in quantum computing, we need a strong quantum computing ecosystem. Only together will research, industry and start-ups overcome the major technological challenges and successfully bring quantum computers into application. The QSea I demonstrator is an important step for the DLR Quantum Computing Initiative and for Hamburg. It enables partners from industry and research to run quantum algorithms on real ion trap qubits in a real production environment for the first time. This hands-on experience will enable them to leverage the advantages of quantum computers and become part of a strong and sovereign quantum computing ecosystem in Germany and Europe, said Dr.-Ing. Robert Axmann, Head of DLR Quantum Computing Initiative (DLR QCI).

Ken Briodagh is a writer and editor with two decades of experience under his belt. He is in love with technology and if he had his druthers, he would beta test everything from shoe phones to flying cars. In previous lives, hes been a short order cook, telemarketer, medical supply technician, mover of the bodies at a funeral home, pirate, poet, partial alliterist, parent, partner and pretender to various thrones. Most of his exploits are either exaggerated or blatantly false.

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NXP, eleQtron and ParityQC Reveal Quantum Computing Demonstrator - Embedded Computing Design

Entanglement is a key part ofquantum computing

Bartlomiej K. Wroblewski/Alamy

While scientists generally try to find sensible explanations for weird phenomena, quantum entanglement has them tied in knots.

This link between subatomic particles, in which they appear to instantly influence one another no matter how far apart, defies our understanding of space and time. It famously confounded Albert Einstein, who dubbed it spooky action at a distance. And it continues to be a source of mystery today. These quantum correlations seem to appear somehow from outside space-time, in the sense that there is no story in space and time that explains them, says Nicolas Gisin at the University of Geneva, Switzerland.

But the truth is that, as physicists have come to accept the mysterious nature of entanglement and are using it to develop new technologies, they are doubtful that it has anything left to tell us about how the universe works.

You can create quantum entanglement between particles by bringing them close together so that they interact and their properties become intertwined. Alternatively, entangled particles can be created together in a process such as photon emission or the spontaneous breakup of a single particle such as a Higgs boson.

The spooky thing is that, in the right conditions, if you then send these particles to opposite sides of the universe, performing a measurement on one will instantaneously affect the outcome of a measurement on the other, despite the fact that there can be no information exchanged between them.

For Einstein,

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How quantum entanglement really works and why we accept its weirdness - New Scientist

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Dont miss out on this exceptional chance to invest in quantum computing stocks to buy that could be millionaire makers while their valuations remain low. These innovative tech companies are developing cutting-edge quantum computing systems with the potential to generate massive returns for investors who get in early.

The quantum computing stocks featured below are poised to commercialize their technology across multiple industries. Quantum computing promises to transform various sectors of our world, from financial services to medical research. Also, it may enable groundbreaking advances and discoveries that arent possible with traditional classical computing.

The three quantum computing stocks to buy outlined in this article represent the best opportunities investors have to compound their wealth to seven figures. Weve only just started to see the potential of this industry and understand the implications of this new tech.

So, here are three quantum computing stocks for investors who want to earn a potential seven-figure sum.

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Hewlett Packard Enterprise (NYSE:HPE) focuses on IT and quantum computing through its Intelligent Edge segment. The company has demonstrated significant achievements in quantum computing research.

HPEs Intelligent Edge segment provides solutions that bring computation closer to the data source. Integrating quantum computing capabilities with Intelligent Edge technologies can offer unique advantages, such as real-time data processing and enhanced decision-making capabilities at the networks edge.

Most recently, the Intelligent Edge segment reported revenue of $902 million, an increase of 9% year-over-year. This segment continues to grow, driven by strong demand for edge computing solutions. The company also achieved an EPS of $0.48, which surpassed the consensus estimate of $0.45. This compares to an EPS of $0.63 in the same quarter of the previous year.

HPE is a well-known brand akin to a more modern version of IBM (NYSE:IBM). It could be a good pick for those who like to stay with the blue-chip options while also having the potential to mint new millionaires.

IonQ (NYSE:IONQ) is a leader in developing trapped-ion quantum computers and making significant strides in the field. The company collaborates with major cloud platforms.

IonQs primary technology involves trapped-ion quantum computers, which utilize ions trapped in electromagnetic fields as qubits. This technology is known for its high-fidelity operations and stability.

Recently, IonQ achieved a milestone of 35 algorithmic qubits with its IonQ Forte system, a year ahead of schedule. This achievement allows the system to handle more sophisticated and more extensive quantum circuits. IonQs growth and technological advancements have been recognized in various industry lists, such as Fast Companys 2023 Next Big Things in Tech List and Deloittes 2023 Technology Fast 500 List.

With a market cap of just 1.79 billion, it remains a small-cap quantum computing stock that could hold significant upside potential for investors. Its developments so far have been promising, and it could prove to be a company that will make early investors rich.

Pure-play quantum computing company Rigetti Computing (NASDAQ:RGTI) is known for its vertically integrated approach. This includes designing and manufacturing quantum processors.

Rigetti has achieved a significant milestone with its 128-qubit chip, which promises to advance quantum computing capabilities and enable new applications. This development is a key part of Rigettis roadmap to scale up quantum systems and improve performance metrics.

Also, in Q1 2024, Rigetti reported a 99.3% median 2-qubit gate fidelity on its 9-qubit Ankaa-class processor. This high level of fidelity is crucial for reliable quantum computations and positions Rigetti well against competitors.

The market cap of RGTI is a fraction of IONQs at just under 200 million at the time of writing. Its progress is similarly impressive, so it could hold significant upside and potentially mint a new generation of millionaires with a large enough investment.

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.

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3 Quantum Computing Stocks to Buy Be Millionaire-Makers: May - InvestorPlace

PARIS and BOSTON, May 23, 2024 Alice & Bob, a global leader in the race for fault-tolerant quantum computing, today announced the publication of its foundational research in Nature, showcasing significant advancements in cat qubit technology.

The study, Quantum control of a cat-qubit with bit-flip times exceeding ten seconds, realized in collaboration with the QUANTIC Team (Mines Paris PSL, Ecole Normale Suprieure and INRIA), demonstrates an unprecedented improvement in the stability of superconducting qubits, marking a critical milestone towards useful fault-tolerant quantum computing.

The researchers have significantly extended the bit-flip times from milliseconds to tens of secondsthousands of times better than any other superconducting qubit type.

Quantum computers face two types of errors: bit-flips and phase-flips. Cat qubits exponentially reduce bit-flips, which are analogous to classical bit flips in digital computing. As a result, the remaining phase-flips can be addressed more efficiently with simpler error correcting codes.

The researchers used Alice & Bobs Boson 3 chipset for this record-breaking result, which features a cat qubit design named TomCat. TomCat employs an efficient quantum tomography (measurement) protocol that allows for the control of quantum states without the use of a transmon, a common circuit used by many quantum companies, but one of the major sources of bit-flips for cat qubits. This design also minimizes the footprint of the qubit on the chip, removing drivelines, cables, instruments, making this stable qubit scalable. Recently, Alice & Bob made publicly available their new Boson 4 chipset that reaches over 7 minutes of bit-flip lifetime. The results from this Nature Publication can therefore be reproduced by users on Boson 4 over Google Cloud.

Although Alice & Bobs latest Boson chips are getting closer to the company bit-flip protection targets, Alice & Bob plans to further advance their technology. The next iterations will focus on boosting the cat qubit phase-flip time and readout fidelity to reach the requirements of their latest architecture to deliver a 100 logical qubit quantum computer.

Key advances highlighted in the research include:

About Alice & Bob

Alice & Bob is a quantum computing company based in Paris and Boston whose goal is to create the first universal, fault-tolerant quantum computer. Founded in 2020, Alice & Bob has already raised 30 million in funding, hired over 95 employees and demonstrated experimental results surpassing those of technology giants such as Google or IBM. Alice & Bob specializes in cat qubits, a pioneering technology developed by the companys founders and later adopted by Amazon. Demonstrating the power of its cat architecture, Alice & Bob recently showed that it could reduce the hardware requirements for building a useful large-scale quantum computer by up to 200 times compared with competing approaches. Alice & Bob cat qubit is available for anyone to test through cloud access.

Source: Alice & Bob

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Alice & Bob's Cat Qubit Research Published in Nature - HPCwire

The current rage is about artificial intelligence, but the advancement of the AI field relies on a few key elements including quantum computing

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If youre on the hunt for quantum computing stocks to buy, youre in the right place. For the past several years, artificial intelligence (AI) has taken the front stage. Notjust in the techfield,but also in the stock market.AI advancement has been tremendous, allowingbusinesses, bothlarge and small,to automate some of their processes.Some of the largest companies have ramped uptheirinvesting in AI teams and divisions, amounting to billions of dollars in additional capital justto keep up with others in the field.

However,there is a newcomer to the field that is independent of AI but will complement it in the future, which is quantum computing. But what is it exactly?Quantum computing uses specialized algorithms and hardware while using quantum mechanics to solve complex problems that typical computerswill takeeithertoo long to solveorcannot solve entirely.Although the world of quantum computing and AI is incredibly complex, we have simplified investing in the field by narrowing it down to 3 companiesthat areat the forefront of the industry, while still being diversified.

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Nvidia (NASDAQ:NVDA) is an American-based and international leader in the designing and manufacturing of graphics processing units. Although the companys main focus currently is on the AI market, it also has a division that focuses on the quantum computing industry. The stock currently trades at about $924, with a price target of $1,100. This new price target is almost $200 more than the current trading price of a stock, signifying a significant upside potential for Nvidia.

The company accelerates quantum computing centers around the world with its proprietary CUDA-Q platform. The platform also ties quantum computing into AI, allowing the system to solve new and countless problems much faster than before.

The stock currently trades at 36.53x forward earnings. This is about 20% lower in comparison to the stocks own five-year average forward price to earnings (P/E) ratio of 46.14x. Thus, considering what the stock usually trades for, it might be relatively undervalued and at a great point to scoop up some shares.

The company that goes hand in hand with the internet is Alphabet (NASDAQ:GOOG, NASDAQ:GOOGL). The American company first started as a search engine in the late 90s with its main goal of creating the perfect search engine. Fast forward 25 years and you now have a multi-trillion-dollar international company with departments in tech, consumer electronics, data, AI, e-commerce and quantum computing. The companys stock currently trades at about $177 but is on track to rise to an average of $195, with a high of $225 in the next 12 months.

In recent years, it has set out to build the best quantum computing for otherwise impossible problems with the introduction of XPRIZE Quantum Applications and Quantum AI. The program is designed to advance the field of algorithms relating to quantum computing with real-world applications.

As such, the company is in a quickly growing phase, and EPS is forecast to soar from $5.80 last year to over $7.84 by 2025. This makes it a great pick for any investor.

Intel (NYSE:INTC) has specialized in semiconductors since its founding in Mountain View, California in 1968. The company is the worlds largest manufacturer of semiconductors and CPUs and has been since its founding. Intels stock is at about $32 and the average price target is $39.63, with a low of $17 and a high of $68. This would mean an upside potential of almost 24%, on average.

The company has invested heavily in quantum computing in the past several years and is currently putting its expertise to good use, creating hot silicon spin qubits. Qubits are essentially small computing devices that perform differently than typical transistors while also operating at high temperatures.

The company is working diligently on applying the qubits into quantum computing chips that can be used to advance countless fields, while also working with AI systems. All this work is not for nothing. The company is translating this into earnings growth with EPS expected to rise from $1.01 at the end of this year to $1.80 by the end of 2025. As such, this stock should be on any investors watch list.

On the date of publication, Ian Hartana and Vayun Chugh did not hold (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.com Publishing Guidelines.

Chandler Capital is the work of Ian Hartana and Vayun Chugh. Ian Hartana and Vayun Chugh are both self-taught investors whose work has been featured in Seeking Alpha. Their research primarily revolves around GARP stocks with a long-term investment perspective encompassing diverse sectors such as technology, energy, and healthcare.

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The 2025 Millionaire's Club: 3 Quantum Computing Stocks to Buy Now - InvestorPlace