Archive for the ‘Quantum Computer’ Category
3 Quantum Computing Stocks to Buy for the Next Bull Run: February 2024 – InvestorPlace
Quantum computing stocks stand out as symbols of innovation in a tech world that is quickly changing. They promise to push the limits of processing power and computer efficiency. As investors look for more ground-breaking quantum technology investments, these stocks become more appealing.
The quantum computing market is undergoing rapid growth and transformation. As a result of the rapid expansion, new growth areas are cropping up at every moment. As a savvy investor, we need to make sure we can take advantage of these opportunities.
You need to know a lot about how much money is spent on quantum research and development and how the market for quantum computers is changing to get around in this new field. Market predictions for this creative new area are going through the roof as more money comes in from both the public and private sectors.
Hence, with each step forward, quantum computings promise grows, calling for a closer look at how it will change the tech world and other fields. Keeping this in mind, let us explore three big players in the quantum computing stocks space.
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IBM (NYSE:IBM) is a leader in quantum computing, which is a new and exciting field. The IBM Quantum Heron engine that it just released is a big step forward. The company that made this processor says it has increased the rate of mistake reduction by five times. This kind of useful improvement is necessary to make sure that any solution is reliable.
The IBM Quantum System Two was also shown. This amazing flexible quantum computer was an idea that IBM came up with to make quantum computing more scalable. It started using three Heron computers in its work, showing that it was open to new technology.
IBMs plan for quantum computing is both useful and far-fetched. Its main goal is to make the gate operations better, which will make the quantum circuit bigger. Thats how the full promise of quantum computing will be used in the end.
IBM released Qiskit 1.0, which made quantum computing easier to use from a software point of view. Quartz devices are easy to run with this open-source software. It is a step toward democracy in the quantum world.
In conclusion, IBM is changing the future of quantum computing by developing a worldwide ecosystem that improves researcher cooperation and helps companies solve difficult problems quickly. Through its strategic relationships with academic, scientific, and industry institutions, IBM takes the lead in the realm of quantum computing. Notably, these collaborations serve to enhance innovation and, consequently, could significantly accelerate the acceptance and further development of quantum computing. This, in turn, solidifies and reinforces IBMs dominant position in this rapidly evolving and fascinating field.
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IonQ (NYSE:IONQ) has done something amazing that makes it stand out in the world of quantum computing. The IonQ Forte device from the company had 35 computational qubits. It took a whole year longer than planned to reach this goal. Its a big step forward for quantum computers.
This new information puts IonQ at the top of the list of stocks for quantum computing. The improved system can work with quantum devices that are bigger. For this reason, it works great for complicated tasks in quantum machine learning and science.
IonQs success comes from the way it optimizes everything. Both hardware and software got better. The company added more qubits and made a quantum program generator that works better.
IonQs dedication to accuracy is shown by the use of the AQ measure. It lets the machine look into more than 34 billion possible outcomes. This makes it possible for quantum computing to go in new directions.
The progress made by IonQ has wide-ranging effects. More complicated devices and programs can be run with their help. You can use the companys technology on all the big cloud systems.
Altogether, IonQs accomplishments show how important it is to bring quantum computing into the business world. The companys progress essentially shows how quantum computing will be used to solve hard tasks in the future. IonQs journey shows how committed it is to being innovative and the best in the area of quantum computing.
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Rigetti Computing (NASDAQ:RGTI) is at the forefront of the quantum computing field and is known for always making progress. It also just recently released the Ankaa-2 System, which is a big step forward. This cutting-edge system is 2.5 times better than the ones that came before it, showing how quickly quantum technology is developing. You can use Rigetti Quantum Cloud Services to reach the 84-qubit Ankaa-2. It has an amazing 98% two-qubit accuracy, which sets a new bar for speed and stability in quantum computing.
Additionally, Rigetti has started a new project with the help of an Innovate UK grant. The main goal of this project is to create quantum machine learning methods for looking at streams of financial data. This partnership shows that Rigetti is serious about using quantum computing for useful purposes in the real world.
In summary, these new developments show how hard Rigetti is working to be the best among quantum computing stocks. With each new invention, the limits of what is possible are pushed further. In addition, quantum technologies are also ready to solve difficult problems in many fields. Rigetti wants to improve quantum computing technology because its unique work keeps moving the field forward.
On the publication date, Faizan Farooque did not hold (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.
Faizan Farooque is a contributing author for InvestorPlace.com and numerous other financial sites. Faizan has several years of experience in analyzing the stock market and was a former data journalist at S&P Global Market Intelligence. His passion is to help the average investor make more informed decisions regarding their portfolio.
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‘Quantum Poetics’ marries quantum physics and poetry Old Gold & Black – Old Gold & Black
Amy Catanzano is an associate professor of English in creative writing and the poet-in-residence at Wake Forest. On Wednesday, Jan. 31, she streamed her talk titled Quantum Poetics: On Physics and Poetry, which emerged from her upcoming book, The Imaginary Present: Essays in Quantum Poetics. She then answered questions during a live, virtual Q&A session.
Catanzanos work, which she broadly refers to as quantum poetics, combines quantum physics the study of matter at the sub-atomic level with poetry to produce a variety of writing from poetry to essay to memoir. She is particularly interested in the potential that theoretical physics creates for new modes of artistic expression.
While Catanzano is primarily a writer and professor of creative writing, she has dedicated much of her life to studying and researching physics. Such scientific inquiry has led her to collaborate with renowned scientists at the European Organization for Nuclear Research (CERN) in Switzerland, the Cerro Tololo Inter-American Observatory in Chile and the Simons Center for Geometry and Physics in New York. She is especially excited by the cutting-edge fields of quantum computing, high-energy particle physics and astrophysics.
The talk began with a meditation on time, which did well to set the stage for what was to follow. Catanzano declared that one doesnt need to be a poet or a scientist to get the sense that time is not what it appears to be, but that poetry and physics are quite alike in their ability to challenge normative temporality. While breakthroughs in physics like Albert Einsteins theory of relativity have effectively demonstrated the subjectivity of time, a poem can make a reader feel that instability.
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Ordinary conceptions of time must be revised in order to account for the discoveries that scientists about the universe have made, Catanzano said. Poetry is an effective tool for such revision.
Physics and poetry are often understood as disparate fields on polar ends of the sciences-humanities spectrum, but Catanzanos work illustrates the complementary nature of the two. She spoke about how she has come to understand physics as a philosophical and cultural discourse one that is constantly reinventing and challenging itself.
One doesnt need to be a poet or a scientist to get the sense that time is not what it appears to be.
Amy Catanzano
Quantum poetics [posits] that quantum theory is encoded in and by artistic practice, she said.
The influence goes both ways.
Quantum poetics is rooted in a rich tradition of artists responding to scientific paradigm shifts around them. Yet Catanzano believes that quantum poetics departs from some of the conventions of this tradition by heading off the grid altogether. Quantum poetics does not simply allude to scientific research; the two are completely intertwined. One such instance is Catanzanos poem World Lines, a quantum supercomputer poem.
World Lines contains lines of poetry that criss-cross over top of one another. At these intersections, the lines share a word where ordinarily a quantum knot would be produced in a topological quantum computer. The reader can read the poem in a linear or choose a branch of poetry to follow when they get to a shared word.
Catanzano knew that there were multiple poems within the poem existing in a state of quantum superposition but she did not know how many. That was until she collaborated with Michael Taylor, a computer scientist who created an AI that, thus far, has found over a thousand distinct poems within World Lines.
One might wonder what poetry can do for a robust field like physics how can poems impact a scientific discipline built on real-world experiments and mathematical proofs? According to Catanzano, poetry is especially poised to respond to a question that science on its own has been unable to answer. That question is: what does quantum physics mean?
Poetry, with its endless freedom, gives us the necessary outlet to grapple with the ramifications of quantum physics as well as imagine the new doors it can open for us. Via poetry, written and spoken words take on the role of physical manifestations of possibility in potentia, the imagination made material.
After the talk concluded, Catanzano pivoted to answering live questions from the comments section of the video. The audiences reception was ecstatically positive as dozens of questions poured in not due to confusion but curiosity. Quantum physics and avante-garde poetry are liable to be inaccessible to the general public, but Catanzanos talk was easy to follow without sacrificing much of its complexity and nuance.
If the questions directed toward Catanzano after her talk can confirm anything, it is that many viewers walked away having learned a great deal, but still they were hungry to discover even more.
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Multiverse Computing and Single Quantum Launch Materials Science Research Contract with German Aerospace Center – AZoM
Multiverse Computing, a global leader in value-based quantum computing solutions, andSingle Quantum, the global market leader in superconducting nanowire single photon detectors, today announcedan industrial materials science research and development project under a USD $1.4 million contract with the German Aerospace Centers DLR Quantum Computing Initiative (DLR QCI).
DLR researchers expect this work toenable quantum applications that outperform classical methodsin the short- to mid-term on quantum hardware currently under development. The two quantum companies won funding through a competitive bidding process to use quantum simulation to improve the transmission capabilities of superconducting nanowire single photon detectors. These detectors are essential for quantum communications devices and more accurate than other types of photon detectors.
There are multiple additional use cases for single photon detectors ranging from quantum computing to deep-space communication and bio-imaging. DLR's exploration of these use cases aims to achieve quantum applications that outperform classical methods across transport, energy and security.
Multiverse Computing and Single Quantum will use quantum simulation to improve the superconducting film that allows the hardware to detect photons.
Materials simulation is a huge research area where we know classical computing has significant limitations, said Enrique Lizaso-Olmos, co-founder and CEO of Multiverse Computing. Finding new methods to efficiently simulate materials using quantum computing has great potential, and it is a problem worth investing in the long term due to its high value.
Multiverses quantum algorithm experts will work with hardware engineers at Single Quantum to create an algorithm specifically designed for the DLRQCIsquantum computers. Single Quantum specializes in fast and highly sensitive light sensors based on a superconducting nanowire single photon architecture. The company was among the first to manufacture and commercialize superconducting nanowire single photon detectors.
Our technology combines unparalleled detection efficiency and time resolution to make our superconducting detectors the ideal choice for many use cases, including quantum communication and cryptography, said Andreas Fognini, Chief Technology Officer at Single Quantum. We expect this work with Multiverse Computing and DLR to refine these capabilities even further.
Other teams within the larger DLRQCI initiative will be able to use the knowledge from this project to simulate other materials or conduct additional quantum simulations, according to the researchers.
Launched in 2021, the objective of the DLR QCI is to develop and expand the agencys quantum competencies and strengthen the quantum computing ecosystem. The Algorithms for Quantum Computer Development in Hardware-Software Codesign (ALQU) is one of many application projects within the DLR QCI. The materials science research led by Multiverse and Single Quantum will support two goals in the ALQUs work: the efficient compilation of circuits on quantum hardware and the development of quantum algorithms for industrial use. Winning this project strengthens Multiverse Computings position in the countrys quantum computing ecosystem and builds on its previous work with other major German companies, including Bosch, ZF, BASF and others.
The DLR Institute of Software Technology supports cutting-edge research at the German Aerospace Center and offers its expertise for projects in all of DLR's subject areas: aerospace, energy, transport and security. The quantum initiative commissions industrial companies to develop quantum computers and the necessary supporting technologies.
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Quantum Computing and AI: Processing Power Isn’t Everything – Medium
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In recent years, artificial intelligence (AI) has advanced at a breakneck pace. AI systems have beaten the worlds best players at complex games like chess, Go, and poker. Natural language processing algorithms can now hold remarkably human-like conversations. Computer vision technologies enable self-driving cars and other robotic automation.
With AI progressing so rapidly, there is a palpable sense that we are approaching and perhaps will soon surpass human-level artificial general intelligence (AGI).
Compounding this excitement around emerging AI capabilities is the long-simmering potential of quantum computing. Quantum computers promise almost inconceivable processing power stemming from uniquely quantum mechanical phenomena. As such, there is understandable hype around quantum computing acceleration ushering in an era of unbelievable machine intelligence.
However, this perspective assumes computational muscle alone can unlock artificial superintelligence. The reality is more nuanced. While quantum computing will undoubtedly assist AI progress in certain regards, raw processing power is not enough to achieve the flexible, general, and creative intelligence we associate with human minds.
Developing advanced algorithms and aggregation of quality data are equally, if not more, important. And there are open questions around how we integrate noisy, error-prone quantum computers with machine learning workloads.
Quantum computing offers tremendous potential for AI, but it is not a panacea to ignite an imminent computing revolution that suddenly cracks open artificial general intelligence.
For at least the past half-century, the processing capability of classical computers has steadily doubled approximately every two years. This exponential growth rate, known as Moore's Law, has allowed modern computers to perform incredible numbers of calculations per second and hold astounding amounts of memory.
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Quantum Computing and AI: Processing Power Isn't Everything - Medium
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