Category Archives: Quantum Computing

Hulu's Devsepisode 4 made a bombshell revelation - the Multiverse exists in this universe, and it has the power to radically change everything they know about the projectthey're working on. Devs is an eight-part miniseriesdirected by veteran sci-fi filmmaker Alex Garland, and produced as part of the new FX on Hulu banner. The story follows computer engineer Lilly Chan as she dives into the seedy underbelly of the quantum computing company Amaya, a corporation which she believes is responsible for the mysterious death of her boyfriend.

In Devs episode 1, audiences are slowly keyed into the fact that Amaya is working on some kind of mysterious project, one that revolves around the deterministic De Brogile-Bohm theory of quantum mechanics. Throughout episodes 2 and 3, however, the project becomes clearer: the Devs team has created a quantum computer capable of projecting the past and predicting the future. Despite the major ethical and existential questions posed by the existence of the software, it hasn't been perfected just yet, and that's precisely what Forest, the CEO of Amaya, wants.But inDevsepisode 4, the team takes a huge step towards perfecting the projection project, while also inadvertently making a massive discovery about the nature of their reality. And not only does their discovery change the nature of their work with the projection project, but it also might become distinctly important to Forest andhis reasoning behind creating Amayain the first place.

Related: Hulu's Devs Cast & Character Guide

So far, the projection project has simply been an abstract visual rendering of code, which occasionally coalesces to provide an image of a historical event, such as the crucifixion of Christ in the second episode, or a night of love-making betweenMarilyn Monroe and Arthur Miller. All the visuals are in black-and-white and presented like a matrix of binary code. This is because the basis of the program is modeled after the De Brogile-Bohm theory, a quantum mechanics theory that postulates our universe, and the sequence of events that take place within it, are entirely pre-determined as a result of cause and effect. Free will is a myth, and the reason the projection project can predict the future is because it's simply a matter of data.

This theory is preferred by Forest, and it's responsible for the progress that the Devs team has already made. However, Lyndon, an audio engineer for the project, decides to experiment around and develop a new algorithm for sound waves, replacing the single-universe De Brogile-Bohm theory with Hugh Everett's many-worlds theory, which assumes that all possible outcomes of quantum measurements are physically realized in some world. This immediately creates tangible results, and Lyndon produces crisp and clear audio of Jesus Christ of Nazareth praying on the cross.

While it seems as if everyone would be ecstatic about this breakthrough, Forest is furious. In his opinion, swapping out for the many-worlds theory is cheating, because while the audio is clear and Jesus, indeed, can be heard, it's not the Jesus who died on the cross in their universe, thus making it invalid. When Lyndon tries to argue his point, Forest retaliates by firing him. It's clear that whatever Forest plans on using the projection project for, he doesn't want to cut any corners.

Devsepisode 4 also continues dropping subtle hints at Forest's trauma and his reasoning for creating Amaya. When Katie, his closest confidant, accosts him for firing Lyndon, he fires back by telling her that an alternate universe means it "won't be his Amaya," referring to the deceased daughter he mentioned to Lilly back in episode 2. Katie then tells Forest that she's swapped the many-worlds algorithm into the project's light waves as well, and uses it to project a crystal clear image of Forest's daughter that leaves him in tears.

While all but confirmed at this point, it seems as if the projection project represents a crucial step in Forest's journey to get some closure regarding his daughter. And if the ending of the episode is any indication at all, we might see Forest compromise for an alternate universe version of his daughter. Devs has already been a uniquely mind-bending experience, but the introduction of the multiverse might take it even further.

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Chrishaun Baker is a Feature Writer for Screen Rant, with a host of interests ranging from horror movies to video games to superhero films. A soon-to-be graduate of Western Carolina University, he spends his time reading comic books and genre fiction, directing short films, writing screenplays, and getting increasingly frustrated at the state of film discourse in 2020. You can find him discussing movies on Letterboxd or working up a migraine over American politics on Twitter.

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Hulu's Devs Just Confirmed The [SPOILER] Exists - Here's Why It Matters - Screen Rant

The company also announced it has made strategic investments in two leading quantum computing software providers and will work together to develop quantum computing algorithms with JPMorgan Chase. Together, these announcements demonstrate significant technological and commercial progress for quantum computing and change the dynamics in the quantum computing industry.

Within the next three months, Honeywell will bring to market the world's most powerful quantum computer in terms of quantum volume, a measure of quantum capability that goes beyond the number of qubits. Quantum volume measures computational ability, indicating the relative complexity of a problem that can be solved by a quantum computer. When released, Honeywell's quantum computer will have a quantum volume of at least 64, twice that of the next alternative in the industry.

In a scientific paper that will be posted to the online repository arXiv later today and is available now on Honeywell's website, Honeywell has demonstrated its quantum charge coupled device (QCCD) architecture, a major technical breakthrough in accelerating quantum capability. The company also announced it is on a trajectory to increase its computer's quantum volume by an order of magnitude each year for the next five years.

This breakthrough in quantum volume results from Honeywell's solution having the highest-quality, fully-connected qubits with the lowest error rates.

Building quantum computers capable of solving deeper, more complex problems is not just a simple matter of increasing the number of qubits, said Paul Smith-Goodson, analyst-in-residence for quantum computing, Moor Insights & Strategy. Quantum volume is a powerful tool that should be adopted as an interim benchmarking tool by other gate-based quantum computer companies.

Honeywell Chairman and Chief Executive Officer Darius Adamczyk said companies should start now to determine their strategy to leverage or mitigate the many business changes that are likely to result from new quantum computing technology.

Quantum computing will enable us to tackle complex scientific and business challenges, driving step-change improvements in computational power, operating costs and speed, Adamczyk said. Materials companies will explore new molecular structures. Transportation companies will optimize logistics. Financial institutions will need faster and more precise software applications. Pharmaceutical companies will accelerate the discovery of new drugs. Honeywell is striving to influence how quantum computing evolves and to create opportunities for our customers to benefit from this powerful new technology.

To accelerate the development of quantum computing and explore practical applications for its customers, Honeywell Ventures, the strategic venture capital arm of Honeywell, has made investments in two leading quantum software and algorithm providers Cambridge Quantum Computing (CQC) and Zapata Computing. Both Zapata and CQC complement Honeywell's own quantum computing capabilities by bringing a wealth of cross-vertical market algorithm and software expertise. CQC has strong expertise in quantum software, specifically a quantum development platform and enterprise applications in the areas of chemistry, machine learning and augmented cybersecurity. Zapata creates enterprise-grade, quantum-enabled software for a variety of industries and use cases, allowing users to build quantum workflows and execute them freely across a range of quantum and classical devices.

Honeywell also announced that it will collaborate with JPMorgan Chase, a global financial services firm, to develop quantum algorithms using Honeywell's computer.

Honeywell's unique quantum computer, along with the ecosystem Honeywell has developed around it, will enable us to get closer to tackling major and growing business challenges in the financial services industry, said Dr. Marco Pistoia, managing director and research lead for Future Lab for Applied Research & Engineering (FLARE), JPMorgan Chase.

Honeywell first announced its quantum computing capabilities in late 2018, although the company had been working on the technical foundations for its quantum computer for a decade prior to that. In late 2019, Honeywell announced a partnership with Microsoft to provide cloud access to Honeywell's quantum computer through Microsoft Azure Quantum services.

Honeywell's quantum computer uses trapped-ion technology, which leverages numerous, individual, charged atoms (ions) to hold quantum information. Honeywell's system applies electromagnetic fields to hold (trap) each ion so it can be manipulated and encoded using laser pulses.

Honeywell's trapped-ion qubits can be uniformly generated with errors more well understood compared with alternative qubit technologies that do not directly use atoms. These high-performance operations require deep experience across multiple disciplines, including atomic physics, optics, cryogenics, lasers, magnetics, ultra-high vacuum, and precision control systems. Honeywell has a decades-long legacy of expertise in these technologies.

Today, Honeywell has a cross-disciplinary team of more than 100 scientists, engineers, and software developers dedicated to advancing quantum volume and addressing real enterprise problems across industries.

Honeywell (www.honeywell.com) is a Fortune 100 technology company that delivers industry-specific solutions that include aerospace products and services; control technologies for buildings and industry; and performance materials globally. Our technologies help aircraft, buildings, manufacturing plants, supply chains, and workers become more connected to make our world smarter, safer, and more sustainable. For more news and information on Honeywell, please visit http://www.honeywell.com/newsroom.

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Honeywell Achieves Breakthrough That Will Enable The Worlds Most Powerful Quantum Computer #47655 - New Kerala

The massive amount of processing power generated by computer manufacturers has not yet been able to quench our thirst for speed and computing capacity. In 1947, American computer engineer Howard Aiken said that just six electronic digital computers would satisfy the computing needs of the United States. Others have made similar errant predictions about the amount of computing power that would support our growing technological needs. Of course, Aiken didn't count on the large amounts of data generated by scientific research, the proliferation of personal computers or the emergence of the Internet, which have only fueled our need for more, more and more computing power.

Will we ever have the amount of computing power we need or want? If, as Moore's Law states, the number of transistors on a microprocessor continues to double every 18 months, the year 2020 or 2030 will find the circuits on a microprocessor measured on an atomic scale. And the logical next step will be to create quantum computers, which will harness the power of atoms and molecules to perform memory and processing tasks. Quantum computers have the potential to perform certain calculations significantly faster than any silicon-based computer.

Scientists have already built basic quantum computers that can perform certain calculations; but a practical quantum computer is still years away. In this article, you'll learn what a quantum computer is and just what it'll be used for in the next era of computing.

You don't have to go back too far to find the origins of quantum computing. While computers have been around for the majority of the 20th century, quantum computing was first theorized less than 30 years ago, by a physicist at the Argonne National Laboratory. Paul Benioff is credited with first applying quantum theory to computers in 1981. Benioff theorized about creating a quantum Turing machine. Most digital computers, like the one you are using to read this article, are based on the Turing Theory. Learn what this is in the next section.

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How Quantum Computers Work | HowStuffWorks

Quantum computing is an exciting new computing paradigm with unique problems to be solved and new physics to be discovered. Quantum computing, in essence, is the ultimate in parallel computing, with the potential to tackle problems conventional computers cant handle. For example, quantum computers may simulate nature to advance research in chemistry, materials science and molecular modeling. In 2015, Intel established a collaborative relationship with QuTech to accelerate advancements in quantum computing. The collaboration spans the entire quantum system or stack from qubit devices to the hardware and software architecture required to control these devices as well as quantum applications. All of these elements are essential to advancing quantum computing from research to reality.

Jim Clarke, Intel Corporations director of quantum hardware, holds an Intel 49-qubit quantum test chip, called Tangle Lake, in front of a dilution refrigerator at QuTechs quantum computing lab inside Delft University of Technology in July 2018. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

Florian Unseld (left) and Kian van der Enden, research assistants at QuTech, work on a readout tool for an Intel quantum test chip at Delft University in July 2018. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

Dr. Leonardo DiCarlo, professor of superconducting quantum circuits, works on a dilution refrigerator for quantum computing at Delft University of Technology in July 2018. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

Brian Tarasimski, (left) post-doctoral researcher, and Dr. Leonardo DiCarlo, professor of superconducting quantum circuits, both of QuTech, work on a dilution refrigerator for quantum computing at Delft University of Technology in July 2018. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

A July 2018 photo shows a dilution refrigerator at QuTechs quantum computing lab. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

A July 2018 photo shows a dilution refrigerator at QuTechs quantum computing lab. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

A July 2018 photo shows a dilution refrigerator at QuTechs quantum computing lab. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

A July 2018 photo shows a dilution refrigerator at QuTechs quantum computing lab. QuTech at Delft University of Technology is Intel Corporations quantum computing research partner in the Netherlands. (Credit: Tim Herman/Intel Corporation)

A July 2018 photos shows an Intel Corporation-manufactured wafer that contains working spin qubits. (Credit: Tim Herman/Intel Corporation)

A July 2018 photos shows an Intel Corporation-manufactured wafer that contains working spin qubits. (Credit: Tim Herman/Intel Corporation)

Changing the World with Quantum Computing | Intel

Intel & Qutech Advance Quantum Computing Research (B-roll)

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Intel Corporation has invented a spin qubit fabrication flow on its 300 mm process technology using isotopically pure wafers like this one. (Credit: Walden Kirsch/Intel Corporation)

Intel Corporation has invented a spin qubit fabrication flow on its 300 mm process technology using isotopically pure wafers like this one. (Credit: Walden Kirsch/Intel Corporation)

Intels director of quantum hardware, Jim Clarke, holds the new 17-qubit superconducting test chip. (Credit: Intel Corporation)

Intels 17-qubit superconducting test chip for quantum computing has unique features for improved connectivity and better electrical and thermo-mechanical performance. (Credit: Intel Corporation)

Researchers work in the quantum computing lab at QuTech, Intels quantum research partner in the Netherlands. Intel in October 2017 provided QuTech a 17-qubit superconducting test chip for quantum computing. (Credit: QuTech)

Professor Leo DiCarlo poses in the quantum computing lab at QuTech, Intels quantum research partner in the Netherlands. Intel in October 2017 provided QuTech a 17-qubit superconducting test chip for quantum computing. (Credit: QuTech)

Intel is collaborating with QuTech in the Netherlands to advance quantum computing research. Intel in October 2017 provided QuTech a 17-qubit superconducting test chip for quantum computing. (Credit: Intel Corporation)

Intels new 17-qubit superconducting test chip packaged for delivery to research partners at QuTech, Intels quantum research partner in the Netherlands. Intel in October 2017 provided QuTech with the 17-qubit superconducting test chip for quantum computing. (Credit: Intel Corporation)

A 2018 photo shows Intels new quantum computing chip balanced on a pencil eraser. Researchers started testing this spin qubit chip at the extremely low temperatures necessary for quantum computing: about 460 degrees below zero Fahrenheit. Intel projects that qubit-based quantum computers, which operate based on the behaviors of single electrons, could someday be more powerful than todays supercomputers. (Credit: Walden Kirsch/Intel Corporation)

Intel Corporation is making fast progress scaling superconducting quantum computing test chips to higher qubit counts -- from 7, to 17 and now 49 qubits (left to right). Multiple gold connectors are required to control and operate each qubit. (Credit: Walden Kirsch/Intel Corporation)

Intel Corporations 49-qubit quantum computing test chip, code-named Tangle Lake, is unveiled at 2018 CES in Las Vegas. (Credit: Walden Kirsch/Intel Corporation)

Intel Corporations self-learning neuromorphic research chip, code-named Loihi. (Credit: Intel Corporation)

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Quantum Computing | Intel Newsroom

The race to build the best and the fastest quantum computer continues, but now it's not just Google AI and IBM who are running Honeywell has joined in too.

Entering in style, Honeywell made the bold statement that "By the middle of 2020, we're releasing the most powerful quantum computer yet."

SEE ALSO: IBM'S 53 QUBIT QUANTUM COMPUTER WILL BE AVAILABLE BY OCTOBER

Google AI and IBM have been in the race for a while now. Just last October Google claimed to have made it to "quantum supremacy" by creating a quantum computer that could solve a problem that would have taken the world's most powerful supercomputer 10,000 years to figure out.

Immediately after, IBM refuted Google's statement.

Perhaps it's now time for both Google and IBM to move aside and let a third contender join in on the fun. North Carolina-based multinational conglomerate, Honeywell, has claimed that their quantum computer has twice the power as the best quantum computer that currently exists.

It's an interesting statement to make given there isn't yet a universally accepted standard for the power of a quantum computer.

Honeywell's quantum computer is supposedly extremely stable, and instead of depending on faster superconducting chips like Google AI and IBM use, Honeywell's computer uses ion traps instead. This technology enables individual ions to be held in place using electromagnetic fields and moves around thanks to laser pulses.

It's these ion traps that Honeywell claims will make its quantum computer far more scaleable.

We're yet to see a commercially available quantum computer, however, these technologies hold the real potential to revolutionize computing by being able to solve unbelievably long and complicated numerical problems simultaneously by using qubits instead of bits.

After Honeywell's rather large claim, the company has yet to reveal the computer but as they stated, we'll just have to wait until the middle of 2020.

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Honeywell Claims to Have Built the "Most Powerful" Quantum Computer - Interesting Engineering

The worlds tech industry will be shaped by China, artificial intelligence, cancel culture, and a number of other trends, according to the Future Today Institutes 2020 Tech Trends Report.

Now in its 13th year, the document is put together by the Future Today Institute and director Amy Webb, who is also a professor at New York Universitys Stern School of Business. The report attempts to recognize connections between tech and future uncertainties like the outcome of the 2020 U.S. presidential election, as well as the spread of epidemics like coronavirus.

Among major trends in the report, 2020 will be the synthetic decade.

Soon, we will produce designer molecules in a range of host cells on demand and at scale, which will lead to transformational improvements in vaccine production, tissue production and medical treatments. Scientists will start to build entire human chromosomes, and they will design programmable proteins, the report reads.

Augmentation of senses like hearing and sight, social media scaremongering, new ways to measure trust, and Chinas role in the growth of AI are also listed among key takeaways.

Artificial intelligence is again the first item highlighted on the list, and the tech Webb says is sparking a third wave of computing comes with positives like the role AlphaFold can play in discovering cures to diseases, and negatives like its current impact on the criminal justice system.

Tech giants in the U.S. and China like Amazon, Facebook, Google, and Microsoft in the United States and Tencent and Baidu in China continue to deliver the greatest impact. Webb predicts how these companies will shape the world in her 2019 bookThe Big Nine.

Those nine companies drive the majority of research, funding, government involvement and consumer-grade applications of AI. University researchers and labs rely on these companies for data, tools and funding, the report reads. Big Nine A.I. companies also wield huge influence over A.I. mergers and acquisitions, funding A.I. startups and supporting the next generation of developers.

Synthetic data, a military-tech industrial complex, and systems made to recognize people were also listed among AI trends.

Visit the Future Today Institute website to read the full report, which states whether a trend requires immediate action. Trends by industry are also highlighted.

Webb urges readers not to digest report urges readers to digest the 366-page report in multiple sittings rather than trying to read it all at once. Webb typically debuts the report with a presentation to thousands at the SXSW conference in Austin, Texas but the conference was cancelled due to coronavirus.

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Quantum computing, AI, China, and synthetics highlighted in 2020 Tech Trends report - VentureBeat