#Quantum Computing Developments

Así es una computadora cuántica (Quantum Computing) presentada por IBM en el #ces2020

"Quantum computing is reaching an inflection point," Nvidia CEO Jensen Huang said at Nvidia’s GTC Paris conference.⁠ ⁠ Huang noted that Nvidia has more than 20 “AI factories” in development across the continent, promising European researchers and startups that their “GPU shortage will be resolved” soon.⁠ ⁠ The CEO also touched on Nvidia’s quantum computing efforts, spotlighting its hybrid quantum-classical platform, Cuda Q, and claiming that the technology could begin solving real-world problems in the next few years.⁠ ⁠ 🔗 Click the link in the bio to read more.

Computing as we know it uses 1’s and 0’s to complete functions. Quantum computation, however, takes on richer states that go far beyond just a simple 1 or 0. In our latest discovery, our Quantum AI researchers hit a breakthrough that significantly shifts how we understand and operate quantum computing. Just ask Yu Chen, Lead Scientist in Quantum Metrology, who breaks down the bits and bobs of an enhanced quantum computer. At the link in bio, learn more about our recent milestone.

Quantum computing is being hailed at the next frontier in high-performance processing. But can the technology live up to the hype? @tommackenzietv breaks down the global race for quantum supremacy, and what comes next. Tap the link in our bio for the latest episode of "Bloomberg Tech: Europe".

The future of quantum computing is closer than ever. Meet Majorana 1—the world’s first quantum processor powered by topological qubits, featuring a new state of matter. Built with breakthrough topoconductor materials, it’s a major step toward making scalable quantum computing a reality. Learn more at the link in bio. #QuantumReady

Quantum entanglement the invisible web that holds the universe together #philosophy #life #documentary #univers #quantomentanglement #space Life laps

Microsoft just made a massive breakthrough that will change technology forever. It’s called the Majorana 1, a quantum chip that’s the first of its kind in quantum computing. And what this thing can do is absolutely insane. Imagine a world where you could invent concrete that could heal itself. Or you could design a phone battery that could be charged one time, and then never run out of juice. That sounds like science fiction, but it’s not. This chip is gonna make it possible with quantum computing. Here’s how quantum computing works (ELI5). Imagine the process to invent the material for an infinite battery was actually a giant maze. If you solve the maze, you invent the formula for a new battery technology. A normal computer would have to try every single pathway in the maze, one at a time. And it could take centuries to find the right path all the way through. But a quantum computer works differently, because it can try every single path in the maze at the same time. This is essentially the difference between a bit and a qubit (the quantum bits that power quantum computers) Now this new Majorana chip has an architecture that can sustain up to 1 million qubits at the same time. That’s 1 million different pathways through the maze, every moment, until it’s solved. And what this means, is pretty incredible. When a scientist goes into a lab to create a material or a design new drug, they won’t need to run experiments. Because this chip will just give them the right answer the very first time. And It’s hard to wrap your head around what this means, but essentially, it’s new medicines, new iPhone screens that can never crack, new metals for planes that fly at supersonic speeds. Everything will change because of quantum computers. And we just entered the Quantum Era. Follow @kallaway and @kallawaytech for more videos like this! #ai #artificialintelligence #tech #technology #microsoft #quantum #computer #google #techtrends

Quantum computers 👾🔥 It is a multidisciplinary field comprising aspects of computer science, physics, and mathematics that utilizes quantum mechanics to solve complex problems faster than on classical computers. The field of quantum computing includes hardware research and application development. Quantum computers are able to solve certain types of problems faster than classical computers by taking advantage of quantum mechanical effects, such as superposition and quantum interference. Some applications where quantum computers can provide such a speed boost include machine learning (ML), optimization, and simulation of physical systems. Eventual use cases could be portfolio optimization in finance or the simulation of chemical systems, solving problems that are currently impossible for even the most powerful supercomputers on the market. What is the quantum computing advantage? Currently, no quantum computer can perform a useful task faster, cheaper, or more efficiently than a classical computer. Quantum advantage is the threshold where we have built a quantum system that can perform operations that the best possible classical computer cannot simulate in any kind of reasonable time. Quantum computing is a rapidly-emerging technology that harnesses the laws of quantum mechanics to solve problems too complex for classical computers. Today, IBM Quantum makes real quantum hardware — a tool scientists only began to imagine three decades ago — available to hundreds of thousands of developers. 📌Do follow Me for more Informations and edits 📌 Don't repost our video with our permission those Audio and video are under copyright projected material 📌 Disclaimer under fair Use of educational purposes #quantumcomputing #quantumphysics #quantum #physics #quantumentanglement #computer #supercomputer #ai #artificialintelligence #technology #pc #future #robotics #scifi #science #instagram #reels

Quantum computing explained 👾 If it does as it promises, it will change the world. Quantum computing is a new type of computing that uses qubits, which can represent more than just 0 or 1, to tackle certain problems in very different ways than normal computers do. Its biggest promise is in areas like materials science, drug discovery, optimization, and cryptography, where it could eventually do useful work beyond classical machines. Like AI was, it’s the kind of thing that could explode and change our lives. Follow for more informal, non patronising tech explainers [quantum computing]

Quantum Mechanics for Kids Quantum Mechanics is a weird theory, but it’s the one that actually matches how reality works. #quantummechanics #quantumphysics #scienceforkids #stem #education #scienceexplained #physics

Google has just announced a major breakthrough in the world of quantum computing. Remember their Willow quantum chip that they unveiled in December of last year? Well. For the first time in HISTORY,  Willow has demonstrated the first-ever algorithm to achieve verifiable quantum advantage on hardware, surpassing even the fastest classical supercomputers (13,000x faster). It can compute the structure of a molecule, and paves a path towards real-world applications. You might remember that back in 2019, Google famously demonstrated that a quantum computer could solve a problem that would take the fastest classical supercomputer thousands of years. Today’s breakthrough moves us much closer to quantum computers that can drive major discoveries in areas like medicine and materials science. Now there is debate in the quantum community, whether this is all just marketing speak or a real step towards quantum supremacy. I’m merely an enthusiast, certainly not an expert, so I am definitely not smart enough to weight in. But at the very worse, this means more excitement and funding for physics research, which I think is a great thing. If you like this video, follow @rpn to stay two steps ahead on the incredible disruption happening in tech, and how to leverage it in content and business. And follow @technology to stay updated on the latest and greatest in the world of tech.

The pioneering technology of quantum computing, a new kind of computer, could answer impossible questions in physics, chemistry, engineering and medicine. Scott Pelley reports, Sunday.