#Google Quantum

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.

Google achieves quantum supremacy again! #google #quantumcomputer #quantummechanics #qubit

We may be living in a multiverse according to Google's new quantum computer 😳 #news #newsupdate #quantum #technews #ainews

🤯 Ever feel like something's just...off? 🤔 Professor Brian Cox explores the mind-bending idea that our reality could be a sophisticated simulation! 🤯 He touches upon the recent advancements in quantum computing, specifically Google's creation of a 1-dimensional wormhole within their quantum computer using qubits. This breakthrough raises some SERIOUS questions about the nature of reality. Could this be a glimpse into how a simulated universe might work? Is it possible that our universe, with all its complexity, is just lines of code in a hyper-advanced computer? 🤯 This video dives into the science and the philosophy behind it all. Prepare to have your mind blown! 🚀🌌💻 What do YOU think? Let me know in the comments! 👇 #SimulationTheory #QuantumComputing #BrianCox #MindBlown #Wormhole #Google #Science #Tech #FutureIsNow #RealityCheck #QuantumPhysics #Universe #Simulation #ExistentialCrisis #ThinkBigger #WhatIsReal #DeepThoughts #Consciousness #AI

💭 Quantum’s “early-AI” moment? Sundar Pichai says quantum computing today is about where AI was ~5 years ago - and could hit a rapid acceleration in the next few. If we get that leap, what’s the first problem you’d want a quantum computer to crack? Follow @aiexplaining for trusted AI insights. Source: BBC Newsnight interview (coverage via Reuters & Benzinga) #AIexplaining #AI #QuantumComputing #SundarPichai #Google #TechFuture #Innovation #Research #AIfuture

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

Google just solved in minutes what supercomputers can’t in CENTURIES! Here’s how. . . . . #google #quantum #supercomputers

Normal search VS Quantum search #quantumcomputing #machinelearning #quantumsearch #searchengine

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.

Google’s Willow quantum chip has achieved the first verifiable quantum advantage, running an algorithm 13,000 times faster than the world’s best supercomputers. The Quantum Echoes algorithm measures molecular structures by sending signals through quantum bits, then reversing them to detect amplified echoes. This breakthrough enhances nuclear magnetic resonance technology, revealing atomic positions in molecules with unprecedented precision. In tests, Willow analyzed molecules containing up to 28 atoms, matching traditional results while uncovering information conventional methods cannot detect. Unlike previous quantum demonstrations with no practical applications, this advancement could accelerate drug discovery and materials science, bringing quantum computers closer to solving real-world scientific problems by decade’s end. #trendingreels #quantumcomputing #quantum #future #tech #research

Follow @evolving.qc to keep up to date with quantum computing breakthroughs A normal search sends one agent through a maze. It checks one path at a time. A quantum search explores many paths at once. Through superposition, the system exists in multiple states simultaneously. #quantum #quantummechanics #quantumcomputer #qubits #quantumcomputing

Disclaimer: This content is based on established theoretical frameworks in quantum gravity and string theory, particularly AdS CFT correspondence. These ideas are mathematically consistent but not experimentally confirmed for our universe. What if spacetime is not fundamental, but encoded like information inside a quantum computer? In theoretical physics, AdS CFT correspondence suggests that gravity inside a curved spacetime can be mathematically equivalent to quantum fields living on a lower dimensional boundary. Even more surprisingly, the structure of this relationship resembles quantum error correction, where information is distributed in a way that makes it resilient to disturbances. If this picture is correct, spacetime itself may emerge from deeper quantum information patterns rather than being the most basic layer of reality. #AdSCFT #QuantumGravityResearch #HolographicPrinciple #QuantumErrorCorrection #EmergentSpacetime