Loading video...

Video Failed to Load

Go Home

🚨INSIDE THE LAB THAT MAKES COMPUTING COLDER THAN SPACE The sound hits first, a constant rumble from refrigeration systems working to cool quantum chips to temperatures colder than space itself. These aren’t your everyday computers. They operate near absolute zero, where atoms barely move and quantum rules take over....

65,157 views • 1 year ago •via X (Twitter)

14 Comments

Kekaius's profile picture
Kekaius1 year ago

@MarioNawfal Let honor guide our innovation. Quantum computing at absolute zero echoes in eternity, a testament to justice and progress. Fiat justitia ruat caelum kek. The Prophecy Of Kek shall be fulfilled.

Austin Graham's profile picture
Austin Graham1 year ago

That's fascinating, Mario! Quantum computing is truly the future, blending bits, neurons, and qubits in one cold lab.

Raffael's profile picture
Raffael1 year ago

Quantum computing is revolutionizing tech, but it's not for the faint-hearted.

sharpy's profile picture
sharpy1 year ago

That's not how space works, maybe read a book

Joel Varela's profile picture
Joel Varela1 year ago

100 time colder than outer space?? @grok I'm an HVAc tech. Explain how they achieve this

Patricia Jensen's profile picture
Patricia Jensen1 year ago

This gentleman is awesome.

Sergej Bletsch ᛤ's profile picture
Sergej Bletsch ᛤ1 year ago

😁

Sloth's profile picture
Sloth1 year ago

Dayummm

Joel Roberts's profile picture
Joel Roberts1 year ago

Chill to kill

Braxton's profile picture
Braxton1 year ago

This is straight-up sci-fi in real life. Quantum + AI at temps colder than space? The future’s not coming—it’s already here. 🧠❄️💻

文喆🌟🌟🌟银河舰队's profile picture
文喆🌟🌟🌟银河舰队1 year ago

High-level CCP Cadres are really afraid of Giuliani. Why? Because Giuliani took down the five mafia gang families in New York. The CCP knows itself is the gangster.

Bill's profile picture
Bill1 year ago

20250628【联盟特别直播】郭文贵先生案件更新 06 当初无论郭先生说什么,所有都被归入破产庭。Luc和破产法庭仍在查封法治基金的账户,试图追缴那些被认定是郭先生的个人财产,用以偿还所谓的债权人——实质上就是中共。 检方、辩方以及美国执法部门一致认定,郭先生是中共国有史以来海外猎狐行动的头号敌人!

The last straw's profile picture
The last straw1 year ago

🚨突发新闻:美国联邦住房主席法案@Pulte要求国会调查杰罗姆·鲍威尔 鲍威尔为了激怒川普总统而人为地维持高利率,给数百万房主和购房者造成了巨大伤害。 国会,做好你们的工作!调查鲍威尔!

追着曙光跑🔥银河系🚀🚀🚀's profile picture
追着曙光跑🔥银河系🚀🚀🚀1 year ago

伊朗外交部长承认,在美国的精确打击非常成功后,伊朗主要核设施“遭到严重破坏”‼️ #伊朗核问题

Related Videos

6,100-Qubit Processor Shatters Quantum Computing Record | David Nield, ScienceAlert Another major quantum computing record has been broken, and by a considerable margin: physicists have now built an array containing 6,100 qubits, the largest of its type and way above the thousand or so qubits previous systems contained. It's the work of scientists from the California Institute of Technology, who used cesium atoms as their qubits, trapping them in place with a complex system of lasers that acted as tweezers to keep the atoms as stable as possible. Qubits differ from the classical bits of traditional computers by exploiting what's known as a superposition: not just binary states of 1 or 0, but a spread of probabilities that allows for algorithms that can solve problems considered out of reach of conventional computing methods. Related: Quantum Advantage: A Physicist Explains The Future of Computers A lot of qubits will be needed to make quantum algorithms practical, however. One reason for these large arrays is error correction, which helps overcome the inherent fragility of the qubit by providing a surplus to double-check the machine's operation. "This is an exciting moment for neutral-atom quantum computing," says physicist Manuel Endres. "We can now see a pathway to large error-corrected quantum computers. The building blocks are in place." There was no single breakthrough that enabled this jump in qubit numbers, but rather a series of engineering advancements in many key areas – from the laser tweezers to the ultra-high (very low pressure) vacuum chamber. Stability has also been a problem for quantum computing systems. The innovations in this latest array kept qubits in a superposition state for almost 13 seconds – almost ten times longer than previous configurations had managed. What's more, individual qubits could be manipulated with 99.98 percent accuracy, establishing a significant benchmark in the programmability of quantum technology. "Large scale, with more atoms, is often thought to come at the expense of accuracy, but our results show that we can do both," says physicist Gyohei Nomura. "Qubits aren't useful without quality. Now we have quantity and quality." To make quantum computers a practical alternative to modern supercomputers, more qubits and even greater levels of stability will be required. Experts are tackling the problem from several different angles, which is why records for some types of quantum computer don't necessarily apply to others. Next, the researchers need to work on exploiting entanglement, which will enable the system to make the leap from storing information to actually processing it. Not too far in the future, we could be using these computers to discover new materials, matter, and fundamental laws of physics. "It's exciting that we are creating machines to help us learn about the Universe in ways that only quantum mechanics can teach us," says physicist Hannah Manetsch. Read more:

Owen Gregorian

43,078 views • 9 months ago

🚨 QUANTUM COMPUTING: THE NEXT TECH GOLD RUSH Quantum computing (QC) is about to blow up the tech world. Think of it as AI on steroids—but here’s the kicker: the entire U.S. quantum sector is worth less than Dogecoin. Imagine buying Bitcoin at $500. That’s where QC is today. Regular computers process in 1s and 0s. QCs use qubits, which can be 1, 0, or both at the same time (superposition). Translation? They solve ridiculously complex problems insanely fast. Google recently ran a calculation on its quantum chip in 5 minutes that would take the world’s fastest supercomputer 10 septillion years to complete. Yes, that’s older than the universe. Why it matters: QC isn’t just a cool science project—it’s a game-changer: Medicine: Design drugs in weeks, not years. Finance: Smarter investments, faster decisions. AI: Supercharges AI, making today’s breakthroughs look tiny. McKinsey predicts QC will add trillions to the economy in the next decade. Entire industries will be rewritten. We are closer than most people think. Quantum startups are already hitting 10 qubits, aiming for 100 in 2 years and thousands in 5 years. QC is already solving real problems in medicine, defense, and finance, and platforms like AWS and Google let you rent quantum power right now. Here’s the wild part: the entire U.S. quantum sector is trading for less than a meme coin. Meanwhile, China is outspending the U.S. 5 to 1 in quantum development. Legislation like the Quantum Leadership Act is injecting billions into R&D, but QC’s “ChatGPT moment”—where its potential becomes undeniable—is just 2-3 years away. The upside here is massive. QC isn’t just going to change industries—it’s going to flip them on their heads. When its moment comes, the repricing will be fast and brutal. The clock is ticking. Source: Charles Edwards

Mario Nawfal

1,870,630 views • 1 year ago

My 10x stock idea from GTC isn't photonics?! But it does involve lasers. Say hello to $INFQ. It's a newly IPO'd quantum stock generating tens of millions in revenue in space + defense applications with very unique technology. Infleqtion went public last month but it's trading 40% below its IPO price with a sub $2B market cap. $INFQ trades at roughly 70x trailing sales on $29M in revenue. Compare that to $RGTI at $6B market cap on just $7M in revenue, that's 860x sales. I chatted with $INFQ's Chief Administrative Officer, Julie McGee, to dig in further but here's the TLDR. Most quantum companies need to cool their chips to near absolute zero temps just to operate. Infleqtion uses "neutral atom" technology that traps individual atoms inside a glass cell using lasers and runs them at room temperature. It takes the power of a few hairdryers. No giant refrigerators. Way cheaper and way easier to scale. And unlike most quantum names they're actually shipping products NOW. Quantum clocks for GPS-denied navigation, RF sensors, inertial navigation systems. Selling to NASA, the DoD, and the UK government. Their quantum clock is being qualified by SpaceX for satellite systems. Quantum brings a whole new level of precision that works on the ground, in the sky, and underwater. Their technology can enable submarines to navigate without ever linking up to a satellite. GPS jamming is also becoming a huge problem on the battlefield, showing up in Ukraine and Iran. Quantum timing is inherently unjammable and unspoofable. They also had a dedicated spot inside the Nvidia booth at GTC. $INFQ partnered with Nvidia to demo the first commercial materials science application running on logical qubits and are working with Nvidia's NVQLink to scale quantum-classical hybrid computing. What's next: 30 logical qubits targeted this year, one of the most important milestones in the race to fault tolerant quantum computing by 2028. Plus a new NASA contract to measure Earth's gravity from space. Infleqtion combines an attractive valuation with extremely unique technology (they're the only neutral atom quantum company publicly listed). Could easily see this re-rating fast, I just think the IPO timing was poor with Iran. Could be adding this as a lottery ticket to my Asymmetrical Bets portfolio soon... This post was not sponsored or influenced in any way by $INFQ. All thoughts are my own, NFA / DYOR.

Michael Sikand

321,848 views • 3 months ago

D-Wave announced a scientific breakthrough published in the esteemed journal Science Magazine, confirming that its annealing quantum computer outperformed one of the world’s most powerful classical supercomputers in solving a complex magnetic materials simulation problem with relevance to materials discovery. The new landmark peer-reviewed paper, “Beyond-Classical Computation in Quantum Simulation,” validates this achievement as the world’s first and only demonstration of quantum computational supremacy on a useful problem. An international collaboration of scientists led by D-Wave performed simulations of quantum dynamics in programmable spin glasses—a computationally hard magnetic materials simulation problem with known applications to business and science—on both D-Wave’s Advantage2™ prototype annealing quantum computer and the Frontier supercomputer at the Department of Energy’s Oak Ridge Lab. D-Wave’s quantum computer performed a complex simulation in minutes and with a level of accuracy that would take nearly a million years using the supercomputer. In addition, it would require more than the world’s annual electricity consumption to solve this problem using the supercomputer, which is built with graphics processing unit (GPU) clusters. For decades, scientists have aspired to build a quantum computer capable of solving complex materials simulation problems beyond the reach of classical computers. D-Wave's advancements in quantum hardware have made it possible for its annealing quantum computers to process these types of problems for the first time. Magnetic materials simulations, like those conducted in this work, use computer models to study how tiny particles not visible to the human eye react to external factors. Magnetic materials are widely used in medical imaging, electronics, superconductors, electrical networks, sensors, and motors. This is an incredibly important achievement. Please join us in congratulating the D-Wave team and our global collaborators on this remarkable milestone. It’s a significant moment for the quantum computing industry. Learn more about this monumental achievement: Read the press release here: #QuantumSupremacy #QuantumRealized #QuantumComputing #DWave #Technology #Innovation #Optimization #MaterialsDiscovery #ScientificBreakthrough $QBTS

D-Wave

65,000 views • 1 year ago

$IonQ Quantum computing is officially out of the lab and driving real enterprise results! IonQ CEO Niccolo de Masi dropped massive updates on "Squawk on the Street" regarding recent acquisitions and new contracts. It’s clear: IonQ is at a "strategic and financial inflection point." Here are the key takeaways: 1/ Massive Financial Scaling IonQ is the first public quantum company to hit 9-figure revenue (tripling last year!), guiding toward a quarter-billion dollars this year " It's not a science experiment when we have... nine figures of revenue flowing in," says de Masi. The ultimate proof? 60% of their revenue is now commercial. 2/ Four Major 'World Quantum Day' Announcements IonQ just released industry-leading benchmarks focusing on the "cost to solution and time to solution". They also secured 3 massive contract wins: ✅ AFRL (Air Force Research Lab) IonQ constructs first networked quantum systems among remote quantum processing units. ✅ University of Maryland (UMD). ✅ DARPA for advanced quantum memory. 3/ Building the Future "Quantum Data Center " IonQ's tech stack goes far beyond base computing to include networking, security, and sensing. De Masi notes their tech is in all warfighting domains, "from submarines to up in the heavens in space". Why the heavy DARPA & AFRL investments? Because "they see the future for quantum data centers". The Bottom Line: Both government and commercial clients are realizing that working with the quantum ecosystem early gives them a massive competitive advantage. Full scoop 👇📹 #IonQ #QuantumComputing #DeepTech #DARPA #TechNews

TechInnovation

14,279 views • 3 months ago

The Google and Caltech quantum papers demonstrated 2 breakthroughs: that Bitcoin cryptography is much easier to break than previously thought, and that far fewer logical qubits may be necessary for physical qubits. Project Eleven CEO Alex Pruden explains: "These two papers are not necessarily about a quantum computer that's bigger or more capable. They're about what it takes to break cryptography." "So what changed? One of the things that changed was that physicists and quantum cryptographers that looked at this problem for a long time studied an algorithm called RSA — an older cryptographic algorithm." "But that's not what really any blockchains use, because RSA keys are very large. It turns out, and this was one of the key upshots of the Google paper, that if you focus on the cryptography used by Bitcoin, Ethereum, and other networks, it's actually way easier to break than they thought it was, compared to RSA." "The other big breakthrough, and this is from the Caltech paper: Quantum computers are very fragile, generally. So to be useful, they need to have what's called error correction applied. And that can result in a lot of overhead. You need to have tons of physical qubits to get to one logical qubit." "This Caltech paper basically showed, 'Hey, we have some new ideas for error correction. And it turns out if we apply those, we don't need hundreds or thousands of physical qubits, maybe we just need a handful to make one logical cubit.'" "The headline of their paper is 'You may only need 10,000 physical qubits to run Shor's algorithm.' And by the way, they demonstrated 6,000 last year."

TBPN

16,456 views • 3 months ago