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QUANTUM COMPUTERS MIGHT JUST SAVE THE WORLD?! Imagine a computer so powerful, it could crack problems that make today’s best supercomputers cry. Quantum computers don’t just crunch numbers — they bend reality (okay, quantum reality) to solve stuff like cancer, Alzheimer’s, and even global warming. Our current climate “solutions”... are like putting a band-aid on a volcano. But quantum machines could help find cheap, energy-light ways to trap carbon — and finally slow down the planet’s fever. They could also rewire how we make fertilizer, which currently burns a hole through the environment just to grow your salad. Oh, and remember nuclear fusion? That sci-fi dream of unlimited clean energy? Quantum computers could help make that happen, too. Source: Interesting Engineeringshow more

Mario Nawfal

2,239,311 subscribers

103,966 views • 1 year ago •via X (Twitter)

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10 Comments

Vextør1 year ago

insane

Vextør1 year ago

wow

Vextør1 year ago

lolol

TheRedPilledGirl1 year ago

Or destroy it…

Kekaius1 year ago

@MarioNawfal Quantum computers, like the gods of old, wield power to heal and conquer disease. Their might heralds a new dawn for humanity. Ad maiorem dei gloriam. The Prophecy Of Kek shall be fulfilled.

+1151258991351 year ago

i have this Chips allready in my Google Pixel 7 Pro Smartphone!

Aisar Labs1 year ago

Great

The Intelligencer1 year ago

MIT's quantum speed boost is a genuine leap, tackling qubits' fragility with super-strong light-matter links. This cuts errors and accelerates progress beyond hype, edging us closer to solving real-world problems like Alzheimer's with practical quantum computing.

WanderingDabbler1 year ago

Planets Fever? The planet is sick?

Olivia1 year ago

Quantum computing's potential to revolutionize fields like healthcare is undeniable. MIT's 'quarton coupler' isn't just a tech leap—it's a stride towards American leadership in quantum tech, with operations now up to 10 times faster.

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JOE ROGAN: DO QUANTUM COMPUTERS PROVE THE MULTIVERSE EXISTS? "There's an equation that quantum computers solve quickly, like in a couple of minutes, that if you converted the entire universe into a computer, it would take so much time to solve this equation that the universe would die of heat death. And these quantum computers can solve it in minutes. They believe this is proof of the multiverse, that this quantum computer is somehow connected to other sources of computing power in an infinite number of universes." Source: Joe Rogan Experience

Mario Nawfal

65,696 views • 1 year ago

This is what separates quantum from classical computing... D-Wave, $QBTS, used their quantum computer to compute properties of magnetic materials in just minutes—a task that would require more than the world’s annual energy on a classical machine. “We are able to solve problems on our quantum computers that cannot be solved classically.” - Alan Baratz, CEO of D-Wave 🗣️

This is what separates quantum from classical computing... D-Wave, $QBTS, used their quantum computer to compute properties of magnetic materials in just minutes—a task that would require more than the world’s annual energy on a classical machine. “We are able to solve problems on our quantum computers that cannot be solved classically.” - Alan Baratz, CEO of D-Wave 🗣️

Stocktwits

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QUANTUM COMPUTING: THE FUTURE IS NOW IBM recently announced a quantum computer capable of solving problems in minutes that would take today's supercomputers millions of years. Developed by IBM, Google, and others, quantum computers push the boundaries of science and engineering, utilizing atomic forces to achieve unprecedented computational power. A simple maze shows how quantum computing can outpace classic computers. Michio Kaku: “All the big boys who are in this race to create a workable, operationally efficient quantum computer because the nation or company that does this will rule the world economy.” Source: 60 Minutes

QUANTUM COMPUTING: THE FUTURE IS NOW IBM recently announced a quantum computer capable of solving problems in minutes that would take today's supercomputers millions of years. Developed by IBM, Google, and others, quantum computers push the boundaries of science and engineering, utilizing atomic forces to achieve unprecedented computational power. A simple maze shows how quantum computing can outpace classic computers. Michio Kaku: “All the big boys who are in this race to create a workable, operationally efficient quantum computer because the nation or company that does this will rule the world economy.” Source: 60 Minutes

Mario Nawfal

327,790 views • 1 year ago

Israel's first quantum computer was funded by the Rothschild family through the Weizmann Institute of Science. The goal is not only to build quantum computers, but also to advance quantum communications, sensing, and cybersecurity. "Quantum computing is the holy grail of modern computing." "This computer will be able to calculate things that the largest computers cannot."

Israel's first quantum computer was funded by the Rothschild family through the Weizmann Institute of Science. The goal is not only to build quantum computers, but also to advance quantum communications, sensing, and cybersecurity. "Quantum computing is the holy grail of modern computing." "This computer will be able to calculate things that the largest computers cannot."

Shadow of Ezra

59,649 views • 1 day ago

Google just warned that quantum computers could start breaking the complex encryption protecting cryptocurrencies much easier and sooner than expected.

Google just warned that quantum computers could start breaking the complex encryption protecting cryptocurrencies much easier and sooner than expected.

CNET

26,504 views • 2 months ago

America is going (Q)uantum President Trump signs two quantum Executive Orders: 1. Protecting U.S. quantum research from foreign threats: Strengthens counterintelligence efforts (FBI and intelligence community) against espionage (e.g., by China). It also directs the Departments of Defense and Energy to build and host a quantum computer for scientific discovery and tasks Commerce with plans to expand federal investments in quantum companies. 2. Accelerating post-quantum cryptography (PQC) migration: Bolsters federal efforts to transition to quantum-resistant encryption standards to mitigate risks from future “Q-day” when powerful quantum computers could break current public-key cryptography.

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MJTruthUltra

100,952 views • 2 days ago

With a landmark paper published in nature, researchers from IBM Quantum and UC Berkeley are demonstrating the usefulness of the quantum computers we have today, opening the door to a new era in quantum computing—the era of quantum utility.

With a landmark paper published in nature, researchers from IBM Quantum and UC Berkeley are demonstrating the usefulness of the quantum computers we have today, opening the door to a new era in quantum computing—the era of quantum utility.

IBM Research

44,610 views • 3 years ago

DARPA researchers make #quantum computing breakthrough creating first-ever quantum circuit with logical quantum bits (qubits), a key discovery that could accelerate fault-tolerant quantum computing & revolutionize designs for quantum computer processors:

DARPA researchers make #quantum computing breakthrough creating first-ever quantum circuit with logical quantum bits (qubits), a key discovery that could accelerate fault-tolerant quantum computing & revolutionize designs for quantum computer processors:

DARPA

262,813 views • 2 years ago

.Justin Drake: “Client diversity has saved Ethereum multiple times.” But what really stuck was: “There is a potential outcome here where it’s not quite quantum computers that break ECDSA, it’s actually AI.” “And so part of the rush… is not just to make Ethereum post-quantum secure, but it’s also to make it post-AI secure.”

.Justin Drake: “Client diversity has saved Ethereum multiple times.” But what really stuck was: “There is a potential outcome here where it’s not quite quantum computers that break ECDSA, it’s actually AI.” “And so part of the rush… is not just to make Ethereum post-quantum secure, but it’s also to make it post-AI secure.”

The Chopping Block

14,722 views • 2 months ago

Quantum computers pose two threats to Bitcoin: Threat 1: A quantum computer will be built and used to break Bitcoin's cryptography. Threat 2: Even before a QC is built, delaying the preparations to ensure Bitcoin is quantum ready will lead to people losing confidence in Bitcoin. The solution to both threats: ensure Bitcoin becomes quantum resistant via initiatives like BIP 360 + make sure the world knows this will be taken care of in time.

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Eli Ben-Sasson | Starknet.io

11,851 views • 3 months ago

The TL;DR of the quantum threat to Bitcoin is cracking Satoshi's coins. Charles Hoskinson told Adam Back that a hard fork still looks like the only solution. Pierre Rochard recently told me Satoshi's coins should be fair game for quantum computers. Adam Back says there's a chance that Satoshi's are migrated - and privacy advancements could make that happen without anyone noticing 🤯 Our full interview for The Block is in the comments 👇

The TL;DR of the quantum threat to Bitcoin is cracking Satoshi's coins. Charles Hoskinson told Adam Back that a hard fork still looks like the only solution. Pierre Rochard recently told me Satoshi's coins should be fair game for quantum computers. Adam Back says there's a chance that Satoshi's are migrated - and privacy advancements could make that happen without anyone noticing 🤯 Our full interview for The Block is in the comments 👇

Gareth Jenkinson

23,349 views • 2 months ago

"We're far more energy efficient than classical computing, and we think that that could open up some significant opportunity to use our quantum computers for AI and machine learning," D-Wave CEO Alan Baratz says.

"We're far more energy efficient than classical computing, and we think that that could open up some significant opportunity to use our quantum computers for AI and machine learning," D-Wave CEO Alan Baratz says.

Yahoo Finance

53,412 views • 1 year ago

Our team ran a verifiable quantum algorithm that probes how parts of a quantum system interact, from molecules to magnets and beyond. On our Willow chip, it ran 13,000× faster than the best classical supercomputers. A first in quantum computing →

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JUST IN: #Cardano $ADA Founder Charles Hoskinson says "the good news is that Cardano's research HQ is the University of Edinburgh, a world-class university for quantum computers. We have a group of people who think about our post-quantum hardening. We know how to do it."

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18,855 views • 1 year ago

ADAM BACK JUST ABSOLUTELY DESTROYED #BITCOIN QUANTUM FUD LIVE ON BLOOMBERG QUANTUM COMPUTERS ARE "EXTREMELY BASIC" WE STILL HAVE "A DECADE" TO PREPARE DON'T BELIEVE THE FUD. HODL 🚀

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547,236 views • 2 months ago

Demis Hassabis says our brains are likely to be approximate Turing machines. AlphaFold showed why that matters: protein folding looked like a quantum problem, but a classical neural network could model it well enough to solve it. The world may be quantum, but understanding it may only need the right approximation.

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vitrupo

47,068 views • 1 month ago

Quantum computing is coming. Google’s recent breakthrough in quantum computing serves as a great reminder that, while we don’t know exactly when, quantum computing is on its way—and it’s closer than we might have thought. The implications for the current blockchain space could be far more severe than we can imagine. Why? Because when quantum computers become operational, security methods that currently take hundreds of years to hack could be broken in minutes. Like the turkey oblivious to the 1001st day, failing to anticipate the risks posed by quantum computing could leave us vulnerable to devastating consequences when the time comes. At StarkWare, we’ve anticipated this risk and developed STARK, a proving technology for blockchains that is quantum-resistant. This cutting-edge innovation currently powers Starknet (BTCFi arc). If you want to stay ahead of the curve and future-proof your systems, now is the best time to migrate your stack to a STARK-powered one. As the inventors of this technology, we believe our team is uniquely positioned to assist you with this migration. Moreover, we are more than open to collaborating with the Ethereum Foundation and other relevant parties to build Ethereum’s quantum resistance as soon as the community is ready.

Quantum computing is coming. Google’s recent breakthrough in quantum computing serves as a great reminder that, while we don’t know exactly when, quantum computing is on its way—and it’s closer than we might have thought. The implications for the current blockchain space could be far more severe than we can imagine. Why? Because when quantum computers become operational, security methods that currently take hundreds of years to hack could be broken in minutes. Like the turkey oblivious to the 1001st day, failing to anticipate the risks posed by quantum computing could leave us vulnerable to devastating consequences when the time comes. At StarkWare, we’ve anticipated this risk and developed STARK, a proving technology for blockchains that is quantum-resistant. This cutting-edge innovation currently powers Starknet (BTCFi arc). If you want to stay ahead of the curve and future-proof your systems, now is the best time to migrate your stack to a STARK-powered one. As the inventors of this technology, we believe our team is uniquely positioned to assist you with this migration. Moreover, we are more than open to collaborating with the Ethereum Foundation and other relevant parties to build Ethereum’s quantum resistance as soon as the community is ready.

StarkWare (BTCFi arc)

62,316 views • 1 year ago

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:

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 • 8 months ago