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🚨BREAKING: GOOGLE WARNS 6.9M BITCOIN WILL BE VULNERABLE WHEN QUANTUM COMPUTERS BECOME POWERFUL ENOUGH A new Google Quantum AI whitepaper has identified approximately 6.9 million Bitcoin $BTC vulnerable to future quantum at-rest attacks. Around 1.7 million BTC sits in old Pay-to-Public-Key scripts, with public keys permanently exposed on the...

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72,583 views • 2 months ago •via X (Twitter)

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‼️ALERT: ETHEREUM'S TOP 1,000 WALLETS COULD BE DRAINED IN NINE DAYS WITHOUT A QUANTUM UPGRADE Google's quantum research team warns that a future fast-clock quantum computer could compromise Ethereum's 1,000 highest-value accounts in less than nine days. Those accounts collectively hold approximately 20.5 million $ETH. Bitcoin users can avoid exposing their public keys. Ethereum users cannot. The moment an Ethereum user sends their first transaction, their public key is permanently exposed on the blockchain, according to the report. It stays exposed indefinitely. The paper identifies five distinct quantum attack vectors on Ethereum. Among the most alarming is the threat to smart contract admin keys. Those keys control over $200 billion in stablecoins and tokenised real-world assets. Ethereum's Proof-of-Stake consensus mechanism also relies on quantum-vulnerable BLS signatures. A sufficiently advanced quantum attacker could use this to compromise the blockchain's finality itself. There is a silver lining. The Ethereum Foundation is already researching post-quantum alternatives. The paper suggests this gives Ethereum a potential advantage over Bitcoin in executing an orderly transition to quantum-safe cryptography.
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‼️ALERT: ETHEREUM'S TOP 1,000 WALLETS COULD BE DRAINED IN NINE DAYS WITHOUT A QUANTUM UPGRADE Google's quantum research team warns that a future fast-clock quantum computer could compromise Ethereum's 1,000 highest-value accounts in less than nine days. Those accounts collectively hold approximately 20.5 million $ETH. Bitcoin users can avoid exposing their public keys. Ethereum users cannot. The moment an Ethereum user sends their first transaction, their public key is permanently exposed on the blockchain, according to the report. It stays exposed indefinitely. The paper identifies five distinct quantum attack vectors on Ethereum. Among the most alarming is the threat to smart contract admin keys. Those keys control over $200 billion in stablecoins and tokenised real-world assets. Ethereum's Proof-of-Stake consensus mechanism also relies on quantum-vulnerable BLS signatures. A sufficiently advanced quantum attacker could use this to compromise the blockchain's finality itself. There is a silver lining. The Ethereum Foundation is already researching post-quantum alternatives. The paper suggests this gives Ethereum a potential advantage over Bitcoin in executing an orderly transition to quantum-safe cryptography.

BSCN

45,609 views • 2 months ago

🚨 BREAKING FIRST BTC ADDRESS JUST GOT CRACKED USING QUANTUM COMPUTING! A HACKER BROKE A 15-BIT ECC KEY USING PUBLICLY AVAILABLE QUANTUM HARDWARE. MEANWHILE, ~6.9 MILLION BTC ARE SITTING ON ADDRESSES WITH EXPOSED PUBLIC KEYS. IF 256-BIT ECC FALLS, THESE COULD BE THE FIRST TO GO. THIS IS EXTREMELY BAD FOR MARKETS!
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🚨 BREAKING FIRST BTC ADDRESS JUST GOT CRACKED USING QUANTUM COMPUTING! A HACKER BROKE A 15-BIT ECC KEY USING PUBLICLY AVAILABLE QUANTUM HARDWARE. MEANWHILE, ~6.9 MILLION BTC ARE SITTING ON ADDRESSES WITH EXPOSED PUBLIC KEYS. IF 256-BIT ECC FALLS, THESE COULD BE THE FIRST TO GO. THIS IS EXTREMELY BAD FOR MARKETS!

Wimar.X

904,133 views • 1 month ago

🚨JUST IN: GOOGLE SETS 2029 DEADLINE AS QUANTUM THREAT LOOMS OVER BITCOIN Google has set a 2029 deadline for post-quantum cryptography migration, warning quantum risks are approaching faster than expected. The company says current encryption standards could eventually be broken. For Bitcoin $BTC, this raises long-term concerns around wallet security and private keys. While no immediate threat exists, “Q-Day” could expose vulnerable addresses.
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🚨JUST IN: GOOGLE SETS 2029 DEADLINE AS QUANTUM THREAT LOOMS OVER BITCOIN Google has set a 2029 deadline for post-quantum cryptography migration, warning quantum risks are approaching faster than expected. The company says current encryption standards could eventually be broken. For Bitcoin $BTC, this raises long-term concerns around wallet security and private keys. While no immediate threat exists, “Q-Day” could expose vulnerable addresses.

BSCN

43,970 views • 2 months ago

🚨 CRYPTO: ALGORAND SURGES 16% IN 24 HOURS AFTER GOOGLE QUANTUM AI PAPER CITES $ALGO 32 TIMES AS POST-QUANTUM PIONEER Algorand ( $ALGO ) has jumped 16% in 24 hours to $0.1053 after Google Quantum AI's landmark paper on blockchain quantum vulnerabilities cited the network 32 times, more than any other chain besides Bitcoin and Ethereum. Google described Algorand as "the perfect example of real-world deployment of post-quantum cryptography on an otherwise quantum-vulnerable blockchain." The paper highlighted Algorand's live FALCON digital signatures for smart contracts, state proofs, native key rotation, and multi-layered post-quantum security infrastructure. Trading volume spiked 162% in 24 hours and futures open interest jumped 55% to $58.9 million. The rally is especially dramatic given ALGO hit an all-time low of $0.08 just days earlier following a 25% Foundation workforce cut, CTO departure, and board reshuffle. The token is now up ~20% on the week as the quantum narrative provided a lifeline to a battered community.
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🚨 CRYPTO: ALGORAND SURGES 16% IN 24 HOURS AFTER GOOGLE QUANTUM AI PAPER CITES $ALGO 32 TIMES AS POST-QUANTUM PIONEER Algorand ( $ALGO ) has jumped 16% in 24 hours to $0.1053 after Google Quantum AI's landmark paper on blockchain quantum vulnerabilities cited the network 32 times, more than any other chain besides Bitcoin and Ethereum. Google described Algorand as "the perfect example of real-world deployment of post-quantum cryptography on an otherwise quantum-vulnerable blockchain." The paper highlighted Algorand's live FALCON digital signatures for smart contracts, state proofs, native key rotation, and multi-layered post-quantum security infrastructure. Trading volume spiked 162% in 24 hours and futures open interest jumped 55% to $58.9 million. The rally is especially dramatic given ALGO hit an all-time low of $0.08 just days earlier following a 25% Foundation workforce cut, CTO departure, and board reshuffle. The token is now up ~20% on the week as the quantum narrative provided a lifeline to a battered community.

BSCN

39,074 views • 2 months ago

🚨 CRYPTO: CARDANO RANKED SECOND MOST QUANTUM-READY BLOCKCHAIN IN GOOGLE RESEARCH ASSESSMENT Cardano Community ( $ADA ) has been ranked the second most quantum-ready blockchain, according to analysis tied to Google Quantum AI's latest research, placing it ahead of Bitcoin and XRP Ledger in post-quantum preparedness. The ranking highlights Cardano's Nightstream initiative, a lattice-based cryptography project announced by founder Charles Hoskinson at Consensus Hong Kong in February 2026, developed with researchers linked to Google and Microsoft. Nightstream is designed to be fast, scalable, and efficient on AI chips, targeting quantum resistance well before the projected 2030s deadline for large-scale quantum computing threats. The assessment comes as Google's paper revealed a 20x reduction in resources needed to break the elliptic curve cryptography protecting most blockchains, with Ethereum actively running post-quantum testnets and Bitcoin having no coordinated migration plan. Quantum-resistant tokens surged in the 24 hours following the paper's release.
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🚨 CRYPTO: CARDANO RANKED SECOND MOST QUANTUM-READY BLOCKCHAIN IN GOOGLE RESEARCH ASSESSMENT Cardano Community ( $ADA ) has been ranked the second most quantum-ready blockchain, according to analysis tied to Google Quantum AI's latest research, placing it ahead of Bitcoin and XRP Ledger in post-quantum preparedness. The ranking highlights Cardano's Nightstream initiative, a lattice-based cryptography project announced by founder Charles Hoskinson at Consensus Hong Kong in February 2026, developed with researchers linked to Google and Microsoft. Nightstream is designed to be fast, scalable, and efficient on AI chips, targeting quantum resistance well before the projected 2030s deadline for large-scale quantum computing threats. The assessment comes as Google's paper revealed a 20x reduction in resources needed to break the elliptic curve cryptography protecting most blockchains, with Ethereum actively running post-quantum testnets and Bitcoin having no coordinated migration plan. Quantum-resistant tokens surged in the 24 hours following the paper's release.

BSCN

33,293 views • 2 months ago

Ixios Mainnet Launch Date We are thrilled to announce the official launch date of the Ixios Mainnet, a layer 1 blockchain designed to future-proof blockchain technology with quantum-resistance and blazingly fast speed. As a nod to Satoshi Nakamoto, the pseudonymous creator of Bitcoin—the Ixios Mainnet will officially go live on April 5, 2025. Ixios introduces a quantum-resistant architecture, engineered with a forward-looking modular signature mechanism. This innovation addresses advances in quantum computing, ensuring security in a post-quantum world. Together, Let’s future-proof Web3.
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Ixios Mainnet Launch Date We are thrilled to announce the official launch date of the Ixios Mainnet, a layer 1 blockchain designed to future-proof blockchain technology with quantum-resistance and blazingly fast speed. As a nod to Satoshi Nakamoto, the pseudonymous creator of Bitcoin—the Ixios Mainnet will officially go live on April 5, 2025. Ixios introduces a quantum-resistant architecture, engineered with a forward-looking modular signature mechanism. This innovation addresses advances in quantum computing, ensuring security in a post-quantum world. Together, Let’s future-proof Web3.

Ixios

73,765 views • 1 year ago

🚨BREAKING: INTERLINK TO DEVELOP QUANTUM-RESISTANT BLOCKCHAIN TECH According to a new post from KV, InterLink Labs 👤 + 🌐... "will build a dedicated research team of leading cryptography experts to study and develop quantum-resistant technology" The move is a response to the growing threat of quantum technology to $BTC and other crypto assets. The project hopes to incorporate quantum-resistant infrastructure into its upcoming mainnet, to help secure its $ITL and $ITLG tokens. "Our goal is to build one of the most quantum-secure digital assets in the world"
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🚨BREAKING: INTERLINK TO DEVELOP QUANTUM-RESISTANT BLOCKCHAIN TECH According to a new post from KV, InterLink Labs 👤 + 🌐... "will build a dedicated research team of leading cryptography experts to study and develop quantum-resistant technology" The move is a response to the growing threat of quantum technology to $BTC and other crypto assets. The project hopes to incorporate quantum-resistant infrastructure into its upcoming mainnet, to help secure its $ITL and $ITLG tokens. "Our goal is to build one of the most quantum-secure digital assets in the world"

BSCN

39,201 views • 4 months ago

🚨 JAPAN JUST PUT A REAL QUANTUM COMPUTER ONLINE FOR THE WORLD TO ACCESS. And most people still don’t realize how big this moment is. For decades, quantum computers sounded like science fiction: machines that use quantum states instead of ordinary binary bits. Now researchers in Japan have opened access to a real superconducting quantum system connected to the internet. Why this matters: • quantum simulations • next-generation AI research • new material discovery • drug development • cryptography disruption • solving problems impossible for classical computers But quantum computers work nothing like normal machines. A regular computer checks possibilities one at a time. A quantum computer can explore many probability states simultaneously through superposition and entanglement. In simple terms: It doesn’t just calculate faster… It calculates differently. That’s why these systems look so strange. The giant gold structure isn’t “the computer” itself. It’s an ultra-cold dilution refrigerator designed to keep the quantum processor near absolute zero so fragile quantum states don’t collapse. The terrifying implication is this: Humanity may be entering the first era where computation starts operating on the rules of quantum reality itself. And once quantum hardware becomes scalable… Entire industries may be rewritten from the ground up. What happens when computers stop thinking like machines… and start behaving like physics itself? Which field do you think gets transformed first and would you actually trust it with something important?
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🚨 JAPAN JUST PUT A REAL QUANTUM COMPUTER ONLINE FOR THE WORLD TO ACCESS. And most people still don’t realize how big this moment is. For decades, quantum computers sounded like science fiction: machines that use quantum states instead of ordinary binary bits. Now researchers in Japan have opened access to a real superconducting quantum system connected to the internet. Why this matters: • quantum simulations • next-generation AI research • new material discovery • drug development • cryptography disruption • solving problems impossible for classical computers But quantum computers work nothing like normal machines. A regular computer checks possibilities one at a time. A quantum computer can explore many probability states simultaneously through superposition and entanglement. In simple terms: It doesn’t just calculate faster… It calculates differently. That’s why these systems look so strange. The giant gold structure isn’t “the computer” itself. It’s an ultra-cold dilution refrigerator designed to keep the quantum processor near absolute zero so fragile quantum states don’t collapse. The terrifying implication is this: Humanity may be entering the first era where computation starts operating on the rules of quantum reality itself. And once quantum hardware becomes scalable… Entire industries may be rewritten from the ground up. What happens when computers stop thinking like machines… and start behaving like physics itself? Which field do you think gets transformed first and would you actually trust it with something important?

Paul White Gold Eagle

55,060 views • 18 days ago

🚨 QUANTUM BREAKTHROUGH: SCIENTISTS JUST SOLVED ONE OF PHYSICS’ BIGGEST UNSOLVED PROBLEMS. Researchers in Japan have successfully detected an elusive quantum entanglement pattern known as a “W state” something physicists have struggled to measure for decades. Why does this matter? Because W states are considered one of the key building blocks for: • quantum teleportation • ultra-secure communication • next-generation quantum internet • massively powerful quantum computers The breakthrough allows scientists to identify complex entangled photon states in a single measurement instead of using extremely slow quantum tomography. In simple terms: they found a faster way to “read” deeply entangled quantum systems. The team built a stable 3-photon optical quantum circuit capable of detecting these exotic states with high fidelity a major step toward scalable quantum networks and photonic quantum computing. This is the kind of breakthrough that moves quantum technology from fragile lab experiments… toward real-world infrastructure. The future internet may not send information through electrical signals alone. It may send reality itself through entanglement. Follow for more future physics and quantum breakthroughs.
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🚨 QUANTUM BREAKTHROUGH: SCIENTISTS JUST SOLVED ONE OF PHYSICS’ BIGGEST UNSOLVED PROBLEMS. Researchers in Japan have successfully detected an elusive quantum entanglement pattern known as a “W state” something physicists have struggled to measure for decades. Why does this matter? Because W states are considered one of the key building blocks for: • quantum teleportation • ultra-secure communication • next-generation quantum internet • massively powerful quantum computers The breakthrough allows scientists to identify complex entangled photon states in a single measurement instead of using extremely slow quantum tomography. In simple terms: they found a faster way to “read” deeply entangled quantum systems. The team built a stable 3-photon optical quantum circuit capable of detecting these exotic states with high fidelity a major step toward scalable quantum networks and photonic quantum computing. This is the kind of breakthrough that moves quantum technology from fragile lab experiments… toward real-world infrastructure. The future internet may not send information through electrical signals alone. It may send reality itself through entanglement. Follow for more future physics and quantum breakthroughs.

TheNewPhysics

21,763 views • 1 month ago

Last year, we introduced Willow, our quantum chip, and cracked a key challenge in quantum error correction. Today, Google Quantum AI announced a new breakthrough algorithm on that chip which paves a path towards potential future uses in drug discovery and materials science.🧵
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Last year, we introduced Willow, our quantum chip, and cracked a key challenge in quantum error correction. Today, Google Quantum AI announced a new breakthrough algorithm on that chip which paves a path towards potential future uses in drug discovery and materials science.🧵

Google

107,869 views • 7 months ago

Computers might solve problems by sending answers from the future. New quantum research suggests it’s theoretically possible—using entanglement to send measurement info backward in time at the quantum scale. It’s probabilistic and doesn’t violate causality. This could enable instantaneous quantum computation. Not time machines—just a rethink of “before” and “after.”
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Computers might solve problems by sending answers from the future. New quantum research suggests it’s theoretically possible—using entanglement to send measurement info backward in time at the quantum scale. It’s probabilistic and doesn’t violate causality. This could enable instantaneous quantum computation. Not time machines—just a rethink of “before” and “after.”

Nassim Haramein

45,557 views • 5 months ago

🚨 QUANTUM COMPUTING JUST HIT A NEW LEVEL Europe’s JUPITER supercomputer has reportedly achieved a world-record 50-qubit quantum simulation. That may sound small… But simulating 50 interacting qubits pushes classical computing close to its limits. Why this matters: Quantum systems become exponentially harder to simulate as they grow. At a certain point… even the most powerful traditional supercomputers struggle to predict what quantum systems are doing. That’s where quantum computing changes everything. Researchers are now building machines capable of: • simulating new materials • designing future medicines • solving optimization problems impossible for classical computers • modeling reality at the quantum level itself The race is no longer just about faster computers. It’s about building entirely new forms of computation. The next technological revolution may not run on silicon alone… but on quantum states existing in multiple possibilities at once. Follow for more future physics and quantum breakthroughs.
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🚨 QUANTUM COMPUTING JUST HIT A NEW LEVEL Europe’s JUPITER supercomputer has reportedly achieved a world-record 50-qubit quantum simulation. That may sound small… But simulating 50 interacting qubits pushes classical computing close to its limits. Why this matters: Quantum systems become exponentially harder to simulate as they grow. At a certain point… even the most powerful traditional supercomputers struggle to predict what quantum systems are doing. That’s where quantum computing changes everything. Researchers are now building machines capable of: • simulating new materials • designing future medicines • solving optimization problems impossible for classical computers • modeling reality at the quantum level itself The race is no longer just about faster computers. It’s about building entirely new forms of computation. The next technological revolution may not run on silicon alone… but on quantum states existing in multiple possibilities at once. Follow for more future physics and quantum breakthroughs.

TheNewPhysics

20,050 views • 1 month 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:
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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

🚨 SCIENTISTS SAY “MAGIC” MAY BE WHAT GIVES SPACE-TIME ITS GRAVITY. For years, physicists have understood how entanglement can build the structure of space-time in holographic models. But something was missing: why does space-time curve in response to matter the essence of gravity? A team including Charles Cao and John Preskill now proposes the missing ingredient is a quantum property called “magic” a measure of how complex and non-classical a quantum state is (the kind that makes quantum computers hard to simulate classically). In their theoretical framework, adding this magic turns rigid space into something that can bend. Matter can now tell space how to curve. Why this matters: • It offers a new way to think about how gravity emerges from quantum information • It connects ideas from quantum computing (error correction, magic states) directly to fundamental physics • It suggests space-time itself may be one of the most quantum objects in existence The deeper implication: Gravity may not be a fundamental force at all. It may be what happens when quantum information becomes sufficiently complex and “magical.” This is still early theoretical work in specific holographic models. But it hints that the pliability of the universe might have quantum roots we are only beginning to understand. What do you think is gravity ultimately just extremely complicated quantum information, or do you think we’re still missing something much deeper? Follow for more frontier quantum gravity and quantum information research.
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🚨 SCIENTISTS SAY “MAGIC” MAY BE WHAT GIVES SPACE-TIME ITS GRAVITY. For years, physicists have understood how entanglement can build the structure of space-time in holographic models. But something was missing: why does space-time curve in response to matter the essence of gravity? A team including Charles Cao and John Preskill now proposes the missing ingredient is a quantum property called “magic” a measure of how complex and non-classical a quantum state is (the kind that makes quantum computers hard to simulate classically). In their theoretical framework, adding this magic turns rigid space into something that can bend. Matter can now tell space how to curve. Why this matters: • It offers a new way to think about how gravity emerges from quantum information • It connects ideas from quantum computing (error correction, magic states) directly to fundamental physics • It suggests space-time itself may be one of the most quantum objects in existence The deeper implication: Gravity may not be a fundamental force at all. It may be what happens when quantum information becomes sufficiently complex and “magical.” This is still early theoretical work in specific holographic models. But it hints that the pliability of the universe might have quantum roots we are only beginning to understand. What do you think is gravity ultimately just extremely complicated quantum information, or do you think we’re still missing something much deeper? Follow for more frontier quantum gravity and quantum information research.

TheNewPhysics

15,273 views • 10 days ago

🚨 AI JUST DISCOVERED QUANTUM EFFECTS THAT SCIENTISTS DIDN'T KNOW EXIST. Researchers at the University of Washington used artificial intelligence to simulate dozens of atomically thin sheets of molybdenum ditelluride stacked in precise twisted patterns. At small scales, these materials look relatively ordinary. But when the AI modeled much larger stacks, completely new quantum behaviors emerged phenomena that only exist because of the complex, repeating moiré patterns formed across many layers. Why this matters: • Many of the most interesting quantum effects only appear at scales that are too large for traditional supercomputers to simulate • AI can act as a fast “surrogate” that learns from smaller calculations and predicts behavior at much bigger scales • These large-scale moiré systems can host exotic quantum states useful for quantum computing and new types of electronics • The same approach could be used to discover many other hidden quantum materials The deeper implication: We are entering an era where AI doesn’t just help us analyze data it helps us discover entirely new quantum phenomena that were previously invisible because they only exist in systems too complex for conventional modeling. This could dramatically speed up the search for materials that power future quantum technologies. What do you find more exciting using AI to uncover hidden quantum effects in materials, or the possibility that these stacked atomic sheets could become building blocks for future quantum computers? Follow for more frontier quantum materials and AI-driven discovery.
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🚨 AI JUST DISCOVERED QUANTUM EFFECTS THAT SCIENTISTS DIDN'T KNOW EXIST. Researchers at the University of Washington used artificial intelligence to simulate dozens of atomically thin sheets of molybdenum ditelluride stacked in precise twisted patterns. At small scales, these materials look relatively ordinary. But when the AI modeled much larger stacks, completely new quantum behaviors emerged phenomena that only exist because of the complex, repeating moiré patterns formed across many layers. Why this matters: • Many of the most interesting quantum effects only appear at scales that are too large for traditional supercomputers to simulate • AI can act as a fast “surrogate” that learns from smaller calculations and predicts behavior at much bigger scales • These large-scale moiré systems can host exotic quantum states useful for quantum computing and new types of electronics • The same approach could be used to discover many other hidden quantum materials The deeper implication: We are entering an era where AI doesn’t just help us analyze data it helps us discover entirely new quantum phenomena that were previously invisible because they only exist in systems too complex for conventional modeling. This could dramatically speed up the search for materials that power future quantum technologies. What do you find more exciting using AI to uncover hidden quantum effects in materials, or the possibility that these stacked atomic sheets could become building blocks for future quantum computers? Follow for more frontier quantum materials and AI-driven discovery.

TheNewPhysics

28,051 views • 3 days ago

The risk window is opening now, not years from now. ⏳ Adversaries can copy encrypted data today and wait for quantum capability. That makes long-lived assets vulnerable on arrival. Organizations that move early reduce both migration cost and exposure. Learn more about NIST's expected approach to transitioning from quantum-vulnerable cryptographic algorithms to post-quantum digital signature algorithms:
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The risk window is opening now, not years from now. ⏳ Adversaries can copy encrypted data today and wait for quantum capability. That makes long-lived assets vulnerable on arrival. Organizations that move early reduce both migration cost and exposure. Learn more about NIST's expected approach to transitioning from quantum-vulnerable cryptographic algorithms to post-quantum digital signature algorithms:

Autonomys | AI3.0

35,848 views • 7 months ago

BITCOIN DEVELOPER PROPOSES FORK TO REDISTRIBUTE SATOSHI'S 1.1M BTC Long-time Bitcoin developer Paul Sztorc has proposed a hard fork called eCash, scheduled for August 2026, that would create an entirely new chain copied from Bitcoin's existing code. According to the proposal, every current Bitcoin holder would receive equivalent eCash tokens for free at the time of the split. The most controversial part is the proposed reassignment of Satoshi Nakamoto's coins. Bitcoin's missing founder holds roughly 1.1 million BTC in dormant wallets. Critics argue the move challenges core principles of Bitcoin ownership. Sztorc has been pushing to overhaul Bitcoin since 2015. The broader community has resisted him at every turn.
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BITCOIN DEVELOPER PROPOSES FORK TO REDISTRIBUTE SATOSHI'S 1.1M BTC Long-time Bitcoin developer Paul Sztorc has proposed a hard fork called eCash, scheduled for August 2026, that would create an entirely new chain copied from Bitcoin's existing code. According to the proposal, every current Bitcoin holder would receive equivalent eCash tokens for free at the time of the split. The most controversial part is the proposed reassignment of Satoshi Nakamoto's coins. Bitcoin's missing founder holds roughly 1.1 million BTC in dormant wallets. Critics argue the move challenges core principles of Bitcoin ownership. Sztorc has been pushing to overhaul Bitcoin since 2015. The broader community has resisted him at every turn.

BSCN

46,517 views • 1 month ago

Quantum computers aren’t what you think. They’re cooler. Watch our #TED2024 TED Talk from Hartmut Neven, founder & head of Google Quantum AI → See how a quantum computer works, learn about quantum fundamentals, current and future applications, and more.
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Quantum computers aren’t what you think. They’re cooler. Watch our #TED2024 TED Talk from Hartmut Neven, founder & head of Google Quantum AI → See how a quantum computer works, learn about quantum fundamentals, current and future applications, and more.

Google Quantum AI

71,257 views • 1 year ago

The computers of tomorrow are using photons instead of electrons... Notice the fiber optics here in this quantum super computer, it's the new design and the copper wire is pretty much gone. The tech is so advanced now they're using entangled photon packets to resonate data from one quantum computer to another via light waves... Wireless quantum networks could communicate via entanglement without the need for radio or other wireless transmissions... this is the dawn of a new computing revolution....
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The computers of tomorrow are using photons instead of electrons... Notice the fiber optics here in this quantum super computer, it's the new design and the copper wire is pretty much gone. The tech is so advanced now they're using entangled photon packets to resonate data from one quantum computer to another via light waves... Wireless quantum networks could communicate via entanglement without the need for radio or other wireless transmissions... this is the dawn of a new computing revolution....

VAL THOR

72,765 views • 1 year ago

What a day! 🤯 Algorand was mentioned 32 times by Google in its whitepaper on quantum risks, highlighting its leading work in PQC! Not sure everyone realizes how BIG this is, massive credibility for $ALGO and huge recognition for the team! 👏 Algorand has been one of the few blockchains/DLTs taking the quantum threat seriously for years, as it's not a question of if but when. Post-quantum implementation takes time and resources, it needs to be anticipated! The past few months have been incredible for $ALGO on that front, as it became one of the first major chains to execute a post-quantum transaction on mainnet using NIST-selected Falcon signatures! Not to mention the great news from a few days ago, with Chris Peikert officially joining Algorand Foundation from AT after the merge! So exciting, as Chris is literally one of the world's leading experts in post-quantum cryptography! What a chance for Algorand to have him and some of the best experts in PQC on its team! SO BULLISH 🔥🔥
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What a day! 🤯 Algorand was mentioned 32 times by Google in its whitepaper on quantum risks, highlighting its leading work in PQC! Not sure everyone realizes how BIG this is, massive credibility for $ALGO and huge recognition for the team! 👏 Algorand has been one of the few blockchains/DLTs taking the quantum threat seriously for years, as it's not a question of if but when. Post-quantum implementation takes time and resources, it needs to be anticipated! The past few months have been incredible for $ALGO on that front, as it became one of the first major chains to execute a post-quantum transaction on mainnet using NIST-selected Falcon signatures! Not to mention the great news from a few days ago, with Chris Peikert officially joining Algorand Foundation from AT after the merge! So exciting, as Chris is literally one of the world's leading experts in post-quantum cryptography! What a chance for Algorand to have him and some of the best experts in PQC on its team! SO BULLISH 🔥🔥

Ⱥlex | france.algo 🇫🇷

25,120 views • 2 months ago