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🧠⚡ Quantum Computing Is Already Touching Bitcoin
Quantum tech could one day challenge Bitcoin’s
🔐 security by breaking cryptographic signatures.
🛡️ No immediate threat — today’s quantum computers aren’t strong enough yet.
🔧 Bitcoin devs are already working on quantum-resistant upgrades.
📌 Bottom line: Bitcoin isn’t in danger now, but it will evolve with the future.
$BTC
$ASTER
$MIRA
#bitcoin #quantumcomputers #blockchain #CryptoNews #GrayscaleBNBETFFiling
Quantum tech could one day challenge Bitcoin’s
🔐 security by breaking cryptographic signatures.
🛡️ No immediate threat — today’s quantum computers aren’t strong enough yet.
🔧 Bitcoin devs are already working on quantum-resistant upgrades.
📌 Bottom line: Bitcoin isn’t in danger now, but it will evolve with the future.
$BTC
$ASTER
$MIRA
#bitcoin #quantumcomputers #blockchain #CryptoNews #GrayscaleBNBETFFiling
Quantum Race Begins: Traditional Finance Faces Challenges, Blockchain Seeks Advantage
In a recent post on X, Franklin Bi, General Partner at Pantera Capital, declared that the competition to counter quantum computing threats is now underway. He identified a critical market misperception regarding the preparedness of traditional finance and blockchain for quantum-resistant technologies.
According to Bi, the market is making a dual miscalculation. First, it overestimates the agility of Wall Street and traditional finance to adapt. Transitioning legacy financial infrastructure is likely to be a slow, chaotic, and risky process, vulnerable to single points of failure, with systemic security dependent on its weakest components.
Conversely, the market underestimates blockchain technology’s inherent capacity for coordinated upgrades. Bi argues that if major blockchains execute timely upgrades to quantum-resistant cryptography, they could transform into essential "safe havens" for data and value. He cites Ethereum’s global "The Merge" upgrade as proven precedent for complex, systematic evolution.
Ultimately, Bi suggests that the quantum computing threat could intensify the "gravitational pull" of a few leading, quantum-ready blockchain networks, potentially reshaping the digital asset landscape. #quantumcomputers #Binance $BNB
📌Like, Share, Comment your thoughts below and Follow for more content like this.
In a recent post on X, Franklin Bi, General Partner at Pantera Capital, declared that the competition to counter quantum computing threats is now underway. He identified a critical market misperception regarding the preparedness of traditional finance and blockchain for quantum-resistant technologies.
According to Bi, the market is making a dual miscalculation. First, it overestimates the agility of Wall Street and traditional finance to adapt. Transitioning legacy financial infrastructure is likely to be a slow, chaotic, and risky process, vulnerable to single points of failure, with systemic security dependent on its weakest components.
Conversely, the market underestimates blockchain technology’s inherent capacity for coordinated upgrades. Bi argues that if major blockchains execute timely upgrades to quantum-resistant cryptography, they could transform into essential "safe havens" for data and value. He cites Ethereum’s global "The Merge" upgrade as proven precedent for complex, systematic evolution.
Ultimately, Bi suggests that the quantum computing threat could intensify the "gravitational pull" of a few leading, quantum-ready blockchain networks, potentially reshaping the digital asset landscape. #quantumcomputers #Binance $BNB
📌Like, Share, Comment your thoughts below and Follow for more content like this.
$VET is the only coin that can tell you exactly where your food came from. #vechain
$QNT is the software that will connect every bank in the world. #quantumcomputers
t
$GRT is the Google of Web3; without it, we are all lost. #TheGraph
$QNT is the software that will connect every bank in the world. #quantumcomputers
t
$GRT is the Google of Web3; without it, we are all lost. #TheGraph
Why Gold Is Pumping: The Smart Money’s Safe Haven
Gold is pumping for a few key reasons, and it’s not just about price speculation. First, gold is centralized and secure unlike cryptocurrencies, it cannot be hacked, even by advanced technologies like quantum computing. While quantum computing may one day threaten Bitcoin and other digital assets, gold remains untouchable because it’s a physical, tangible asset.
Second, investors are moving their money into gold as a safe asset. When markets are uncertain with crypto volatility, stock risks, or global economic tensions smart money prefers gold because it protects wealth and preserves value. This shift shows that people are preparing for uncertain times and using gold as a shield against risk.
#GoldSilverAtRecordHighs #quantumcomputers #stocks #EconomicAlert #bitcoin
$BTC
Gold is pumping for a few key reasons, and it’s not just about price speculation. First, gold is centralized and secure unlike cryptocurrencies, it cannot be hacked, even by advanced technologies like quantum computing. While quantum computing may one day threaten Bitcoin and other digital assets, gold remains untouchable because it’s a physical, tangible asset.
Second, investors are moving their money into gold as a safe asset. When markets are uncertain with crypto volatility, stock risks, or global economic tensions smart money prefers gold because it protects wealth and preserves value. This shift shows that people are preparing for uncertain times and using gold as a shield against risk.
#GoldSilverAtRecordHighs #quantumcomputers #stocks #EconomicAlert #bitcoin
$BTC
🧠 “If #bitcoin is just code… why hasn’t anyone hacked #SatoshiNakamoto yet?”
This question pops up all the time, especially from newcomers.
The short answer? Because $BTC isn’t protected by passwords.
The long answer is way more interesting 👇
Can Satoshi’s wallets be hacked?
No. And not in the way people imagine.
Satoshi’s early Bitcoin wallets are protected by pure mathematics, not usernames or passwords.
They use something called elliptic curve cryptography — a type of math so hard that even the strongest computers on Earth can’t break it.
To guess one private key by force, a computer would need more time than the age of the universe.
Not years.
Not centuries.
Billions upon billions of years.
That’s not hype — that’s math.
“Okay… but what about #quantumcomputers ?”
This is where most people get confused.
#Quantum computers can’t magically hack every Bitcoin wallet.
Here’s the key detail most miss 👇
Quantum attacks only work if a wallet’s public key is already exposed on-chain
Satoshi’s wallets have never made a transaction
No transaction = no public key exposed
So there’s literally nothing for a quantum computer to attack.
And even in the future, if quantum tech becomes dangerous…
👉 #BTC can upgrade its cryptography before that happens
The network has already done major upgrades before. It can do it again.
So what does this mean for Satoshi’s coins?
Simple:
You can’t brute-force them
You can’t hack them
You can’t trick Bitcoin
Those coins are sitting behind a cryptographic wall humanity still can’t touch.
The only way they ever move…
is if the person holding the private keys decides to move them.
That’s why people watch those wallets like a sleeping giant.
Because the day they wake up —
it won’t be a hack…
it’ll be history being made. 👀🚀
This question pops up all the time, especially from newcomers.
The short answer? Because $BTC isn’t protected by passwords.
The long answer is way more interesting 👇
Can Satoshi’s wallets be hacked?
No. And not in the way people imagine.
Satoshi’s early Bitcoin wallets are protected by pure mathematics, not usernames or passwords.
They use something called elliptic curve cryptography — a type of math so hard that even the strongest computers on Earth can’t break it.
To guess one private key by force, a computer would need more time than the age of the universe.
Not years.
Not centuries.
Billions upon billions of years.
That’s not hype — that’s math.
“Okay… but what about #quantumcomputers ?”
This is where most people get confused.
#Quantum computers can’t magically hack every Bitcoin wallet.
Here’s the key detail most miss 👇
Quantum attacks only work if a wallet’s public key is already exposed on-chain
Satoshi’s wallets have never made a transaction
No transaction = no public key exposed
So there’s literally nothing for a quantum computer to attack.
And even in the future, if quantum tech becomes dangerous…
👉 #BTC can upgrade its cryptography before that happens
The network has already done major upgrades before. It can do it again.
So what does this mean for Satoshi’s coins?
Simple:
You can’t brute-force them
You can’t hack them
You can’t trick Bitcoin
Those coins are sitting behind a cryptographic wall humanity still can’t touch.
The only way they ever move…
is if the person holding the private keys decides to move them.
That’s why people watch those wallets like a sleeping giant.
Because the day they wake up —
it won’t be a hack…
it’ll be history being made. 👀🚀
Willow Bizzard vQrh:
BTC,aniołku nikt nie rozumie fizyki kwantowej łącznie z najtęższymi umysłami na ziemi od momentu jej zaobserwowania na rozgrzanym piecu,jej główne założenie brzmi -coś jest nie tak
🚨 Quantum Computing Raises New Questions for Bitcoin Security
Bitcoin faced mild pressure today as quantum computing concerns returned to the spotlight, sparking discussion across institutional and technical circles. While price reaction remains limited, the long-term implications are drawing serious attention.
$BTC
#QuantumSecurity #quantumcomputers #QuantumCrypto
$BTC
#QuantumSecurity #quantumcomputers #QuantumCrypto
Jefferies strategist dumps 10% Bitcoin exposure over quantum computing concerns
$BTC vs #quantumcomputers
$BTC vs #quantumcomputers
🔐 Quantum Computing vs Cryptocurrency: Should We Be Worried?
Quantum computing is advancing fast—and it raises an important question for crypto.
Most cryptocurrencies rely on cryptography that today’s computers can’t break. However, powerful quantum computers could one day weaken digital signatures and expose wallet keys using algorithms like Shor’s Algorithm.
⚠️ The good news:
Quantum computers are not yet powerful enough to break Bitcoin or Ethereum.
⏳ The real risk:
Crypto assets are long-term. Funds stored today could be vulnerable in the future if blockchains don’t upgrade.
✅ What matters now:
Quantum risk is long-term, not immediate
Post-quantum cryptography is already being researched
Blockchains that can adapt will survive
Quantum computing won’t kill crypto—but preparing for it is essential.
#quantumcomputers #cryptocurreny #BlockchainSecurity #futuretech
$BTC
$ETH
$BNB
Quantum computing is advancing fast—and it raises an important question for crypto.
Most cryptocurrencies rely on cryptography that today’s computers can’t break. However, powerful quantum computers could one day weaken digital signatures and expose wallet keys using algorithms like Shor’s Algorithm.
⚠️ The good news:
Quantum computers are not yet powerful enough to break Bitcoin or Ethereum.
⏳ The real risk:
Crypto assets are long-term. Funds stored today could be vulnerable in the future if blockchains don’t upgrade.
✅ What matters now:
Quantum risk is long-term, not immediate
Post-quantum cryptography is already being researched
Blockchains that can adapt will survive
Quantum computing won’t kill crypto—but preparing for it is essential.
#quantumcomputers #cryptocurreny #BlockchainSecurity #futuretech
$BTC
$ETH
$BNB
Quantum Computing: The Next Strategic Inflection Point for Technology and Security
🖥️ Quantum Computers: The Next Technological Leap We Cannot Ignore
For decades, computing power has grown steadily, enabling breakthroughs in AI, cybersecurity, healthcare, and every corner of the digital economy. But we are now standing at the edge of a technological shift far greater than anything classical computing can deliver, the era of Quantum Computing.
🖥️ Quantum computers are not just “faster computers.” They are a different kind of machine entirely, capable of solving problems that would take today’s supercomputers thousands of years.
As industries accelerate toward digital transformation, understanding quantum technology is becoming a strategic advantage—not just for scientists, but for leaders, CISOs, innovators, and policymakers.
🖥️What Makes Quantum Computers Different?
Traditional computers process information as bits: 0 or 1.
Quantum computers use qubits, which follow the principles of superposition and entanglement.
This allows quantum systems to:
💤 Process massive datasets simultaneously
💤 Evaluate multiple solutions at once
💤 Model complexity that classical machines simply cannot
Imagine trying to test every combination in a cryptographic key simultaneously— that’s the power of quantum.
🖥️️ Where Quantum Computing Will Make the Biggest Impact
1️⃣ Cybersecurity & Cryptography
2️⃣ Artificial Intelligence & Optimization
3️⃣ Healthcare & Pharmaceuticals
4️⃣ Finance & Risk Management
🖥️️ The Quantum Threat: Prepare Now, Not Later
While quantum promises incredible advancements, it also introduces significant risks.
🖥️️ What Leaders Should Focus on Today
💤 Awareness – Understand quantum capabilities and timelines.
💤 Skills – Build teams that can navigate quantum technologies.
💤 Security – Begin the shift to quantum-safe cryptography.
💤 Partnerships – Collaborate with vendors, academia, and quantum labs.
💤 Innovation – Identify high-value use cases early.
Winners in the quantum era will be those who adopt early, adapt quickly, and innovate continuously.
🖥️️ The Future Is Quantum
Quantum computing isn’t science fiction.
It’s a rapidly progressing reality that will reshape industries, economies, and the very foundation of cybersecurity.
We are entering a world where:
💤 Complex problems become solvable
💤 Encrypted data becomes vulnerable
💤 AI evolves beyond classical limits
💤 Innovation accelerates exponentially
The question is no longer “Will quantum computing matter?”
It’s “How prepared are we when it arrives?”
#quantumcomputers #Write2Earn #QuantumCrypto #QuantumSecurity
$XRP
$BTC
$ETH
For decades, computing power has grown steadily, enabling breakthroughs in AI, cybersecurity, healthcare, and every corner of the digital economy. But we are now standing at the edge of a technological shift far greater than anything classical computing can deliver, the era of Quantum Computing.
🖥️ Quantum computers are not just “faster computers.” They are a different kind of machine entirely, capable of solving problems that would take today’s supercomputers thousands of years.
As industries accelerate toward digital transformation, understanding quantum technology is becoming a strategic advantage—not just for scientists, but for leaders, CISOs, innovators, and policymakers.
🖥️What Makes Quantum Computers Different?
Traditional computers process information as bits: 0 or 1.
Quantum computers use qubits, which follow the principles of superposition and entanglement.
This allows quantum systems to:
💤 Process massive datasets simultaneously
💤 Evaluate multiple solutions at once
💤 Model complexity that classical machines simply cannot
Imagine trying to test every combination in a cryptographic key simultaneously— that’s the power of quantum.
🖥️️ Where Quantum Computing Will Make the Biggest Impact
1️⃣ Cybersecurity & Cryptography
2️⃣ Artificial Intelligence & Optimization
3️⃣ Healthcare & Pharmaceuticals
4️⃣ Finance & Risk Management
🖥️️ The Quantum Threat: Prepare Now, Not Later
While quantum promises incredible advancements, it also introduces significant risks.
🖥️️ What Leaders Should Focus on Today
💤 Awareness – Understand quantum capabilities and timelines.
💤 Skills – Build teams that can navigate quantum technologies.
💤 Security – Begin the shift to quantum-safe cryptography.
💤 Partnerships – Collaborate with vendors, academia, and quantum labs.
💤 Innovation – Identify high-value use cases early.
Winners in the quantum era will be those who adopt early, adapt quickly, and innovate continuously.
🖥️️ The Future Is Quantum
Quantum computing isn’t science fiction.
It’s a rapidly progressing reality that will reshape industries, economies, and the very foundation of cybersecurity.
We are entering a world where:
💤 Complex problems become solvable
💤 Encrypted data becomes vulnerable
💤 AI evolves beyond classical limits
💤 Innovation accelerates exponentially
The question is no longer “Will quantum computing matter?”
It’s “How prepared are we when it arrives?”
#quantumcomputers #Write2Earn #QuantumCrypto #QuantumSecurity
$XRP
$BTC
$ETH
🔐 EXPLAINED: Quantum-resistant tokens use advanced cryptography to protect against quantum computing threats, securing blockchain networks and digital assets.#quantumcomputers #QuantumResistantLedger #Write2Earn! #NewsAboutCrypto
Quantum Computers and Cryptography: Is Bitcoin at Risk?
Quantum computers are considered one of the most promising technologies of the future. They promise computing power far beyond that of classical computers. However, this revolution could also pose a threat to modern cryptography—and thus to systems like Bitcoin.
The critical question is: Can quantum computers break Bitcoin? And if so, will Bitcoin need an upgrade?
How Quantum Computers Threaten Cryptography
The security of modern cryptography relies on mathematical problems that are difficult for classical computers to solve. Bitcoin primarily uses two algorithms:
1. SHA-256 (for hash functions)
2. ECDSA (Elliptic Curve Digital Signature Algorithm, for digital signatures)
Quantum computers could specifically attack ECDSA using Shor’s Algorithm, which can break elliptic curve cryptography. In theory, this would allow an attacker to derive private keys from public addresses—a nightmare scenario for Bitcoin.
Does This Also Affect SHA-256?
Fortunately, SHA-256 (and similar hash functions) are only minimally vulnerable to quantum attacks. Grover’s Algorithm could theoretically cut search times in half, but even then, attacking Bitcoin mining or transaction hashes would be extremely resource-intensive.
Is Bitcoin Really at Risk?
The good news: Not anytime soon.
1. Quantum computers are not yet powerful enough
- Current quantum computers have only a few error-prone qubits.
1. Breaking ECDSA would require thousands of error-corrected qubits—something that is still years or decades away.
2. Bitcoin transactions are often "quantum-resistant"
- As long as Bitcoin addresses are used only once (as recommended), the risk is low.
- Only publicly known addresses (e.g., unused funds in old wallets) would be vulnerable.
3. The community can adapt
- If quantum computers become a real threat, Bitcoin can upgrade to quantum-resistant cryptography (e.g., Lamport signatures or lattice-based cryptography).
Will Bitcoin Need an Upgrade? Long-term: Yes.
Once quantum computers become practically viable, Bitcoin will need to update its signature algorithms. However, progress is slow enough that the community will have time to respond.
Possible Solutions:
- Post-quantum cryptography (e.g., XMSS, SPHINCS+)
- Schnorr signatures (already part of Bitcoin’s protocol, offering better scalability and serving as a foundation for quantum-resistant upgrades)
- Hybrid systems (combining ECDSA with quantum-resistant signatures)
Conclusion: Bitcoin is (Still) Safe
Quantum computers pose a potential threat, but not an immediate one. Bitcoin developers have time to prepare, and promising quantum-resistant solutions already exist.
Bitcoin won’t be cracked overnight—but the community must stay vigilant. Once quantum computing makes significant advances, an upgrade will be necessary. Until then, the network remains secure.
Further Topics:
- Post-quantum cryptography
- Quantum-Resistant Ledger (QRL)
- Bitcoin Improvement Proposals (BIPs) for quantum security
#quantumcomputers #Cryptography
$BTC
The critical question is: Can quantum computers break Bitcoin? And if so, will Bitcoin need an upgrade?
How Quantum Computers Threaten Cryptography
The security of modern cryptography relies on mathematical problems that are difficult for classical computers to solve. Bitcoin primarily uses two algorithms:
1. SHA-256 (for hash functions)
2. ECDSA (Elliptic Curve Digital Signature Algorithm, for digital signatures)
Quantum computers could specifically attack ECDSA using Shor’s Algorithm, which can break elliptic curve cryptography. In theory, this would allow an attacker to derive private keys from public addresses—a nightmare scenario for Bitcoin.
Does This Also Affect SHA-256?
Fortunately, SHA-256 (and similar hash functions) are only minimally vulnerable to quantum attacks. Grover’s Algorithm could theoretically cut search times in half, but even then, attacking Bitcoin mining or transaction hashes would be extremely resource-intensive.
Is Bitcoin Really at Risk?
The good news: Not anytime soon.
1. Quantum computers are not yet powerful enough
- Current quantum computers have only a few error-prone qubits.
1. Breaking ECDSA would require thousands of error-corrected qubits—something that is still years or decades away.
2. Bitcoin transactions are often "quantum-resistant"
- As long as Bitcoin addresses are used only once (as recommended), the risk is low.
- Only publicly known addresses (e.g., unused funds in old wallets) would be vulnerable.
3. The community can adapt
- If quantum computers become a real threat, Bitcoin can upgrade to quantum-resistant cryptography (e.g., Lamport signatures or lattice-based cryptography).
Will Bitcoin Need an Upgrade? Long-term: Yes.
Once quantum computers become practically viable, Bitcoin will need to update its signature algorithms. However, progress is slow enough that the community will have time to respond.
Possible Solutions:
- Post-quantum cryptography (e.g., XMSS, SPHINCS+)
- Schnorr signatures (already part of Bitcoin’s protocol, offering better scalability and serving as a foundation for quantum-resistant upgrades)
- Hybrid systems (combining ECDSA with quantum-resistant signatures)
Conclusion: Bitcoin is (Still) Safe
Quantum computers pose a potential threat, but not an immediate one. Bitcoin developers have time to prepare, and promising quantum-resistant solutions already exist.
Bitcoin won’t be cracked overnight—but the community must stay vigilant. Once quantum computing makes significant advances, an upgrade will be necessary. Until then, the network remains secure.
Further Topics:
- Post-quantum cryptography
- Quantum-Resistant Ledger (QRL)
- Bitcoin Improvement Proposals (BIPs) for quantum security
#quantumcomputers #Cryptography
$BTC
People won't buy Bitcoin because "quantum computers might break it someday."
These same people trust a 4-digit PIN to protect their life savings.
Bitcoin: 256-bit private key. 10^77 possible combinations.
Bank: 4 digits. 10,000 combinations.
One is practically impossible to crack. The other can be guessed in an afternoon.
$BTC #bitcoin #quantumcomputers
These same people trust a 4-digit PIN to protect their life savings.
Bitcoin: 256-bit private key. 10^77 possible combinations.
Bank: 4 digits. 10,000 combinations.
One is practically impossible to crack. The other can be guessed in an afternoon.
$BTC #bitcoin #quantumcomputers
🇨🇳🖥️ TIANYAN-287: IL COMPUTER QUANTISTICO CINESE ACCESSIBILE IN TUTTO IL MONDO 🖥️🇨🇳
La Cina ha lanciato Tianyan-287, un computer quantistico superconduttore costituito da 105 “data qubit” e 182 “coupling qubit,” per un totale di 287 qubit.
Questa macchina offre prestazioni rivoluzionarie, con velocità fino a 450 milioni di volte superiori rispetto a un supercomputer tradizionale nei compiti specializzati.
Non si tratta di un prototipo da laboratorio, ma di un sistema progettato specificamente per l'uso commerciale e scientifico.
Una delle caratteristiche più innovative di Tianyan-287 è la sua accessibilità globale: è disponibile tramite una piattaforma cloud, la “Tianyan” quantum computing cloud platform, che consente a ricercatori e aziende di tutto il mondo di usufruire della potenza di calcolo quantistico da remoto.
La piattaforma, attiva dal 2023, ha già visto oltre 37 milioni di visite e oltre 2,7 milioni di esperimenti svolti da utenti in più di 60 paesi.
Il sistema è stato sviluppato con tecnologia completamente domestica attraverso una collaborazione tra China Telecom Quantum Group e QuantumCTek.
Un'importante sfida ingegneristica è stata garantire la stabilità e l'affidabilità del refrigeratore a diluizione che mantiene i qubit in un ambiente a temperature ultra-basse, funzionale per l’erogazione continua di servizi cloud.
Questo computer quantistico apre nuove frontiere nelle simulazioni scientifiche, nell'ottimizzazione e nella ricerca avanzata, segnando un importante passo avanti sia per la Cina che per la comunità scientifica globale nel campo dell’informatica quantistica, con un impatto potenziale su settori strategici come la crittografia, la progettazione di materiali e le analisi complesse.
#quantum #quantumcomputers #china
La Cina ha lanciato Tianyan-287, un computer quantistico superconduttore costituito da 105 “data qubit” e 182 “coupling qubit,” per un totale di 287 qubit.
Questa macchina offre prestazioni rivoluzionarie, con velocità fino a 450 milioni di volte superiori rispetto a un supercomputer tradizionale nei compiti specializzati.
Non si tratta di un prototipo da laboratorio, ma di un sistema progettato specificamente per l'uso commerciale e scientifico.
Una delle caratteristiche più innovative di Tianyan-287 è la sua accessibilità globale: è disponibile tramite una piattaforma cloud, la “Tianyan” quantum computing cloud platform, che consente a ricercatori e aziende di tutto il mondo di usufruire della potenza di calcolo quantistico da remoto.
La piattaforma, attiva dal 2023, ha già visto oltre 37 milioni di visite e oltre 2,7 milioni di esperimenti svolti da utenti in più di 60 paesi.
Il sistema è stato sviluppato con tecnologia completamente domestica attraverso una collaborazione tra China Telecom Quantum Group e QuantumCTek.
Un'importante sfida ingegneristica è stata garantire la stabilità e l'affidabilità del refrigeratore a diluizione che mantiene i qubit in un ambiente a temperature ultra-basse, funzionale per l’erogazione continua di servizi cloud.
Questo computer quantistico apre nuove frontiere nelle simulazioni scientifiche, nell'ottimizzazione e nella ricerca avanzata, segnando un importante passo avanti sia per la Cina che per la comunità scientifica globale nel campo dell’informatica quantistica, con un impatto potenziale su settori strategici come la crittografia, la progettazione di materiali e le analisi complesse.
#quantum #quantumcomputers #china
🔥 The First Quantum-Ready Chain? $ICP . And Nobody’s Talking About It.
Everyone thinks #quantumcomputers will destroy crypto.
Wrong. Quantum will only destroy chains built on old, static private keys —
Bitcoin, Ethereum, Solana, Avalanche, Cosmos, Cardano… basically the whole market.
But #icp is different.
✨ #ICP. runs on chain-key cryptography — rotating, distributed, threshold-secured.
No single private key. No single point to attack.
And it can upgrade its cryptography live without breaking smart contracts or wallets.
That’s not an advantage…
That’s quantum-era survival.
But here’s the twist nobody sees:
Quantum won’t just protect #ICPCoin —
Quantum will supercharge it. 🚀
Quantum boosts:
• threshold signatures
• randomness
• zk-proofs
• cross-chain signing
• MPC
• AI inference inside canisters
And because ICP is the only full-stack decentralized cloud, quantum compute plugs directly into the network — not bolted on like other chains.
Most blockchains will panic-fork, patch, or outright fail when quantum arrives.
@Internet Computer won’t. It was designed from day one to evolve.
That’s why the upside is massive.
#InternetComputer isn’t just another blockchain —
it’s a quantum-secure, quantum-accelerated decentralized cloud.
We’re early. Very early. 🚀
Everyone thinks #quantumcomputers will destroy crypto.
Wrong. Quantum will only destroy chains built on old, static private keys —
Bitcoin, Ethereum, Solana, Avalanche, Cosmos, Cardano… basically the whole market.
But #icp is different.
✨ #ICP. runs on chain-key cryptography — rotating, distributed, threshold-secured.
No single private key. No single point to attack.
And it can upgrade its cryptography live without breaking smart contracts or wallets.
That’s not an advantage…
That’s quantum-era survival.
But here’s the twist nobody sees:
Quantum won’t just protect #ICPCoin —
Quantum will supercharge it. 🚀
Quantum boosts:
• threshold signatures
• randomness
• zk-proofs
• cross-chain signing
• MPC
• AI inference inside canisters
And because ICP is the only full-stack decentralized cloud, quantum compute plugs directly into the network — not bolted on like other chains.
Most blockchains will panic-fork, patch, or outright fail when quantum arrives.
@Internet Computer won’t. It was designed from day one to evolve.
That’s why the upside is massive.
#InternetComputer isn’t just another blockchain —
it’s a quantum-secure, quantum-accelerated decentralized cloud.
We’re early. Very early. 🚀
Will Quantum Computers be Able to Hack Bitcoin?
Bitcoin, a cryptocurrency, relies on cryptographic algorithms to ensure its security. However, the emergence of quantum computers poses potential threats to Bitcoin's security protocols. In this article, we'll explore the likelihood of quantum computers hacking Bitcoin and the future of cryptocurrencies.
Bitcoin's Security Protocols
The Bitcoin network uses SHA-256 hash function and Elliptic Curve Digital Signature Algorithm (ECDSA) to secure transactions. These algorithms are considered difficult to break for current classical computers.
Capabilities of Quantum Computers
Quantum computers operate using quantum bits (qubits) and can perform computations by leveraging quantum mechanical properties such as superposition and entanglement. This enables them to calculate multiple possibilities simultaneously, potentially solving certain problems much faster than classical computers.
Quantum Computers and Cryptography
Quantum computers, particularly through the use of Shor's Algorithm, could have superior abilities to factor large numbers into prime factors. This poses a threat to cryptographic algorithms like ECDSA, which rely on prime factors.
Bitcoin Network's Resilience to Quantum Attacks
Currently, it's too early to discuss the practical existence of a quantum computer. However, if such a computer is developed in the future, the Bitcoin network would need to update its security protocols. Transitioning to post-quantum cryptography could be a solution.
While quantum computers theoretically have the potential to hack Bitcoin, practical implementation of this technology is not yet available. Bitcoin and other cryptocurrencies continue to work towards enhancing their security against future threats.
#Quantum #Bitcoin #BTC #quantumcomputers #blockchain
Bitcoin's Security Protocols
The Bitcoin network uses SHA-256 hash function and Elliptic Curve Digital Signature Algorithm (ECDSA) to secure transactions. These algorithms are considered difficult to break for current classical computers.
Capabilities of Quantum Computers
Quantum computers operate using quantum bits (qubits) and can perform computations by leveraging quantum mechanical properties such as superposition and entanglement. This enables them to calculate multiple possibilities simultaneously, potentially solving certain problems much faster than classical computers.
Quantum Computers and Cryptography
Quantum computers, particularly through the use of Shor's Algorithm, could have superior abilities to factor large numbers into prime factors. This poses a threat to cryptographic algorithms like ECDSA, which rely on prime factors.
Bitcoin Network's Resilience to Quantum Attacks
Currently, it's too early to discuss the practical existence of a quantum computer. However, if such a computer is developed in the future, the Bitcoin network would need to update its security protocols. Transitioning to post-quantum cryptography could be a solution.
While quantum computers theoretically have the potential to hack Bitcoin, practical implementation of this technology is not yet available. Bitcoin and other cryptocurrencies continue to work towards enhancing their security against future threats.
#Quantum #Bitcoin #BTC #quantumcomputers #blockchain
💻⚡ IBM PORTA L'ALGORITMO QUANTISTICO SU CHIP AMD: UNA SVOLTA NEL CALCOLO IBRIDO ⚡💻
IBM ha annunciato un importante passo avanti nel campo del quantum computing: ora è in grado di eseguire un algoritmo chiave per la correzione degli errori quantistici su chip AMD tradizionali, nello specifico su FPGA (Field Programmable Gate Array), già ampiamente disponibili sul mercato e utilizzati in data center e sistemi embedded .
Il quantum computing si basa sui qubit, che a differenza dei bit tradizionali, possono rappresentare sia 0 che 1 contemporaneamente.
Questa caratteristica consente ai computer quantistici di risolvere problemi complessi, come la simulazione di reazioni chimiche o l’ottimizzazione di sistemi logistici, molto più velocemente rispetto ai computer classici .
Tuttavia, i qubit sono estremamente sensibili agli errori causati da interferenze ambientali, e la correzione dinamica di questi errori è una delle maggiori sfide del settore.
L’algoritmo sviluppato da IBM, già presentato lo scorso giugno, è stato ora testato con successo su chip AMD, dimostrando di poter funzionare in tempo reale e dieci volte più velocemente del necessario, secondo Jay Gambetta, vicepresidente di IBM Quantum.
Questa soluzione apre la strada ad architetture ibride tra quantum e classical computing, rendendo più accessibile e scalabile la tecnologia quantistica senza dover ricorrere a componenti costosissimi su misura.
Questa svolta rappresenta non solo un vantaggio tecnologico per IBM e AMD, ma un passo importante verso la commercializzazione vera del quantum computing, decisivo per raggiungere l’obiettivo IBM di costruire il sistema Starling entro il 2029, con una significativa accelerazione rispetto alla roadmap programmata .
#quantumcomputers #quantum #AMD #ibm
IBM ha annunciato un importante passo avanti nel campo del quantum computing: ora è in grado di eseguire un algoritmo chiave per la correzione degli errori quantistici su chip AMD tradizionali, nello specifico su FPGA (Field Programmable Gate Array), già ampiamente disponibili sul mercato e utilizzati in data center e sistemi embedded .
Il quantum computing si basa sui qubit, che a differenza dei bit tradizionali, possono rappresentare sia 0 che 1 contemporaneamente.
Questa caratteristica consente ai computer quantistici di risolvere problemi complessi, come la simulazione di reazioni chimiche o l’ottimizzazione di sistemi logistici, molto più velocemente rispetto ai computer classici .
Tuttavia, i qubit sono estremamente sensibili agli errori causati da interferenze ambientali, e la correzione dinamica di questi errori è una delle maggiori sfide del settore.
L’algoritmo sviluppato da IBM, già presentato lo scorso giugno, è stato ora testato con successo su chip AMD, dimostrando di poter funzionare in tempo reale e dieci volte più velocemente del necessario, secondo Jay Gambetta, vicepresidente di IBM Quantum.
Questa soluzione apre la strada ad architetture ibride tra quantum e classical computing, rendendo più accessibile e scalabile la tecnologia quantistica senza dover ricorrere a componenti costosissimi su misura.
Questa svolta rappresenta non solo un vantaggio tecnologico per IBM e AMD, ma un passo importante verso la commercializzazione vera del quantum computing, decisivo per raggiungere l’obiettivo IBM di costruire il sistema Starling entro il 2029, con una significativa accelerazione rispetto alla roadmap programmata .
#quantumcomputers #quantum #AMD #ibm
Damage has been done.
Now Qunatatam Computer is accessable to everyone that can decrypt crypto keys .
#quantumcomputers #bitcoin
Now Qunatatam Computer is accessable to everyone that can decrypt crypto keys .
#quantumcomputers #bitcoin
Quantum Computers vs. Bitcoin
$BTC is currently secured primarily by elliptic curve cryptography (ECDSA/Schnorr), ensuring that private keys cannot be derived from public keys using classical computational means. However, quantum computing—specifically through Shor’s algorithm—could break this asymmetry if machines reach thousands to tens of thousands of qubits and hundreds of billions of quantum gates.
Current quantum hardware is still in the research phase, with chip capacities reaching hundreds—not the millions—of qubits needed to crack ECDSA. Yet the idea of “harvest now – decrypt later” is gaining traction, meaning data encrypted today could be broken decades later as technology advances (Forbes, Investopedia).
In 2024, the U.S. standards body NIST approved the first three post-quantum cryptography (PQC) algorithms to replace ECC/RSA (Schneier.com, Wikipedia, The Times).
For Bitcoin and broader blockchain infrastructure, transitioning to PQC represents a critical architectural shift requiring coordination across developers, node operators, and users.
Quantum computing poses a real and growing threat to Bitcoin. Without a proactive shift to post-quantum protocols, the network risks significant security breaches.
#Write2Earn #Encryption #BTC🔥🔥🔥🔥🔥 #quantumcomputers
$BTC is currently secured primarily by elliptic curve cryptography (ECDSA/Schnorr), ensuring that private keys cannot be derived from public keys using classical computational means. However, quantum computing—specifically through Shor’s algorithm—could break this asymmetry if machines reach thousands to tens of thousands of qubits and hundreds of billions of quantum gates.
Current quantum hardware is still in the research phase, with chip capacities reaching hundreds—not the millions—of qubits needed to crack ECDSA. Yet the idea of “harvest now – decrypt later” is gaining traction, meaning data encrypted today could be broken decades later as technology advances (Forbes, Investopedia).
In 2024, the U.S. standards body NIST approved the first three post-quantum cryptography (PQC) algorithms to replace ECC/RSA (Schneier.com, Wikipedia, The Times).
For Bitcoin and broader blockchain infrastructure, transitioning to PQC represents a critical architectural shift requiring coordination across developers, node operators, and users.
Quantum computing poses a real and growing threat to Bitcoin. Without a proactive shift to post-quantum protocols, the network risks significant security breaches.
#Write2Earn #Encryption #BTC🔥🔥🔥🔥🔥 #quantumcomputers
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