QuantumThreat
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š” How Bitcoin.ā Tackles Quantum ThreatsāUnderstanding BTC.āās QuantumāResistant SHAā384 Security š
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https://coingape.com/blog/how-bitcoin-h-tackles-quantum-threats-understanding-btc-hs-quantum-resistant-sha-384-security/
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https://coingape.com/blog/how-bitcoin-h-tackles-quantum-threats-understanding-btc-hs-quantum-resistant-sha-384-security/
š§ Bitcoin vs. Quantum Computers: Real Threat or Just Noise?
For years, quantum threats felt like sci-fi. Now? Not so much.
Google + IBM say breaking encryption might be possible sooner than we think ā maybe even before 2030. š³
š¹ Quantum tech is catching up.
š¹ Experts say BTCās cryptography could be cracked.
š¹ Some suggest migrating coins to quantum-safe wallets ASAP.
š¹ Others, like Adam Back, say itās still 20+ years away.
But what if theyāre wrong?
What if 8000 quantum chips really can break SHA-256?
Is Bitcoin ready for a cryptographic upgrade... or are we still too early to panic?
#QuantumThreat #CryptoSecurity #BTC #Write2Earn #wct
For years, quantum threats felt like sci-fi. Now? Not so much.
Google + IBM say breaking encryption might be possible sooner than we think ā maybe even before 2030. š³
š¹ Quantum tech is catching up.
š¹ Experts say BTCās cryptography could be cracked.
š¹ Some suggest migrating coins to quantum-safe wallets ASAP.
š¹ Others, like Adam Back, say itās still 20+ years away.
But what if theyāre wrong?
What if 8000 quantum chips really can break SHA-256?
Is Bitcoin ready for a cryptographic upgrade... or are we still too early to panic?
#QuantumThreat #CryptoSecurity #BTC #Write2Earn #wct
When Bitcoin is under Threat: Are Quantum Computers Really that Close to Breaking Cryptography?
Listen, I want to share a topic that came up in the news, and it's really interesting. It's about quantum computers and Bitcoin. It sounds like science fiction, but it seems that the time of fiction is coming to an end.
So, several major figures in the world of technology and cryptocurrencies have started sounding the alarm again: what if a quantum computer can hack Bitcoin? Like, it's really possible to open wallets, change transactions, and generally undermine everything that the blockchain stands for.
Here are the opinions I've gathered:
IBM and 2029
IBM plans to release a new generation quantum computer, Quantum Starling, by 2029. It will be a fault-tolerant (that is, stable, non-malfunctioning) quantum computer, which has not been done before. It is believed that such machines will be able to cope with tasks like breaking cryptography.
Google: Is the threat closer than it seems?
In May 2025, Google researcher Craig Gidney rolled out calculations according to which 20 times fewer quantum resources are needed to crack RSA encryption than previously thought. Yes, Bitcoin uses elliptic curves (ECC) instead of RSA, but they are also vulnerable to the Shore algorithm ā and Gidney confirmed this.
He estimated that with less than a million qubits, powerful encryption could be cracked in just a week. It doesn't sound like 2100 science fiction anymore.
Who says "not so scary"?
Adam Back, one of the veterans of the bitcoin scene and the head of Blockstream, says: don't panic. He believes that there will be no truly dangerous quantum systems for another 20 years, but he still advises transferring coins to quantum-stable addresses in advance, especially if these are the same ancient coins, such as from Satoshi's cache.
The most disturbing voice
David Carvalho of Naoris Protocol does not stand on ceremony: in his opinion, hacking can happen within 5 years if Bitcoin does not urgently switch to new cryptographic standards. He even refers to a report by BlackRock ā yes, the very investment giant - which explicitly states that the quantum threat is taken into account when applying for an ETF.
He also mentions that up to 30% of all bitcoins are stored at vulnerable addresses, and one successful breach can lead to a loss of trust in the entire network.
And what now?
Well, the cherry on the cake is investor Chamat Palihapitiya. At the end of 2024, he suggested that SHA-256ā the Bitcoin hashing algorithm, could be broken in 2-5 years. According to him, 8000 quantum chips like those that Google has already made are enough, and that's it. Although for now, scaling such a thing is a separate pain.
So, on the one hand, supercomputers are still not ready, but on the other, everything is moving much faster than expected, and the big players understand this.
Do you think Bitcoin should switch to a new cryptography right now ā or are these threats still from the category of "just in case"?
#BTC $BTC #bitcoin #CryptoNewss
So, several major figures in the world of technology and cryptocurrencies have started sounding the alarm again: what if a quantum computer can hack Bitcoin? Like, it's really possible to open wallets, change transactions, and generally undermine everything that the blockchain stands for.
Here are the opinions I've gathered:
IBM and 2029
IBM plans to release a new generation quantum computer, Quantum Starling, by 2029. It will be a fault-tolerant (that is, stable, non-malfunctioning) quantum computer, which has not been done before. It is believed that such machines will be able to cope with tasks like breaking cryptography.
Google: Is the threat closer than it seems?
In May 2025, Google researcher Craig Gidney rolled out calculations according to which 20 times fewer quantum resources are needed to crack RSA encryption than previously thought. Yes, Bitcoin uses elliptic curves (ECC) instead of RSA, but they are also vulnerable to the Shore algorithm ā and Gidney confirmed this.
He estimated that with less than a million qubits, powerful encryption could be cracked in just a week. It doesn't sound like 2100 science fiction anymore.
Who says "not so scary"?
Adam Back, one of the veterans of the bitcoin scene and the head of Blockstream, says: don't panic. He believes that there will be no truly dangerous quantum systems for another 20 years, but he still advises transferring coins to quantum-stable addresses in advance, especially if these are the same ancient coins, such as from Satoshi's cache.
The most disturbing voice
David Carvalho of Naoris Protocol does not stand on ceremony: in his opinion, hacking can happen within 5 years if Bitcoin does not urgently switch to new cryptographic standards. He even refers to a report by BlackRock ā yes, the very investment giant - which explicitly states that the quantum threat is taken into account when applying for an ETF.
He also mentions that up to 30% of all bitcoins are stored at vulnerable addresses, and one successful breach can lead to a loss of trust in the entire network.
And what now?
Well, the cherry on the cake is investor Chamat Palihapitiya. At the end of 2024, he suggested that SHA-256ā the Bitcoin hashing algorithm, could be broken in 2-5 years. According to him, 8000 quantum chips like those that Google has already made are enough, and that's it. Although for now, scaling such a thing is a separate pain.
So, on the one hand, supercomputers are still not ready, but on the other, everything is moving much faster than expected, and the big players understand this.
Do you think Bitcoin should switch to a new cryptography right now ā or are these threats still from the category of "just in case"?
#BTC $BTC #bitcoin #CryptoNewss
ā ļø Part 2 of our quantum series is live!
š£ Discover why quantum computing poses a serious threat to your crypto assets.
š From private key cracking and mining domination to smart contract breaches and trust erosion ā we break down the four key risks that quantum computers bring to the blockchain.
š¢ Find out exactly how many qubits it takes to compromise today's cryptography and the status of IBM Condor and Google's latest quantum advances.
š Read the second article here: Pt.2: The Quantum Threat to Crypto Assets
Don't miss the next installment on how to protect yourself!
#CryptoSecurity #quantumcomputing #BlockchainSecurity #QuantumThreat
$BTC
š£ Discover why quantum computing poses a serious threat to your crypto assets.
š From private key cracking and mining domination to smart contract breaches and trust erosion ā we break down the four key risks that quantum computers bring to the blockchain.
š¢ Find out exactly how many qubits it takes to compromise today's cryptography and the status of IBM Condor and Google's latest quantum advances.
š Read the second article here: Pt.2: The Quantum Threat to Crypto Assets
Don't miss the next installment on how to protect yourself!
#CryptoSecurity #quantumcomputing #BlockchainSecurity #QuantumThreat
$BTC
ŠŠ°Š¹ŠŗŃŠ¾ŃŠ¾ŃŃ ŃŃŠŗŠ¾ŃŃŠµŃ ŃŠ³ŃŠ¾Š·Ń ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŃ
Š°ŃŠ°Šŗ Š“Š»Ń ŠŠøŃŠŗŠ¾ŠøŠ½Š°?
19 ŃŠµŠ²ŃŠ°Š»Ń Microsoft ŠæŃŠµŠ“ŃŃŠ°Š²ŠøŠ»Š° Š½Š¾Š²ŃŠ¹ ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠ¹ ŃŠøŠæ Majorana 1, ŃŃŠ¾ Š¼Š¾Š¶ŠµŃ ŠæŃŠøŠ±Š»ŠøŠ·ŠøŃŃ Š¼Š¾Š¼ŠµŠ½Ń, ŠŗŠ¾Š³Š“Š° ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠµ ŠŗŠ¾Š¼ŠæŃŃŃŠµŃŃ ŃŠ¼Š¾Š³ŃŃ Š²Š·Š»Š¾Š¼Š°ŃŃ ŠŗŃŠøŠæŃŠ¾Š²Š°Š»ŃŃŃ. ŠŠ¾ Š“Š°Š½Š½ŃŠ¼ River, ŃŠ¶Šµ Šŗ 2027ā2029 Š³Š¾Š“Š°Š¼ ŠŗŠ²Š°Š½ŃŠ¾Š²Š°Ń Š¼Š°ŃŠøŠ½Š° Ń Š¼ŠøŠ»Š»ŠøŠ¾Š½Š¾Š¼ ŠŗŃŠ±ŠøŃŠ¾Š² ŃŠ¼Š¾Š¶ŠµŃ Š°ŃŠ°ŠŗŠ¾Š²Š°ŃŃ ŠŠøŃŠŗŠ¾ŠøŠ½-Š°Š“ŃŠµŃŠ°, ŠµŃŠ»Šø ŃŠ°Š±Š¾ŃŠ°ŃŃ Š² ŃŠµŃŠµŠ½ŠøŠµ Š½ŠµŃŠŗŠ¾Š»ŃŠŗŠøŃ Š“Š½ŠµŠ¹ ŠøŠ»Šø Š½ŠµŠ“ŠµŠ»Ń.
CEO River ŠŠ»ŠµŠŗŃŠ°Š½Š“Ń ŠŠµŠ¹ŃŠ¼Š°Š½ ŠæŃŠµŠ“ŃŠæŃŠµŠ¶Š“Š°ŠµŃ: "ŠŠ°Š¶Šµ ŠµŃŠ»Šø ŃŠ³ŃŠ¾Š·Š° Š² Š±ŃŠ“ŃŃŠµŠ¼, Š³Š¾ŃŠ¾Š²ŠøŃŃŃŃ Š½ŃŠ¶Š½Š¾ ŃŠµŠ¹ŃŠ°Ń." ŠŠ“Š½Š°ŠŗŠ¾ ŠŗŃŠøŃŠøŠŗŠø ŃŃŠøŃŠ°ŃŃ ŃŃŃŠ°Ń Šø ŠæŃŠµŃŠ²ŠµŠ»ŠøŃŠµŠ½Š½ŃŠ¼Šø. ŠŠ¾-ŠæŠµŃŠ²ŃŃ , ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠµ ŃŠµŃ Š½Š¾Š»Š¾Š³ŠøŠø Š¼Š¾Š³ŃŃ ŃŃŠøŠ»ŠøŃŃ ŃŠ°Š¼ ŠŠøŃŠŗŠ¾ŠøŠ½, Š° Š²Š¾-Š²ŃŠ¾ŃŃŃ , Š±Š°Š½ŠŗŠø Ń $188 ŃŃŠ»Š½ Š°ŠŗŃŠøŠ²Š¾Š² ŃŃŠ°Š½ŃŃ ŠæŠµŃŠ²ŃŠ¼Šø ŃŠµŠ»ŃŠ¼Šø Ń Š°ŠŗŠµŃŠ¾Š², Š° Š½Šµ ŠŗŃŠøŠæŃŠ¾ŃŃŠ½Š¾Šŗ Ń $3,2 ŃŃŠ»Š½.
ŠŃŠøŠæŃŠ¾Š³ŃŠ°Ń ŠŠ“Š°Š¼ ŠŃŠŗ ŃŠ²ŠµŃŠµŠ½: Š“Š¾ ŃŠµŠ°Š»ŃŠ½Š¾Š¹ ŃŠ³ŃŠ¾Š·Ń Š“ŠµŃŃŃŠŗŠø Š»ŠµŃ, Š° ŃŠ¶Šµ ŃŠ°Š·ŃŠ°Š±Š°ŃŃŠ²Š°ŠµŠ¼ŃŠµ ŃŠµŃŠµŠ½ŠøŃ Š²ŃŠ¾Š“Šµ BIP-360 Š¼Š¾Š³ŃŃ ŃŠ“ŠµŠ»Š°ŃŃ ŠŠøŃŠŗŠ¾ŠøŠ½ ŠŗŠ²Š°Š½ŃŠ¾ŃŃŃŠ¾Š¹ŃŠøŠ²ŃŠ¼ ŃŠµŃŠµŠ· ŃŠ¾ŃŃ-ŃŠ¾ŃŠŗ.
ŠŃŠ²Š¾Š“? ŠŃŠµŠ¼Ń ŠæŠ¾ŠŗŠ°Š¶ŠµŃ. ŠŠ¾ ŠµŃŠ»Šø ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠ¹ Š°ŠæŠ¾ŠŗŠ°Š»ŠøŠæŃŠøŃ Š½Š°ŃŃŃŠæŠøŃ, Š³Š¾ŃŠ¾Š²Ń Š»Šø ŃŠ²Š¾Šø Š°ŠŗŃŠøŠ²Ń? Š£Š·Š½Š°Š¹, ŠŗŠ°Šŗ Š·Š°ŃŠøŃŠøŃŃ ŃŠ²Š¾Š¹ ŠŠøŃŠŗŠ¾ŠøŠ½ ŃŠ¶Šµ ŃŠµŠ³Š¾Š“Š½Ń! šš„ #CryptoFuture #Bitcoinā #quantumcomputing
#QuantumThreat š§ ā” #CryptoSecurity šš
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19 ŃŠµŠ²ŃŠ°Š»Ń Microsoft ŠæŃŠµŠ“ŃŃŠ°Š²ŠøŠ»Š° Š½Š¾Š²ŃŠ¹ ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠ¹ ŃŠøŠæ Majorana 1, ŃŃŠ¾ Š¼Š¾Š¶ŠµŃ ŠæŃŠøŠ±Š»ŠøŠ·ŠøŃŃ Š¼Š¾Š¼ŠµŠ½Ń, ŠŗŠ¾Š³Š“Š° ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠµ ŠŗŠ¾Š¼ŠæŃŃŃŠµŃŃ ŃŠ¼Š¾Š³ŃŃ Š²Š·Š»Š¾Š¼Š°ŃŃ ŠŗŃŠøŠæŃŠ¾Š²Š°Š»ŃŃŃ. ŠŠ¾ Š“Š°Š½Š½ŃŠ¼ River, ŃŠ¶Šµ Šŗ 2027ā2029 Š³Š¾Š“Š°Š¼ ŠŗŠ²Š°Š½ŃŠ¾Š²Š°Ń Š¼Š°ŃŠøŠ½Š° Ń Š¼ŠøŠ»Š»ŠøŠ¾Š½Š¾Š¼ ŠŗŃŠ±ŠøŃŠ¾Š² ŃŠ¼Š¾Š¶ŠµŃ Š°ŃŠ°ŠŗŠ¾Š²Š°ŃŃ ŠŠøŃŠŗŠ¾ŠøŠ½-Š°Š“ŃŠµŃŠ°, ŠµŃŠ»Šø ŃŠ°Š±Š¾ŃŠ°ŃŃ Š² ŃŠµŃŠµŠ½ŠøŠµ Š½ŠµŃŠŗŠ¾Š»ŃŠŗŠøŃ Š“Š½ŠµŠ¹ ŠøŠ»Šø Š½ŠµŠ“ŠµŠ»Ń.
CEO River ŠŠ»ŠµŠŗŃŠ°Š½Š“Ń ŠŠµŠ¹ŃŠ¼Š°Š½ ŠæŃŠµŠ“ŃŠæŃŠµŠ¶Š“Š°ŠµŃ: "ŠŠ°Š¶Šµ ŠµŃŠ»Šø ŃŠ³ŃŠ¾Š·Š° Š² Š±ŃŠ“ŃŃŠµŠ¼, Š³Š¾ŃŠ¾Š²ŠøŃŃŃŃ Š½ŃŠ¶Š½Š¾ ŃŠµŠ¹ŃŠ°Ń." ŠŠ“Š½Š°ŠŗŠ¾ ŠŗŃŠøŃŠøŠŗŠø ŃŃŠøŃŠ°ŃŃ ŃŃŃŠ°Ń Šø ŠæŃŠµŃŠ²ŠµŠ»ŠøŃŠµŠ½Š½ŃŠ¼Šø. ŠŠ¾-ŠæŠµŃŠ²ŃŃ , ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠµ ŃŠµŃ Š½Š¾Š»Š¾Š³ŠøŠø Š¼Š¾Š³ŃŃ ŃŃŠøŠ»ŠøŃŃ ŃŠ°Š¼ ŠŠøŃŠŗŠ¾ŠøŠ½, Š° Š²Š¾-Š²ŃŠ¾ŃŃŃ , Š±Š°Š½ŠŗŠø Ń $188 ŃŃŠ»Š½ Š°ŠŗŃŠøŠ²Š¾Š² ŃŃŠ°Š½ŃŃ ŠæŠµŃŠ²ŃŠ¼Šø ŃŠµŠ»ŃŠ¼Šø Ń Š°ŠŗŠµŃŠ¾Š², Š° Š½Šµ ŠŗŃŠøŠæŃŠ¾ŃŃŠ½Š¾Šŗ Ń $3,2 ŃŃŠ»Š½.
ŠŃŠøŠæŃŠ¾Š³ŃŠ°Ń ŠŠ“Š°Š¼ ŠŃŠŗ ŃŠ²ŠµŃŠµŠ½: Š“Š¾ ŃŠµŠ°Š»ŃŠ½Š¾Š¹ ŃŠ³ŃŠ¾Š·Ń Š“ŠµŃŃŃŠŗŠø Š»ŠµŃ, Š° ŃŠ¶Šµ ŃŠ°Š·ŃŠ°Š±Š°ŃŃŠ²Š°ŠµŠ¼ŃŠµ ŃŠµŃŠµŠ½ŠøŃ Š²ŃŠ¾Š“Šµ BIP-360 Š¼Š¾Š³ŃŃ ŃŠ“ŠµŠ»Š°ŃŃ ŠŠøŃŠŗŠ¾ŠøŠ½ ŠŗŠ²Š°Š½ŃŠ¾ŃŃŃŠ¾Š¹ŃŠøŠ²ŃŠ¼ ŃŠµŃŠµŠ· ŃŠ¾ŃŃ-ŃŠ¾ŃŠŗ.
ŠŃŠ²Š¾Š“? ŠŃŠµŠ¼Ń ŠæŠ¾ŠŗŠ°Š¶ŠµŃ. ŠŠ¾ ŠµŃŠ»Šø ŠŗŠ²Š°Š½ŃŠ¾Š²ŃŠ¹ Š°ŠæŠ¾ŠŗŠ°Š»ŠøŠæŃŠøŃ Š½Š°ŃŃŃŠæŠøŃ, Š³Š¾ŃŠ¾Š²Ń Š»Šø ŃŠ²Š¾Šø Š°ŠŗŃŠøŠ²Ń? Š£Š·Š½Š°Š¹, ŠŗŠ°Šŗ Š·Š°ŃŠøŃŠøŃŃ ŃŠ²Š¾Š¹ ŠŠøŃŠŗŠ¾ŠøŠ½ ŃŠ¶Šµ ŃŠµŠ³Š¾Š“Š½Ń! šš„ #CryptoFuture #Bitcoinā #quantumcomputing
#QuantumThreat š§ ā” #CryptoSecurity šš
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Pt.2: The Quantum Threat to Crypto Assets
Quantum computers pose a significant challenge to the security of cryptocurrencies and blockchain-based assets. Current cryptographic systems rely on mathematical problems that are extremely hard for classical computers to solve, like factoring large prime numbers. However, quantum algorithms such as Shorās algorithm can solve these problems exponentially faster.
Here are the four main risks posed by quantum computing to crypto assets:
Breaking Private Keys
Quantum computers can break the cryptographic schemes protecting private keys, making it possible to steal funds from wallets. Itās estimated that around 4,000 logical qubits would be needed to break widely used public-key cryptography, such as RSA and ECC (Elliptic Curve Cryptography).
Dominating Mining
Quantum computers could outperform classical miners, monopolizing block creation and disrupting the networkās fair distribution of rewards.Smart Contract Vulnerabilities
Quantum attacks can target smart contracts and decentralized applications, potentially changing their behavior or bypassing security measures.
Loss of Trust
If quantum attacks become feasible, trust in blockchain networks could erode, leading to a collapse in confidence and the value of digital assets.
Currently, the IBM Condor chip ā with 1,121 qubits ā represents a major milestone. Googleās research suggests that millions of physical qubits would be needed for large-scale quantum error correction, so weāre not yet at the point of quantum supremacy in breaking crypto, but progress is accelerating.
Stay tuned ā more insights coming in the next parts!
If you missed the previous part, you can find it here.
#CryptoSecurity #quantumcomputing #BlockchainSecurity #QuantumThreat
$BTC
Here are the four main risks posed by quantum computing to crypto assets:
Breaking Private Keys
Quantum computers can break the cryptographic schemes protecting private keys, making it possible to steal funds from wallets. Itās estimated that around 4,000 logical qubits would be needed to break widely used public-key cryptography, such as RSA and ECC (Elliptic Curve Cryptography).
Dominating Mining
Quantum computers could outperform classical miners, monopolizing block creation and disrupting the networkās fair distribution of rewards.Smart Contract Vulnerabilities
Quantum attacks can target smart contracts and decentralized applications, potentially changing their behavior or bypassing security measures.
Loss of Trust
If quantum attacks become feasible, trust in blockchain networks could erode, leading to a collapse in confidence and the value of digital assets.
Currently, the IBM Condor chip ā with 1,121 qubits ā represents a major milestone. Googleās research suggests that millions of physical qubits would be needed for large-scale quantum error correction, so weāre not yet at the point of quantum supremacy in breaking crypto, but progress is accelerating.
Stay tuned ā more insights coming in the next parts!
If you missed the previous part, you can find it here.
#CryptoSecurity #quantumcomputing #BlockchainSecurity #QuantumThreat
$BTC
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