quantumcomputers

The topic of quantum computing, the implications it has or could have on the value of Bitcoins, or the relevance of the question itself is again in the news. While the overwhelming number of those familiar with the best means of constructing the protocols of Bitcoins believe that the quantum computer will be at least several years away, this topic is no longer for academics.

According to top cryptodevelopers, quantum threat is not an urgent concern. There do not exist powerful computing systems that could take advantage of the form of elliptic curves used in Bitcoin cryptography. In any case, even in extreme scenarios, quantum computer attacks will not become inaccessible in one night. This is exactly why this is a theoretical threat.

But the critics have a different view regarding the challenge. They are not concerned about the timing of the challenge but are actually preparing for the challenge. The government, along with the tech companies, has already begun the process that leads to the use of quantum-resistant technology. The truth is that the future change in cryptographic technology is seriously considered in another place. BTC, however, has not agreed on the process.

This led to a gap which triggered interest in other ideas like Bitcoin Improvement Proposal 360. The specific idea is to make it possible to use quantum-resistant address types. The agenda will make it possible to switch to new cryptography while not requiring an abrupt change to take place in this network. This is done to prevent making hasty decisions.

Presently, however, the threat from quantum computing is not a threat of existence for Bitcoin. However, given the emerging patterns of ownership among institutional and longer-term buyers, even distant threats require a clearer definition. As long as the minds behind the technology and the sources of the funding do not share a common understanding on the ways of mitigating these risks, the current quantum threat will be lurking in the background but still in mind.

#quantumcomputers

According to Odaily, Michael Saylor recently shared his views on the X platform regarding the implications of quantum computing for Bitcoin. He stated that quantum computing will not undermine Bitcoin; instead, it will enhance its security. Saylor highlighted that network upgrades and active Bitcoin migration contribute to this increased security, while lost Bitcoins remain frozen. As a result, Bitcoin's security is strengthened, and its supply is reduced, making it more robust.
#BTC #bitcoin #CryptoRally #quantumcomputers #BinanceAlphaAlert

💥Michael Saylor's Stance

Michael Saylor, the billionaire and Bitcoin advocate, has downplayed concerns about quantum computing threatening Bitcoin's security. He argues that Bitcoin's cryptography is extremely strong and that quantum computers are still experimental, with significant advancements decades away.

💥Why Bitcoin ($BTC ) is Safe❓️
🔹️Strong Cryptography
Bitcoin's cryptography is extremely strong and resistant to quantum attacks.
🔹️Experimental Quantum Computers
Quantum computers are still in the experimental phase and not yet capable of breaking Bitcoin's encryption.
🔹️Adaptable Security
Bitcoin's security can be upgraded if needed to counter quantum threats.

💥Potential Risks and Misconceptions

🔸️Marketing Tactics
The quantum threat narrative is often used as a marketing tactic by promoters of quantum concept tokens.
🔸️Greater Threats
Banks and the internet would be more vulnerable to quantum attacks than Bitcoin.
🔸️Phishing Attacks
Phishing attacks are a greater threat to Bitcoin ($BTC ) holders than quantum computing.

💥Bitcoin's Future-Proof Design

🔹️Upgradable Security
Bitcoin's security can be upgraded to counter emerging threats.
🔹️Decentralized Network
Bitcoin's decentralized network makes it more resilient to attacks.
🔹️Ongoing Development
Bitcoin's development community is actively working on improving its security and resistance to potential threats.

💥Conclusion

Bitcoin's strong cryptography, adaptable security, and decentralized network make it a robust and secure system. While quantum computing poses a potential threat, it is not a significant concern in the near future. As Michael Saylor says, "Don't fall for fear tactics. Bitcoin ($BTC ) is built to adapt."
#btc #quantumcomputers #BTC走势分析 #WriteToEarnUpgrade

As quantum computing advances, the security of traditional cryptographic systems faces a major threat. Quantum computers, with their immense processing power, could break widely used encryption methods like RSA and ECC, making current blockchain networks vulnerable. In response, the crypto industry is exploring post-quantum cryptography (PQC) to ensure security in a quantum-powered future.

Why Quantum Computing Threatens Crypto

Most blockchain networks rely on public-key cryptography to secure transactions and wallets. Shor’s algorithm, a quantum computing algorithm, can efficiently solve the complex mathematical problems that underpin these encryption methods. If large-scale quantum computers emerge, they could potentially crack private keys, leading to security breaches across blockchain networks.

Post-Quantum Cryptography: The Next Step

Post-quantum cryptography refers to cryptographic systems designed to withstand quantum attacks. Researchers and blockchain developers are actively exploring quantum-resistant cryptographic algorithms, many of which have been evaluated by the National Institute of Standards and Technology (NIST). Some promising techniques include:

Lattice-based cryptography – Uses complex mathematical structures that are resistant to quantum decryption.

Hash-based cryptography – Secure digital signatures that remain safe from quantum attacks.

Multivariate polynomial cryptography – Encryption based on solving polynomial equations, considered quantum-resistant.

Top Crypto Projects Focused on Quantum Resistance

Several blockchain projects are proactively integrating post-quantum security measures to future-proof their networks. Here are some key players:

1. QANplatform (QANX)

QANplatform is a quantum-resistant Layer-1 blockchain that uses lattice-based cryptography to secure smart contracts and transactions. It aims to provide a quantum-proof foundation for developers and enterprises.

2. Algorand (ALGO)

Algorand is actively researching post-quantum security solutions. While not yet fully quantum-resistant, its team is exploring future upgrades to protect against quantum threats.

3. Quantum Resistant Ledger (QRL)

QRL is one of the first blockchain networks designed explicitly to resist quantum attacks. It employs XMSS (Extended Merkle Signature Scheme), a hash-based signature method deemed secure against quantum decryption.

4. IOTA (MIOTA)

IOTA, known for its Tangle technology, is developing quantum-resistant signatures to secure transactions, making it a strong contender for post-quantum security.

5. HyperCash (HC)

HyperCash is another blockchain network focusing on quantum-resistant cryptographic techniques to ensure long-term security.

The Road Ahead

While quantum computing is still in its early stages, preparing for its potential impact is crucial. Blockchain networks must adopt quantum-resistant cryptography to remain secure in the next era of computing. Investors and developers should watch for projects implementing post-quantum solutions, as they will likely play a vital role in the future of decentralized technology.

Final Thoughts

The post-quantum crypto landscape is still evolving, but proactive projects are paving the way for a secure blockchain future. As quantum computing advances, staying informed and investing in quantum-resistant blockchain projects could be a strategic move for long-term security and growth.
#PostQuantum #quantumcomputers
$ALGO $IOTA

🔐 The future of Bitcoin and digital security might be under threat much earlier than many anticipated. Google has revealed that recent breakthroughs in quantum computing could significantly reduce the resources required to crack the encryption protecting crypto wallets and sensitive data.

⚠️ Quantum Leap: From 20 Million Qubits to Under One Million
Craig Gidney, a quantum researcher at Google, stated that factoring a 2048-bit RSA key — one of the core cryptographic standards — may no longer require 20 million qubits, as he estimated in 2019. Instead, it could now be achieved with fewer than one million qubits in under a week.
This leap is possible thanks to:

🔹 advanced quantum algorithms,

🔹 improved error correction techniques,

🔹 and denser qubit encoding that allows for more efficient operations.

⚡ Willow Chip Solves "10 Septillion-Year" Problem in 5 Minutes
In December 2024, Google unveiled its new quantum chip Willow, capable of solving a problem in five minutes that would take traditional supercomputers 10 septillion years. Critics quickly raised alarms, suggesting that such power could potentially rewrite the Bitcoin blockchain or even access dormant wallets, including those possibly linked to Satoshi Nakamoto.

🧠 What This Means for Crypto Security
Bitcoin uses elliptic curve cryptography, which is mathematically similar to RSA. If quantum computers can crack RSA faster than expected, Bitcoin's security timeline might have just shortened significantly.
Google warned that some state actors or tech rivals might already be collecting encrypted data now to decrypt later when quantum machines become viable.

🧪 Magical States and Quantum Efficiency
Google researchers also employed so-called T-states (magical quantum states) to boost computing power without increasing system load. This technique allows for more efficient operations, saving time and physical space.

🔎 Project 11: Quantum Bounty on Bitcoin Security
Meanwhile, Project 11, a quantum research group, has offered a $85,000 bounty to anyone who can break a simplified version of Bitcoin's encryption using a quantum computer. While the test targets short key lengths (1 to 25 bits), far below Bitcoin’s 256-bit standard, it helps assess how urgent the quantum threat really is.
The group argues that Shor’s algorithm, a key quantum technique, could eventually break Bitcoin’s elliptic curve encryption altogether.

📅 Timeline: Is 2030 Too Late?
The U.S. National Institute of Standards and Technology (NIST) recommends phasing out vulnerable systems starting in 2030. But Google’s findings suggest this timeline may be too conservative.
Tech giants are already making moves:

🔹 IBM aims to build a 100,000-qubit quantum computer by 2030

🔹 Quantinuum plans to deliver a quantum-secure system by 2029

🧩 Bottom Line: Bitcoin Is Safe… For Now — But the Clock Is Ticking
Google reassures that user digital assets are currently safe. However, the trajectory of quantum progress is undeniable. The crypto industry must start preparing now if it hopes to remain secure in the quantum age.

#quantumcomputers , #BitcoinSecurity , #crypto , #BTC , #DigitalAssets

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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