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Quantum Computing's Potential Impact on Bitcoin (BTC) Security

Luisa Crawford   Dec 11, 2024 01:35 2 Min Read


In light of recent advancements in quantum computing, the potential threat to Bitcoin's (BTC) cryptographic security has become a topic of discussion, according to CoinShares. Chinese researchers have reportedly made progress in breaking certain encryption classes, while Google has announced further developments in quantum chip technology.

Understanding Bitcoin's Cryptographic Framework

Bitcoin employs two primary cryptographic tools: cryptographic key pairs and hash functions. Key pairs, consisting of private and public keys, are fundamental for transaction security, whereas hash functions like SHA-256 and RIPEMD-160 are used for various purposes including transaction settlement and address obfuscation.

Potential Quantum Threats to Bitcoin

Quantum computers could potentially undermine Bitcoin's security by exploiting vulnerabilities in the elliptic curve digital signature algorithm (ECDSA) and Schnorr signatures. These cryptographic methods are susceptible to attacks from quantum computers using Shor's algorithm, posing a risk to coins stored in addresses with visible public keys.

Mitigation Strategies for Quantum Threats

Despite these potential risks, experts suggest that mitigating quantum threats to Bitcoin is feasible. One proposed solution involves transitioning to a new address format that utilizes quantum-resistant cryptography. This change could be implemented through a soft fork, minimizing disruption to the network.

Current Limitations of Quantum Computing

Although quantum computers present a theoretical threat, practical exploitation of Bitcoin's vulnerabilities would require significant technological advancements. Current quantum computers lack the qubit capacity necessary to effectively reverse cryptographic functions like SHA-256 within a feasible timeframe.

Future Outlook

While the development of quantum computing continues, the Bitcoin community has ample time to address potential vulnerabilities. The implementation of quantum-secure address formats could safeguard the network against future advancements in quantum technology.

For a detailed exploration of this topic, visit the original article on CoinShares.


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