Bitcoin News Today: Bitcoin's 24-Word Seed Phrase Resists Quantum Computing Threats

Generated by AI AgentCoin World
Tuesday, Aug 12, 2025 3:57 pm ET1min read
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Aime RobotAime Summary

- Graham Cooke, ex-Google executive, challenges claims that quantum computing can crack Bitcoin's 24-word seed phrase security.

- He calculates brute-forcing a seed phrase would take 10⁴⁰ years, exceeding the universe's age, due to astronomical combination complexity.

- Quantum computing faces technical barriers like qubit instability and energy demands, with projects like Microsoft's Majorana 1 struggling to stabilize qubits.

- Industry experts agree Bitcoin's cryptographic framework remains secure, with post-quantum algorithms not yet necessary for user protection.

Recent concerns over quantum computing’s potential to crack Bitcoin’s cryptographic security have been challenged by Graham Cooke, a former

Google
executive and CEO of Brava Labs. Cooke asserts that Bitcoin’s current cryptographic framework, particularly the 24-word seed phrase, remains secure against quantum threats due to the mathematical infeasibility of brute-force attacks [1].

The seed phrase, used to derive a wallet’s private keys, offers an astronomically high number of possible combinations. According to Cooke, even if every person on Earth operated a billion supercomputers, each capable of testing a billion combinations per second, it would still take over 10⁴⁰ years to crack a single seed phrase — an amount of time far exceeding the age of the universe [2]. This highlights the immense complexity and resilience of Bitcoin’s cryptographic design.

Although major tech firms like

Microsoft
, Google, and
IBM
continue to make strides in
quantum computing
, Cooke underscores that significant technical barriers remain. Qubits, the foundational units of quantum computation, are inherently unstable and prone to decoherence. While innovations such as Microsoft’s Majorana 1 chip aim to stabilize qubits using topological conductors, Cooke compares the challenge to maintaining the shape of a knot in a rubber band — theoretically feasible, but not practically viable for breaking Bitcoin’s encryption [2].

Cooke also points to ongoing projects like Google’s Willow and IBM’s Blue Jay, which reflect the industry’s push toward quantum supremacy. However, he argues that these developments have yet to bridge the technological gap necessary to pose a real threat to Bitcoin’s security [2]. He emphasizes that quantum computing still requires substantial progress in energy efficiency, qubit stability, and algorithmic design before it could conceivably impact cryptographic systems.

Industry perspectives largely align with Cooke’s view, noting that while post-quantum cryptographic algorithms may be necessary in the future, there is currently no imminent risk to

Bitcoin
users. The seed phrase’s mathematical complexity continues to provide a robust defense against all known computing systems [2].

As discussions around quantum threats persist, Cooke’s analysis offers a grounded and mathematically supported reassurance that Bitcoin’s cryptographic integrity remains intact. The debate, for now, remains theoretical rather than a pressing concern for users [1].

Sources:

[1] Google Veteran Says Quantum Computing Can't Crack Bitcoin - BeInCrypto

https://beincrypto.com/google-veteran-says-quantum-computing-cant-crack-bitcoin/

[2] Quantum Computing Surge Rekindles Fears of Bitcoin Hacking - IcoHolder

https://icoholder.com/en/news/quantum-computing-surge-rekindles-fears-of-bitcoin-hacking

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