Google Cuts Quantum Cracking Timeline 20x, Renewing Bitcoin and Crypto Security Debate
Security
A new paper from Google Quantum AI has compressed the estimated hardware requirements for breaking elliptic-curve cryptography – the signature scheme underpinning Bitcoin and crypto transactions – by roughly 20-fold, moving a long-running theoretical threat measurably closer to an engineering problem. The research, co-authored by Google researchers, Ethereum Foundation researcher Justin Drake, and Stanford cryptographer Dan Boneh, revises the physical qubit threshold downward from prior estimates exceeding 10 million to fewer than 500,000, a compression that forces institutional risk models to treat Q-Day as a medium-term rather than generational concern. At current market prices, the assets directly exposed to the cryptographic assumption at issue exceed $600 billion across Bitcoin, Ethereum, and stablecoins. EXPLORE: Google Warns of Coruna iPhone Exploit Targeting Crypto Shor’s Algorithm Efficiency: What the 20x Qubit Compression Actually Represents The operative mechanism here is Shor’s algorithm applied to the 256-bit elliptic curve discrete logarithm problem – the mathematical foundation of ECDSA (Elliptic Curve Digital Signature Algorithm), which Bitcoin and Ethereum use to authorize transactions by proving private key ownership without revealing the key itself
BTC
ETH
Disclaimer: This content is provided via CryptoPanic and third-party sources. Tothemoon does not create, verify, or endorse this content and makes no guarantees as to its accuracy. The content of this article solely reflects the author's opinion and does not represent the platform in any capacity. It is provided for informational purposes only and is not investment advice.