According to the Quantum Doomsday Clock, which is as reliable as a weathervane in a hurricane, quantum computers could potentially break Bitcoin’s (BTC) encryption by March 8, 2028. 🧠💥
The quantum threat is more than a technical hurdle. It has a profound impact on digital assets and threatens the privacy of individuals relying on Bitcoin for financial freedom. A profound impact, indeed! It’s not just a technical hurdle-it’s a full-blown circus act, complete with a ringmaster named Quantum and a troupe of qubits. 🎪
BTC Encryption Faces Deadline: Quantum Computers Near Breaking Point
The Quantum Doomsday Clock project has proposed a deadline for when quantum computers may gain the power to break modern encryption. According to the project, quantum machines need just 2 years, 4 months, and 2 days to reach the number of logical qubits needed to compromise Bitcoin and other cryptocurrency security. A deadline so close, you could almost taste it-like a sour apple pie in a quantum oven. 🍎
Bitcoin may have just 2 years 4 months and 2 days.
– Charles Edwards (@caprioleio) November 5, 2025
The research also highlights exact qubit requirements: breaking RSA-2048 requires 2,314 logical qubits, RSA-4096 needs 3,971, and ECC-256 demands just 1,673 qubits. These calculations rely on surface code error correction, with estimated error rates ranging from 10^-3 to 10^-5. It’s like trying to count the grains of sand on a beach with a magnifying glass. 🧮
They also consider the relationship between physical and logical qubits. Improvements in quantum error correction could further accelerate the timeline. A dance of numbers so intricate, it would make a mathematician weep. 🤯
“Most recent work has been about controlling and reducing error rate, not qubit growth. If recent results are indicative, and focus shifts to qubit growth, then quantum supremacy could come sooner than anticipated,” the research reads.
The project cites foundational research by Gidney & Ekarå (2021), Chevignard et al. (2024), and Hyeonhak & Hong (2023). A list of names so long, it’s like a grocery list for a quantum apocalypse. 📚
Once enough qubits are achieved, cryptographic attacks could run in hours or days. A timeline so tight, it’s like trying to catch a greased pig in a hurricane. 🐖
The analysis also notes that pay-to-public-key-hash (P2PKH) Bitcoin wallets, which use unused public keys for each transaction, may enjoy a brief additional safety window. A brief reprieve, like a temporary truce in a war of wits. 🛡️
“While I don’t necessarily agree with how this is calculated. I think a target is good as it gives a visual we must work towards. If we haven’t solved quantum by this point for Bitcoin… we’re going down that creek without a paddle,” analyst Charles Edwards noted.
Experts Warn of Rising Quantum Threat to Bitcoin
Meanwhile, this is not the first time experts have raised alarms over the growing risks of quantum computing for Bitcoin. In October, IBM CTO Michael Osborne told BeInCrypto that quantum risks to Bitcoin’s cryptography are growing faster than expected. A man with a crystal ball, or at least a very expensive calculator. 🔮
IBM’s Starling project aims to build a fault-tolerant quantum computer by 2029, which could threaten Bitcoin’s cryptography. A project so ambitious, it’s like trying to build a bridge to the moon with a toothpick. 🌕
David Carvalho, CEO of Naoris Protocol, warned that rapid progress in quantum computing could break Bitcoin’s security within 2-3 years. A warning so dire, it’s like a storm cloud with a side of doom. 🌩️
Similarly, Solana co-founder Anatoly Yakovenko has cautioned that the network must migrate to quantum-resistant cryptography within five years to avoid potentially severe breaches. A caution so urgent, it’s like a fire alarm in a library. 🔥
As the quantum threat intensifies, tech firms are working diligently to develop quantum-resistant infrastructure. Last month, BTQ Technologies announced the first successful demonstration of a quantum-safe Bitcoin implementation using NIST-standardized post-quantum cryptography. A beacon of hope in a sea of qubits. 🌊
The project, called Bitcoin Quantum Core 0.2, replaces Bitcoin’s current ECDSA signatures-which are vulnerable to quantum attacks-with ML-DSA, a NIST-approved digital signature algorithm. This aims to protect the $2 trillion Bitcoin market from quantum attacks. A digital fortress, or so they say. 🏰
Thus, it’s clear that a quantum-enabled future is imminent, not theoretical. Blockchain projects, tokenization platforms, and decentralized finance ecosystems must move quickly to secure cryptography or risk obsolescence. The challenge is clear: the Bitcoin community must coordinate its migration to quantum-safe technology before it is too late. A race against time, or rather, a race against qubits. ⏱️
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2025-11-06 12:13