A quantum‑computing collective often called Venture Eleven has thrown down a public gauntlet to the worldwide cryptography group, providing a reward of 1 Bitcoin to the primary staff that may break a intentionally down‑scaled model of Bitcoin’s elliptic‑curve cryptography utilizing a real quantum laptop earlier than 5 April 2026.
Saying what it calls the “Q‑Day Prize” on X, the group wrote: “We simply launched the Q‑Day Prize. 1 BTC to the primary staff to interrupt a toy model of Bitcoin’s cryptography utilizing a quantum laptop. Deadline: April 5, 2026. Mission: Shield 6 M BTC (over $500 B).” The submit crystallises a priority that has hovered over the Bitcoin ecosystem for greater than a decade: the eventual arrival of huge‑scale, error‑corrected quantum {hardware} able to operating Shor’s algorithm towards actual‑world keys.
Venture Eleven just isn’t asking contestants to shatter Bitcoin’s 256‑bit curve instantly. As a substitute, groups should reveal Shor’s algorithm towards elliptic‑curve keys starting from one to twenty‑5 bits—sizes derisively referred to as “toy” by skilled cryptographers however nonetheless orders of magnitude past what has been publicly achieved on bodily quantum processors. The organisers argue that even a 3‑bit break could be “large information,” as a result of it might present the primary quantitatively verifiable benchmark of quantum progress on the elliptic‑curve discrete‑log downside (ECDLP). Of their phrases, “No one has rigorously benchmarked this menace but.”
To qualify, a submission should embrace gate‑degree code or specific directions runnable on precise quantum {hardware}, together with a story of strategies employed, error‑charges managed and the classical submit‑processing required. Hybrid assaults that lean on classical shortcuts are disallowed. All entries can be printed, a choice the group frames as an train in radical transparency: “As a substitute of ready for breakthroughs to occur behind closed doorways, we consider in going through this problem head‑on, in a clear and rigorous method.”
Why 1 Bitcoin—And Why Now?
Bitcoin’s safety in the end rests on the hardness of the discrete‑logarithm downside over the secp256k1 curve. Whereas classical assaults scale exponentially, Peter Shor’s 1994 quantum algorithm might in precept remedy the issue in polynomial time, collapsing the fee from cosmic to merely gargantuan. Present analysis estimates that on the order of two thousand totally error‑corrected logical qubits—maybe backed by thousands and thousands of bodily qubits—could be ample to threaten a 256‑bit key. Corporations equivalent to Google, IBM, IonQ and newcomer QuEra are racing to cross the 4‑digit logical‑qubit threshold, although none has publicly demonstrated something near that functionality at the moment.
Venture Eleven says its prize is meant much less as a bounty and extra as a diagnostic. Greater than ten million Bitcoin addresses, holding over six million cash, have already uncovered their public keys via prior spending exercise. If quantum know-how crosses the vital threshold earlier than these cash are migrated to submit‑quantum addresses, the funds could be susceptible to fast theft. “Quantum computing is steadily progressing,” the group warns. “When that occurs, we have to know.”
The initiative lands amid a flurry of quantum‑resilience proposals throughout the wider Bitcoin ecosystem. Earlier this month, a bunch of builders submitted the Quantum‑Resistant Tackle Migration Protocol (QRAMP), a Bitcoin Enchancment Proposal that may orchestrate a community‑broad transfer to submit‑quantum key codecs. As a result of QRAMP would require a consensus‑breaking exhausting fork, its political prospects stay unsure.
Individually, Canadian startup BTQ has pitched an unique proof‑of‑work different referred to as Coarse‑Grained Boson Sampling, which might substitute at the moment’s hash‑based mostly mining puzzles with photonic sampling duties executed on quantum {hardware}. Like QRAMP, BTQ’s idea calls for a tough fork and has but to garner broad help.
From a technical standpoint, operating even a 5‑bit elliptic‑curve model of Shor’s algorithm is brutally unforgiving: qubits with fidelities above 99.9 %, coherent for tons of of microseconds, and orchestrated via deep circuits numbering within the 1000’s of two‑qubit gates could be required. Error‑correction overhead additional compounds the engineering burden, that means that contenders will probably need to make use of small‑code logical qubits and spectacular compilation strategies merely to maintain noise beneath management.
But the prize could show irresistible for college labs and company R&D groups desperate to reveal sensible quantum benefit. Cloud‑accessible gadgets from IBM’s Quantum System Two, Quantinuum’s H‑sequence and OQC’s superconducting platforms already enable restricted, pay‑per‑shot entry to dozens—or in IBM’s case, tons of—of bodily qubits. Whether or not any of these machines can maintain the circuit depth needed stays to be seen.
Both end result provides invaluable information. Within the phrases of Venture Eleven’s launch tweet, the target is stark: “Break the largest ECC key with Shor’s algorithm. The reward: 1 BTC + go down in cryptography historical past.”
At press time, BTC traded at $84,771.

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