Key Takeaways
Charles Hoskinson, founder of Cardano, claims Bitcoin’s BIP-361 quantum protection measure is misleadingly classified as a soft fork when it actually demands a hard fork.
The BIP-361 framework suggests locking quantum-susceptible Bitcoin wallets and mandating users transition to quantum-resistant addresses.
BIP-361’s zero-knowledge proof recovery mechanism fails to assist holders of approximately 1.7 million Bitcoin generated before 2013 seed phrase protocols were standardized.
Roughly 1.1 million of these coins are attributed to Bitcoin creator Satoshi Nakamoto and would face permanent lockdown if the measure is implemented.
Data reveals that by March 1, 2026, over 34% of circulating Bitcoin features exposed public keys susceptible to quantum computing threats.
Cardano’s creator Charles Hoskinson has openly challenged Bitcoin’s planned quantum computing countermeasure, claiming it carries a misleading technical classification and offers no safeguard for the network’s earliest holdings.
The measure under scrutiny is BIP-361, jointly developed by Bitcoin core developer Jameson Lopp alongside other contributors. The proposal seeks to eliminate Bitcoin addresses exposed to quantum computer vulnerabilities by locking those holdings and requiring users to transfer to more secure addresses.
During a livestream broadcast this week, Hoskinson referenced statistics indicating that by March 1, 2026, more than 34% of circulating Bitcoin will have public keys exposed on the blockchain. This represents approximately 8 million Bitcoin vulnerable to attack from advanced quantum computing systems.
BIP-361 incorporates a zero-knowledge proof recovery framework designed to enable holders with standard wallet seed phrases to verify ownership and retrieve frozen assets following migration.
However, Hoskinson contends this recovery mechanism fails for roughly 1.7 million Bitcoin stored in wallets created before the BIP-39 seed phrase protocol gained widespread adoption around 2013.
These legacy wallets utilized an alternative key generation approach from Bitcoin’s original client software. They depended on local key pools instead of recoverable seed phrases. Without seed phrase access, constructing the zero-knowledge proof necessary for coin retrieval becomes impossible.
“1.7 million coins can’t do that. It’s not possible. 1.1 million of which belong to Satoshi,” Hoskinson stated.
The Hard Fork Controversy
Beyond recovery limitations, Hoskinson contested BIP-361’s classification. He argued the proposal presents itself as a soft fork while functionally demanding a hard fork due to its invalidation of existing signature schemes that remain actively deployed.
“To actually do this, you need a hard fork,” Hoskinson explained. Bitcoin has never implemented a hard fork, and its development community has traditionally resisted such changes.
Lopp, one of the proposal’s co-authors, admitted on X this week that he personally dislikes the plan and characterized it as “a rough idea for a contingency plan” instead of a finalized specification.
Lopp has maintained that freezing inactive coins—which he calculates at 5.6 million Bitcoin—would be more favorable than allowing future quantum attackers to recover and liquidate them in markets.
Governance Structure and Institutional Influence
Hoskinson additionally contended that Bitcoin’s absence of formal on-chain governance infrastructure leaves it without clear procedures for resolving such critical decisions. He cited Cardano, Polkadot, and Tezos as blockchain networks equipped with structured governance frameworks capable of addressing similar matters through community-driven voting mechanisms.
He predicted that major institutional stakeholders, including asset management firms that have accumulated substantial Bitcoin positions in recent years, will ultimately force Bitcoin developers to implement changes despite potential community opposition.
Should BIP-361 be adopted in its present formulation, the approximately 1.7 million pre-2013 coins would become irreversibly frozen without any recovery mechanism available.
