Is Ethereum Ahead of Bitcoin and Other Networks on Quantum Risk

Ethereum Leadership Flags Quantum Threat in Latest Security Update

The quantum threat to crypto gained fresh attention after new insights from Ethereum’s leadership surfaced in early February 2026. In Episode 60 of “The Crypto Beat podcast”, Thomas Coratger, Ethereum Foundation’s quantum security team lead, explained how the network is actively preparing for the advanced technology threat era with a 2030 target. 

Source: The Block Media 

Along with that, he warned that advances in AI and quantum computing are speeding up both attacks and defenses, while flagging bridges and DeFi oracles as key weak points that could cause wider failures if not secured. 

The discussion closely followed Ethereum’s January 2026 announcement of a dedicated post-quantum security team, marking a decisive shift from research to execution.

What is Ethereum’s Post-Quantum Security Plan

To address the rising advanced computing threat to crypto, the Ethereum Foundation created a dedicated Post-Quantum Security Team led by cryptographic engineer Thomas Coratger. The goal is clear: deploy quantum-resistant consensus mechanisms by 2030 without disrupting the live Ether blockchain.

While multi-client post-quantum devnets are already live, allowing developers to test new quantum-resistant consensus systems, the network has also started biweekly core developer calls focused on post-quantum transactions, wallet upgrades, and account abstraction. 

To speed progress, the foundation has launched $2 million in research prizes, with the long-term goal of deploying quantum-resistant consensus mechanisms by 2030, without downtime or user fund losses.

What is The Quantum Threat to Crypto?

Quantum-threats basically come from the next-generation powerful computing devices that could break the current blockchain security codes. 

Most blockchains today rely on ECDSA cryptography to secure wallets and transactions. A future quantum physics-based computer could calculate the private keys (passwords) of users from the public keys generated through these cryptography methods, as per Shor’s algorithm. 

Ethereum co-founder Vitalik Buterin also warned that there is a 20% chance current cryptography could be broken before 2030, even though the average estimate targets 2040s. 

Is Broader Crypto Space Ready For This

Although these very powerful computers are still not developed, looking at the rapid technological invention it doesn't seem far off. While Ethereum is already working on this, a few others are also working in the same direction: 

• QANplatform (QANX): Lattice-based (Dilithium) quantum-resistant L1 with EVM compatibility and multi-language smart contracts for future-proof dApps.

• Algorand (ALGO): Uses Falcon signatures for state proofs (securing chain history) with full account upgrades planned for 2026.

• Starknet (STRK): Ether L2 using STARK proofs (inherently quantum-resistant) - well-positioned for seamless PQ migrations.

• Nervos Network (CKB): PoW L1 with flexible primitives preparing for quantum resistance in programmability and asset layers.

• Cellframe (CELL): Layer-0 bridging protocol built with post-quantum encryption for cross-chain and decentralized computing.

Still, at a broader level, the crypto market continues to face security risks, with quantum-computing emerging as a long-term concern. Bitcoin, which relies on ECDSA signatures, falls under the same problem, but due to its wide governance and market activity, the protecting upgrade is more challenging.  

For now, by tackling the quantum threat to crypto head-on, Ether positions itself as one of the most future-focused blockchains, prioritizing trust over short-term hype.