A March 2026 paper from Google Quantum AI, the Ethereum Foundation, and Stanford demonstrates that Shor’s algorithm for secp256k1 can execute with ≤1,200 logical qubits and ≤90 million Toffoli gates — and on superconducting architectures with 10⁻³ physical error rates, those circuits could run in minutes using fewer than half a million physical qubits.
Where we are: ~1–2 logical qubits (effectively) Where we need to be: ~1,200–2,330 logical qubits. In physical qubits: ~1,500 physical now vs. ~500,000–1,000,000+ physical needed (depending on error rates)
Sounds like a decade to me.
There’s no short-term upside to quantum computing research.
A March 2026 paper from Google Quantum AI, the Ethereum Foundation, and Stanford demonstrates that Shor’s algorithm for secp256k1 can execute with ≤1,200 logical qubits and ≤90 million Toffoli gates — and on superconducting architectures with 10⁻³ physical error rates, those circuits could run in minutes using fewer than half a million physical qubits.
Where we are: ~1–2 logical qubits (effectively) Where we need to be: ~1,200–2,330 logical qubits. In physical qubits: ~1,500 physical now vs. ~500,000–1,000,000+ physical needed (depending on error rates)
Sounds like a decade to me.
There’s no short-term upside to quantum computing research.
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