The cryptography implications are huge here. If they're realy pushing 1000 wafers a month into production, that timeframe for upgrading to post quantum encryption just colapsed significantly. What worries me most is that most organizations still dont have a transition plan in place. The gap betwen quantum capability and crypto readiness could create massive vulnerabilities.
Wild to see the quantum hardware race move from theory to datacenters this quickly. CHIPX and Turing Quantum are shipping photonic processors that operate natively on Hilbert spacesthinking in probability amplitudes, not just bits. Rose’s Law is getting the last laugh: not only are we beating Moore’s Law, we’re making it look tame. A thousandfold speedup isn’t iteration it’s a new era. The future compiles to quantum wavefunction
The cryptography implications are huge here. If they're realy pushing 1000 wafers a month into production, that timeframe for upgrading to post quantum encryption just colapsed significantly. What worries me most is that most organizations still dont have a transition plan in place. The gap betwen quantum capability and crypto readiness could create massive vulnerabilities.
What are the potential risks for BTC?
None.
Good article
Wild to see the quantum hardware race move from theory to datacenters this quickly. CHIPX and Turing Quantum are shipping photonic processors that operate natively on Hilbert spacesthinking in probability amplitudes, not just bits. Rose’s Law is getting the last laugh: not only are we beating Moore’s Law, we’re making it look tame. A thousandfold speedup isn’t iteration it’s a new era. The future compiles to quantum wavefunction