they are currently down to just a month to crack RSA?
> "In 2019, Craig Gidney at Google Quantum AI co-authored a paper that reduced these requirements from 170 million to 20 million quantum bits, or qubits."
> "And in 2025, Gidney devised a way to slash that number to less than a million qubits. Now, Paul Webster at Iceberg Quantum in Australia and his colleagues have managed to decrease the number even further to about 100,000 qubits"
> "Given this connectivity, the team estimated that for 98,000 superconducting qubits, like those currently made by IBM and Google, it would take about a month of computing time to break a common form of RSA encryption"
> "Accomplishing the same in a day would require 471,000 qubits"
Bender•1h ago
The article sounds like theory to me. Has anyone used a quantum computer to break all the hashes that hashcat [1] can currently attempt to break for real? Has anyone ported hashcat to a quantum computer?
ck2•1h ago
> "In 2019, Craig Gidney at Google Quantum AI co-authored a paper that reduced these requirements from 170 million to 20 million quantum bits, or qubits."
> "And in 2025, Gidney devised a way to slash that number to less than a million qubits. Now, Paul Webster at Iceberg Quantum in Australia and his colleagues have managed to decrease the number even further to about 100,000 qubits"
> "Given this connectivity, the team estimated that for 98,000 superconducting qubits, like those currently made by IBM and Google, it would take about a month of computing time to break a common form of RSA encryption"
> "Accomplishing the same in a day would require 471,000 qubits"