The research team, led by Wang Chao from Shanghai University, found that D-Wave’s quantum computers can optimize problem-solving in a way that makes it possible to attack encryption methods such as RSA.
Honestly? It really doesn’t matter that much considering the western empire basically owns the root-level chain of trust for nearly the entire internet. This is only for superpower state-level attacks, so why bother building a quantum supercomputers to crack RSA or break D-H, when you already have access to the private keys from nearly all CAs on earth? Not to mention almost no one uses anything resembling a secure OS or web browser, which is the only thing keeping your private keys secure.
Even if you’re shelling into a supersecret chinese personally-compiled openbsd VPS full of classified USDoD leaks, with your own personally managed 4096bit RSA keys with no other chain-of-trust to worry about, kicking down you door is going to be a hell of a lot cheaper and less complicated than building multi-trillion dollar gigantic secret underground quantum computers, that can, at best, break RSA in weeks instead of millennia. If that’s the case, then you better have strong disk encryption and nerves of steel. Ultimately breaking at-rest schemes and aes/(x)fish/serpent ciphers is more important.
If 4096bit RSA is somehow broken in our lifetimes, we can probably replace it with ed25519 or something more complicated and the arms race continues.
A large state breaking RSA is more-or-less a vanity project with regard to the implications.
Honestly? It really doesn’t matter that much considering the western empire basically owns the root-level chain of trust for nearly the entire internet. This is only for superpower state-level attacks, so why bother building a quantum supercomputers to crack RSA or break D-H, when you already have access to the private keys from nearly all CAs on earth? Not to mention almost no one uses anything resembling a secure OS or web browser, which is the only thing keeping your private keys secure.
Even if you’re shelling into a supersecret chinese personally-compiled openbsd VPS full of classified USDoD leaks, with your own personally managed 4096bit RSA keys with no other chain-of-trust to worry about, kicking down you door is going to be a hell of a lot cheaper and less complicated than building multi-trillion dollar gigantic secret underground quantum computers, that can, at best, break RSA in weeks instead of millennia. If that’s the case, then you better have strong disk encryption and nerves of steel. Ultimately breaking at-rest schemes and aes/(x)fish/serpent ciphers is more important.
If 4096bit RSA is somehow broken in our lifetimes, we can probably replace it with ed25519 or something more complicated and the arms race continues.
A large state breaking RSA is more-or-less a vanity project with regard to the implications.