I should note that i'm not into that for quite a while, and there may have been significant advancements in the field since then. At present, I can offer the following information:
Quantum computers have the potential to revolutionize the field of cryptography, but it's important to note that the development of practical quantum computers capable of breaking strong classical encryption algorithms remains a significant challenge.
In the context of Riri's statement about using a quantum computer to crack 2065-bit encryption, it's difficult to provide a definitive answer without knowing the specific encryption algorithm being referenced. However, it's worth noting that 2065-bit encryption does not correspond to any widely recognized encryption standard currently in use.
In general, the security of classical encryption algorithms is based on the assumption that factoring large numbers or solving certain mathematical problems is computationally infeasible for classical computers. Shor's algorithm, a quantum algorithm we discussed earlier, has the potential to efficiently factor large numbers, which would render some commonly used encryption algorithms, such as RSA, vulnerable to attacks.
However, it's important to consider that researchers and cryptographers are actively working on developing new encryption algorithms that are resistant to quantum attacks. These algorithms, known as post-quantum or quantum-resistant cryptography, aim to provide security even in the presence of powerful quantum computers.
Regarding the statement about developing a quantum computer capable of cracking 2065-bit encryption, it is challenging to predict the exact capabilities of future quantum computers. The progress in quantum computing technology is advancing rapidly, but it is currently difficult to determine when practical, large-scale quantum computers will be available and what their capabilities will be.
In summary, while quantum computers have the potential to impact the field of cryptography, it is currently uncertain when practical quantum computers will be developed and what level of cryptographic security they will be capable of breaking. The dialogue in Wakanda Forever may have been intended to convey a futuristic concept rather than a specific reflection of our current understanding of quantum computing.