*IBM just published a roadmap of what they expect to accomplish in the next few years in the field of quantum computers, and it's pretty damn ambitious: *
How IBM will build the world's first large-scale, fault-tolerant quantum computer <https://www.ibm.com/quantum/blog/large-scale-ftqc> *After reading the above I decided to ask Claude the following question: * *"IBM recently predicted that by 2029 they should have a quantum computer that has 200 error corrected logical Qubits, and by 2033 they will have 2000. What sort of things could something like that do, could it break RSA encryption?"* *Claude responded with the following: * *"IBM's quantum computing roadmap is indeed ambitious. Starling is expected to be capable of 100 million quantum operations using 200 logical qubits 'The science is solved': IBM to build monster 10,000-qubit quantum computer by 2029 | Live Science <https://www.livescience.com/technology/computing/ibm-will-build-monster-10-000-qubit-quantum-computer-by-2029-after-solving-science-behind-fault-tolerance>, with the larger Blue Jay system planned for 2033 featuring 2,000 logical qubits capable of 1 billion quantum operations.* *These systems could potentially tackle several important computational problems:* *What 200-2000 logical qubits could accomplish:* *Chemistry and Materials Science: Simulating molecular interactions for drug discovery, catalyst design, and materials development. This could accelerate pharmaceutical research and help design better batteries, solar cells, and superconductors.* *Optimization Problems: Solving complex logistics, supply chain optimization, financial portfolio management, and traffic routing problems that are computationally intensive for classical computers.* *Machine Learning: Quantum machine learning algorithms could potentially offer advantages for certain pattern recognition and data analysis tasks.* *Cryptanalysis: This brings us to your RSA question - and it's a crucial one.* *Regarding RSA Encryption:* *The threat to RSA depends on successfully implementing Shor's algorithm at scale. Current estimates suggest that breaking RSA-2048 (the current standard) would require approximately 2,000-4,000 logical qubits with millions of quantum operations.* *IBM's 2029 system with 200 logical qubits would likely be insufficient to break current RSA encryption. However, their 2033 system with 2,000 logical qubits could potentially approach the threshold needed for RSA-2048, depending on error rates and algorithm efficiency improvements.* *This timeline aligns with why cryptographers are already developing "post-quantum" encryption methods that would resist quantum attacks. The transition needs to happen before quantum computers become capable enough, not after.* *It's worth noting that these are IBM's projections, and quantum computing development faces significant technical challenges in error correction and maintaining quantum coherence at scale."* *===* *2025 IBM Quantum Roadmap update <https://www.youtube.com/watch?v=_y43boNNoVo>* *Realizing large-scale, fault-tolerant quantum computing <https://www.youtube.com/watch?v=zrZHPil0BTA>* * John K Clark See what's on my new list at Extropolis <https://groups.google.com/g/extropolis>* 3a9 -- You received this message because you are subscribed to the Google Groups "Everything List" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion visit https://groups.google.com/d/msgid/everything-list/CAJPayv2N0wojZ2x2vykvaDFMuPw7vYsJ5jj4a%2Bjt9OAaoq3eqw%40mail.gmail.com.
