Oxford Quantum Circuits’ roadmap 📈 — a quantum take on Moore’s Law?

Classical computing had Moore’s Law doubling transistors every ~2 years.

Now quantum computing has its own trajectory.

Oxford Quantum Circuits is scaling fast—are we approaching the inflection point?

Around 100-200 high-fidelity qubits, we unlock simulation power beyond classical supercomputers—think molecular modeling, optimization, Shor’s algorithm at scale.

The hardware curve is steep.

But the true bottleneck: fault-tolerance + quantum error correction.

Moore’s Law for quantum ≠ just more qubits—it’s about coherent, controllable, and connected qubits.

The computing power of a quantum computer is statistical and therefore allows to grow exponentially with the number of qubits. To that end, we are entering a post-Moore era in which computing hardware economical market optimization is done on computing power and efficiency instead of number of transistors - Koomey’s law this is called.

🧪🔗 #quantumAdvantage #nostr #qubitScaling #mooresLaw #oxfordquantumcircuits