<i>Quantum Orchestration Platform</i> <i>Integrated hardware and software for design and execution of complex quantum control protocols</i>

Quantum computing holds a great promise for immense computational power. In last years, it was suggested that noisy intermediate-scale quantum (NISQ) processors may already demonstrate an advantage over classical hardware for particular computational tasks which may be of commercial use. Nonetheless, significant additional technological progress, at every layer of the quantum computer, is required in order to advance from NISQ processors to ones capable of running fault-tolerant-quantum-computation (FTCC). In particular, for FTCC, multi-qubit real-time feedback capabilities have to be developed far beyond those we know today.
Here we present the recently developed Quantum Orchestration Platform (QOP) allowing for general multi-qubit protocols to be run. The QOP is a scalable system designed to support hybrid quantum-classical algorithms with the outlook to FTCC, and is optimized for driving multiple qubits simultaneously as well as performing complex readout schemes and branching based on readout results with ultra-low latency feedback. In this talk, we will show examples for quantum-error-correction protocols and demonstrate how they are programmed and run with the QOP.