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Wed 10 Jun | 08:00 - 09:40
151AB
As quantum computing advances toward scalable and fault-tolerant architectures, the integration of high-fidelity qubits with cryogenic microwave electronics becomes a critical enabling factor. This focus session provides a unique platform to foster collaboration among the quantum hardware, cryogenic electronics, and microwave engineering communities, accelerating the path toward practical, fault-tolerant, and large-scale quantum computing systems. It brings together experts from industry and government laboratories to present recent advances in superconducting, semiconductor spin, and ion trap qubit technologies, the associated cryogenic control and readout electronics, and quantum processor architectures.
08:00 - 08:20
We1E-1 KEYNOTE: Cryoelectronics for Scalable Ion-Trap Quantum Control
08:20 - 08:40
We1E-2 KEYNOTE: Readout Chip Design and Packaging Challenges to Enable Scalable Quantum Computing
08:40 - 09:00
We1E-3 KEYNOTE: Cryogenic CMOS and Spin Qubits for Fault-Tolerant Quantum Computing
09:00 - 09:20
We1E-4 KEYNOTE: Scaling CMOS Spin Qubit Quantum Processors using Superinductors
09:20 - 09:40
We1E-5 KEYNOTE: QSoC, a Scalable Dedicated Quantum System on Chip for High Density Silicon Spin qQubits