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Wed 10 Jun | 08:00 - 09:40
Room 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 KEYTOTE: Readout Chip Design and Packaging Challenges to Enable Scalable Quantum Computing
08:40 - 09:00
We1E-3 KEYNOTE: Cryogenic CMOS and Silicon 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: Leveraging Scalable Semiconductor Manufacturing for a Multi-Core Full-Stack QSoC on the Road Toward Quantum Utility