Superconducting Quantum Systems: From Design to Test

These webinars explore the full lifecycle of superconducting quantum systems—from overcoming design challenges with Quantum EDA tools to enabling real-time control and measurement using Keysight’s Quantum Control System (QCS). Learn how advanced simulation, optimization, and FPGA-powered hardware help accelerate scalable quantum computing.

Session 1: Navigating the Design Challenges of Superconducting Quantum Systems

Superconducting qubits offer scalability and control, but require low-noise, high-fidelity readout—enabled by quantum amplifiers. Designing these systems involves complex integration, noise mitigation, and performance optimization. This session highlights Quantum EDA tools tailored for quantum circuits, supporting simulation, verification, and design automation. It offers a pathway towards realizing robust and scalable superconducting quantum systems, accelerating progress in quantum computing and quantum information processing.

Key Learnings:

- Understand design hurdles and how they impact system performance

- Discover Quantum EDA tools—from layout optimization to nonlinear analysis—for qubits and amplifiers

- Learn how to achieve scalable architecture using EDA-driven design strategies

Session 2: Scalable, High-Fidelity Qubit Control and Readout with the Quantum Control System (QCS)

Superconducting qubit systems require precise, synchronized pulse sequences— a task that scales in complexity as the number of qubits increases. This session explores how Keysight’s Quantum Control System (QCS) supports these experiments through dedicated hardware and full-stack software. We’ll examine advanced signal generation and detection modules, and how the QCS API leverages FPGAs for real-time performance and an intuitive user interface.

Key Learnings:
- Understand the challenges of controlling and measuring superconducting qubits, and how they scale with system size
- Leverage FPGAs to facilitate real-time performance
- Synchronize multiple control channels without compromising performance

Select one or more webinars of interest, then submit the registration form.

Navigating the Design Challenges of Superconducting Quantum Systems (Americas Session)

Wednesday, November 12, 2025 · 1:00 p.m.
Navigating the Design Challenges of Superconducting Quantum Systems (Europe Session)

Wednesday, November 12, 2025 · 5:00 a.m.
Scalable, High-Fidelity Qubit Control and Readout with the Quantum Control System (QCS) (Americas Session)

Wednesday, November 19, 2025 · 1:00 p.m.
Scalable, High-Fidelity Qubit Control and Readout with the Quantum Control System (QCS) (Europe Session)

Wednesday, November 19, 2025 · 5:00 a.m.

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Superconducting Quantum Systems: From Design to Test

Navigating the Design Challenges of Superconducting Quantum Systems (Americas Session)

Navigating the Design Challenges of Superconducting Quantum Systems (Europe Session)

Scalable, High-Fidelity Qubit Control and Readout with the Quantum Control System (QCS) (Americas Session)

Scalable, High-Fidelity Qubit Control and Readout with the Quantum Control System (QCS) (Europe Session)

Reserve Your Spot