Bootcamp: Superconducting Quantum Design Challenges

This bootcamp guides you through the design of superconducting qubits and quantum amplifiers with product demonstrations to illustrate the concepts you can apply in your design flow today. By the end of this bootcamp, you will have a pathway toward realizing robust and scalable superconducting quantum chips, accelerating progress in quantum computing and quantum information processing.

Learn:

• Design challenges of superconducting quantum chips
• To bridge the knowledge gap for microwave engineers transitioning into the quantum field
• How EDA tools can be used to facilitate the design of both superconducting qubits and quantum amplifiers by providing solutions for layout, electromagnetic simulation, quantum parameter extraction, and nonlinear circuit analysis
• How the complexity of scaling these systems can be managed with EDA tools
• How quantum amplifiers play a critical role in enhancing signal fidelity and enabling sensitive readout operations within superconducting quantum systems by efficiently amplifying quantum signals while suppressing noise

This bootcamp is ideal for quantum or microwave hardware engineers who must efficiently design, analyze, and optimize superconducting quantum chips including qubits and quantum amplifiers.

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