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Modelling Superconducting and Cryogenic Electromagnetic Coupling in Quantum Devices
Synopsys RaptorQu is a high-capacity electromagnetic simulation solution purpose-built for quantum computing applications. Designed for superconductive silicon cooled down to milliKelvin temperatures, RaptorQu delivers fast, accurate inductance extraction and electromagnetic coupling analysis, enabling robust design and verification of quantum processors with tens to hundreds of superconducting qubits.
Key Benefits
Features
Optimized for Superconductive and Cryogenic Silicon
Purpose-built algorithms ensure simulation accuracy for superconducting semiconductors at temperatures near absolute zero, accounting for unique material properties and behaviors.
High-Accuracy Inductance Extraction
RaptorQu models vast numbers of small partial inductances in superconducting silicon, ensuring the fidelity needed for quantum processor design. Its algorithms provide exceptional accuracy from the smallest layout features up to system-scale structures.
Electromagnetic Coupling and Crosstalk Modeling
The solver captures electromagnetic coupling and crosstalk, critical for understanding decoherence in superconducting qubits. Accurate modeling enables engineers to mitigate loss mechanisms and optimize qubit coherence times.
Scalable Layout Support
RaptorQu efficiently processes layouts spanning from micrometers to millimeters, supporting the integration of tens to hundreds of physical qubits. Its capacity meets the requirements of today’s and tomorrow’s large-scale quantum processors.
Substrate Coupling Analysis
Integrated substrate coupling modeling enables comprehensive evaluation of parasitic interactions, ensuring robust quantum device performance in real-world conditions.
User-Friendly Workflow
RaptorQu offers a streamlined, intuitive interface that integrates with established semiconductor design flows or operates in standalone mode. Users benefit from easy setup, fast simulation, and compatibility with foundry processes.
High-Speed Simulation Engine
Advanced solver technology accelerates electromagnetic analysis, reducing turnaround times for complex quantum layouts and supporting rapid design iteration.
Technical Capabilities
Synopsys RaptorQu turns quantum probability into an engineering reality with breakthrough electromagnetic modeling technology purpose-built for the rapidly evolving field of quantum computing. Designed to meet the unique requirements of superconducting silicon operating at temperatures approaching absolute zero, RaptorQu delivers unmatched accuracy and scalability for modeling the inductance and coupling effects in quantum processing units. With the ability to analyze designs from microns to millimeters and simulate tens to hundreds of qubits, it empowers innovators to accelerate development, optimize performance, and confidently scale their quantum architectures.
FAQ
RaptorQu provides highly accurate inductance and coupling extraction estimates for superconducting and cryogenic circuits, essential for reliable assessment of qubit performance.
Yes, its high capacity supports layouts from micrometer to millimeter scale, enabling analysis of systems with hundreds of qbits.
RaptorQu is compatible with standard semiconductor design environments and foundry processes.
It models electromagnetic coupling and crosstalk, helping engineers identify and mitigate decoherence mechanisms.
Yes, it is specifically designed for superconductive circuits operating near absolute zero and accounts for their unique properties.