Quantum Elements Models Qubit Behavior With AI Digital Twins

Quantum Elements, a Los Angeles-based startup founded in 2023, is partnering with Rigetti to apply artificial intelligence-powered “digital twins” to the complex challenge of quantum computing errors. The collaboration will focus on simulating four key areas of qubit behavior, single-qubit gates, two-qubit gates, readout, and reset operations, moving beyond broad simulations to target specific sources of instability. “We are excited to work with Rigetti to evaluate how advanced simulation tools may help accelerate the broader industry’s understanding of noise sources and error behavior in superconducting quantum systems,” said Izhar Medalsy, CEO of Quantum Elements. By modeling qubit performance with these AI-driven simulations, the companies aim to accelerate progress toward practical, reliable quantum computation and unlock the potential of future quantum processors. Rigetti Computing Partnership Accelerates Digital-Twin Simulation Research A Los Angeles-based startup, Quantum Elements, is collaborating with Rigetti Computing to leverage AI-powered digital twins for simulating quantum computer behavior, which positions the relatively new company as a potential catalyst in addressing the persistent challenges of quantum error. Founded in 2023, Quantum Elements intends to accelerate the development of practical quantum applications through its proprietary software and digital twin technology. This partnership signifies a focused effort to refine quantum systems by modeling key qubit operations. The simulations will concentrate on four specific areas, single-qubit gates, two-qubit gates, readout processes, and reset operations, allowing for a granular analysis of error sources. This targeted approach to error mitigation is driven by the belief that detailed simulation can complement existing hardware benchmarking techniques. Rigetti’s commitment to collaborative advancement within the quantum ecosystem makes them a fitting partner for this research, according to company representatives. David Rivas, CTO of Rigetti, affirmed that he looks forward to working with Quantum Elements as they explore how their simulation technology could support research on noise modeling and performance characterization. Quantum Elements plans to expand access to its platform as its network of partners grows, suggesting a future where AI-driven simulation plays a central role in quantum computer development. AI-Native Platform Models Qubit Behavior and Error Channels This detailed approach aims to provide deeper insights into the complex interplay of factors contributing to quantum decoherence and inaccuracies. Early experimentation with the platform has yielded promising initial results, and the companies plan to release validated, reproducible findings as they become available. David Rivas, CTO of Rigetti, emphasized his company’s dedication to collaborative progress, stating, “Rigetti is committed to partnering with organizations across the ecosystem to advance real, measurable progress toward quantum utility.” The simulations are intended to complement Rigetti’s existing benchmarking and characterization methods for future quantum processors, potentially accelerating the development of more robust and reliable quantum hardware. We are excited to work with Rigetti to evaluate how advanced simulation tools may help accelerate the broader industry’s understanding of noise sources and error behavior in superconducting quantum systems. Izhar Medalsy, CEO of Quantum Elements Source: https://www.einpresswire.com/article/906950824/quantum-elements-exploring-new-digital-twin-simulation-approach-for-achieving-results-on-rigetti-computing-hardware ADIABATIC QUANTUM COMPUTING DIGITAL TWINS QUANTUM ELEMENTS RIGETTI SUPERCONDUCTING QUBITS Ivy Delaney We've seen the rise of AI over the last few short years with the rise of the LLM and companies such as Open AI with its ChatGPT service. Ivy has been working with Neural Networks, Machine Learning and AI since the mid nineties and talk about the latest exciting developments in the field. Latest Posts by Ivy Delaney: Geometric Gates Cut Error Scaling To Fourth Power April 21, 2026 Self-Configuring Networks Learn Supermodes Using O(l N) Elements April 21, 2026 ATLAS Recreates Cosmic Ray Impacts in LHC For First Time April 21, 2026