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PsiQuantum presents a new, practical approach to fault tolerant quantum computing. The new approach, one particularly suitable for the high connectivity of photonic quantum computers, manages to achieve large checks but with fixed (small) hardware, leading to significantly higher performance.

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Researchers from PsiQuantum and Stanford have developed a comprehensive state-of-the-art end-to-end framework for the simulation of real-time dynamics of chemical systems on a fault-tolerant quantum computer; this is of interest in modeling the dynamics of chemical reactions, such as those that involve catalysts.

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Researchers from PsiQuantum and the Hartree Centre have published the first physical resource estimate to execute a quantum algorithm for breaking Elliptic Curve Cryptography (ECC) over binary fields.

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PsiQuantum has announced the availability of the Quantum Resource Estimation Format (QREF) and the beta release of Bartiq, a Quantum Resource Estimator (QRE) for Fault Tolerant Quantum Computing (FTQC). QREF provides an open data format to represent FTQC algorithms and Bartiq is set to guide researchers and developers through the complexities of resource estimation for various fault-tolerant quantum algorithms.