Quantum Art's trapped-ion quantum hardware has been verified to meet fault-tolerant thresholds for multi-qubit gates through numerical simulations, marking a significant step towards large-scale quantum error correction. This development challenges traditional approaches that rely on sequences of single- and two-qubit operations, instead demonstrating the viability of simultaneous multi-qubit gates in quantum computing. The company's proprietary architecture has been shown to be compatible with large-scale quantum error correction, addressing long-standing questions about the feasibility of this approach1. By achieving fault-tolerant thresholds, Quantum Art's technology has the potential to significantly advance the field of quantum computing. This breakthrough matters to practitioners because it redefines the boundaries of quantum computing and cryptography, forcing a reevaluation of existing assumptions about the capabilities and limitations of quantum systems.