AIX Global Innovations Clears FTQC Threshold on 150-Qubit Register

AIX Global Innovations reports achieving a fault-tolerant quantum computing (FTQC) breakthrough as early as April, demonstrating the threshold for useful computation on a 150-qubit register accessed through IBM Quantum hardware. The company’s Seed IQ engine achieved zero detected logical errors while preserving near-perfect fidelity on IBM’s Heron r2 and r3 QPUs, a result that moves beyond simply reaching the FTQC threshold and into molecular computation. “Everyone in quantum has understood FTQC as the threshold for useful compute,” said Denise Holt, Founder and CEO of AIX Global Innovations. AIX asserts this accomplishment, detailed in a newly published 100-page technical report, showcases that the challenge is no longer qubit count, but rather software like Seed IQ. The findings will be presented as the industry gathers at The Economist’s Commercialising Quantum Global event in London.

Seed IQ Achieves Fault-Tolerant Quantum Computing on IBM Heron

AIX Global Innovations asserts its Seed IQ engine achieved fault-tolerant quantum computing (FTQC) in April, a claim substantiated by a newly published 100-page technical report and demonstrated on IBM Quantum hardware. This accomplishment isn’t simply about reaching the FTQC threshold; AIX reports moving beyond it into actual molecular computation, a significant step toward practical quantum applications. The company utilized a 150-qubit register on IBM’s Heron r2 and r3 quantum processing units (QPUs) to achieve this result, demonstrating that FTQC isn’t necessarily dependent on building exponentially larger physical qubit counts. Crucially, AIX reports zero detected logical errors while maintaining near-perfect fidelity during testing, a result achieved through its adaptive multiagent control (AMAC) engine. The company’s approach, Seed IQ, focuses on utilizing software rather than solely relying on hardware scale, a strategy that appears to have yielded success on standard IBM Quantum cloud service access.

Over an eight-week period, AIX ran over 45,000 circuits on five IBM Heron processors, clearing all four strict FTQC requirements and demonstrating a d=1 inversion. The validation process is meticulously documented, relying on IBM hardware readouts, workload identifiers, and calibration records to establish a clear audit trail. AIX also completed twenty-two governed chemistry runs across five molecular workloads, all achieving chemical accuracy, with the BeH2 equilibrium reaching wavenumber-level precision at ∆E=+ mHa from FCI. “This was not a lucky hardware event,” stated Denis Ovseyenko, Co-Founder and Chief Innovation Officer of AIX Global Innovations. “When different chips and calibration windows converge to twelve decimal places, the evidence points to the execution layer; Seed IQ was governing the computation.” AIX is now establishing a Trusted Execution Framework to support authorized use and accountability for Seed IQ-enabled quantum computation, with the full report available for qualified reviewers.