Pioneering the control systems that make fault-tolerant quantum computing possible. Sub-microsecond precision. Mathematical guarantees. Universal compatibility.
Three years of fundamental research has produced a comprehensive control platform that addresses the core challenges preventing practical quantum computing.
Hardware-accelerated quantum feedback systems achieving sub-5 microsecond control latencies—fast enough to outpace decoherence in superconducting qubits.
Novel hierarchical decoder architecture with O(log n) computational scaling, enabling error correction for million-qubit systems previously thought impossible.
Machine learning system that automatically discovers quantum error correction codes optimized for specific hardware, outperforming hand-designed solutions.
Formal verification framework using category theory to prove stability properties and automatically generate optimized control code across platforms.
Mathematical breakthroughs enabling control of continuous-variable quantum systems, unlocking photonic quantum computing at room temperature.
Hardware-agnostic control architecture that seamlessly works across superconducting, trapped ion, photonic, and emerging quantum platforms.
Strategic IP protection across the entire quantum control stack, from hardware acceleration to mathematical frameworks.
Hardware-accelerated quantum feedback control with GPU-FPGA pipeline achieving unprecedented sub-5μs loop latency. Essential for maintaining quantum coherence in real-world systems.
Revolutionary tensor network architecture providing logarithmic scaling for quantum error correction. Enables practical error correction for million-qubit systems.
Unified mathematical framework for automatic verification and synthesis of quantum control software with formal stability guarantees across all platforms.
We're seeking visionary partners to transform quantum control research into commercial quantum advantage.
Cloud providers and HPC centers ready to deploy next-generation quantum control systems at scale.
Leading quantum research groups interested in advancing the theoretical foundations and experimental validation.
Visionary investors who understand the transformative potential of quantum control infrastructure.
Quantum computing companies seeking to achieve fault-tolerance through advanced control systems.
Transitioning from breakthrough research to commercial deployment.
Three years of deep research into quantum control theory, developing novel mathematical frameworks and algorithms.
Comprehensive IP protection established across five complementary patents covering the full control stack.
Actively seeking infrastructure partners, academic collaborators, and strategic investors.
First integrated control systems deployed with select partners for validation and optimization.
Ready to explore how QOREONYX can accelerate your quantum computing initiatives? Let's discuss partnership opportunities.