Quantum Machines

Quantum Machines (QM): Advanced Quantum Control Systems for the Quantum Era

In the rapidly emerging quantum landscape, control systems represent the critical interface between classical and quantum worlds. QM stands at this frontier, not merely as a hardware provider but as an architectural pioneer reshaping how quantum and classical computing converge.

Bridging Quantum & Classical Realms
At the forefront of the quantum revolution, QM is creating the essential interface between classical and quantum worlds. Our Hybrid Processing Unit (HPU) technology integrates real-time classical processing directly into quantum operations, enabling unprecedented decision-making at quantum timescales. This unified architecture provides the critical framework for practical quantum computing, delivering the scientific breakthroughs and commercial advantages needed as quantum systems scale toward meaningful applications across industries.

Performance & Accessibility
With industry-leading 224 ns conditional feedback latency and 4μs round-trip latency in our DGX Quantum system, in partnership with NVIDIA, we enable previously impossible quantum protocols. Our QUA programming language abstracts hardware complexity, democratizing quantum experimentation without sacrificing performance or requiring tedious FPGA coding. Our hybrid execution capabilities enable seamless integration of quantum and classical resources, allowing researchers to leverage both paradigms simultaneously for maximum computational advantage.

Hardware-Agnostic Integration
Our platform supports diverse qubit technologies through a comprehensive ecosystem built around the OPX1000. This is complemented by our precision instruments including QDAC-II—an ultra-low-noise 24-channel DAC with up to 25-bit resolution for precise DC control—and QSwitch, a versatile signal routing system with 240 software-controlled relays for flexible cryogenic setup configurations. QUAlibrate, our automated calibration solution, dramatically reduces setup time from weeks to hours by intelligently optimizing system parameters without tedious manual tuning. Our specialized cryogenic control electronics, complete our end-to-end quantum infrastructure solution, ensuring optimal performance from microwave resonator control to low-temperature signal conditioning.

Adaptive Scalability PathOur modular architecture with Direct Digital Synthesis (DDS)provides a seamless path from current to fault-tolerant quantum systems. Our integrated Quantum Error Correction (QEC) infrastructure leverages ultra-low latency feedback for real-time syndrome detection, implementing surface codes that create robust logical qubits. Through our Adaptive Quantum Circuits framework, operations modify in real-time based on mid-circuit measurements, enabling complex workflows like 5,000-depth Randomized Benchmarking to run in minutes instead of days—accelerating the path to quantum advantage.

Customer Success: Accelerating Quantum Breakthroughs
Our support team eliminates instrumentation barriers, dramatically reducing development time and enabling researchers to focus on science. Customers worldwide report transformative improvements—from setting up measurements in minutes to bringing up multi-qubit systems in just 48 hours. Through training and ongoing consultation, we ensure every customer achieves their quantum ambitions.

Partnerships: Fostering a Global Quantum Ecosystem
Our global partner network unites hardware innovators and research institutions worldwide. With collaborations spanning from Korea's Research Institute to Caltech, Alice & Bob to TII, we deliver technical excellence through shared innovation. Our IQCC (Quantum Computing Center) provides cutting-edge infrastructure and expertise while leveraging our pioneering HPU technology that enables ultra-low latency feedback of just 224ns. Ongoing work with MIT, Diraq, ENS Lyon, and the Niels Bohr Institute continues strengthening the quantum ecosystem and driving breakthrough research.