Zurich Instruments launches the ZQCS Quantum Control System to master the long-lived logical qubit challenge
Zurich, Switzerland
Today, Zurich Instruments announced the ZQCS Quantum Control System, a next‑generation platform to operate large-scale quantum computers. It is engineered to tackle the pivotal challenge on the path to fault‑tolerant quantum computing: building long‑lived logical qubits.
Physical qubits are fragile; noise and drift can erase quantum information in microseconds. The remedy is to use logical qubits, which encode quantum information across many physical qubits, thereby enabling error correction. This approach elevates the control system from a mere pulse generator to the stabilizing core of the quantum computer: it must coordinate hundreds to thousands of channels while producing ultra‑stable pulses, and close real-time feedback loops at microsecond timescales. These requirements are at the core of the field’s main challenges – scaling to several thousand qubits, pushing gate fidelities to five nines and beyond, and mastering quantum error correction. The ZQCS is the control system built to meet these needs, uniting scalable direct‑RF electronics, deterministic real‑time networking, and powerful software.
“We designed the ZQCS end‑to‑end for the logical‑qubit era – starting from the analog front end, through the real‑time fabric, to software – so researchers and system builders can address scale, fidelity, and error correction together,” says Andrea Orzati, CEO at Zurich Instruments.
ZQCS uses a modular AdvancedTCA architecture scaling seamlessly from a single shelf to multi‑shelf systems and delivering more than a thousand channels per 19‑inch rack. The system is ready for the integration into HPC environments, offering water-cooled enclosures for optimal heat management and thermal stability. For QEC research without boundaries and hybrid quantum-classical workflows, each shelf integrates a programmable FPGA and a low‑latency, high‑bandwidth link to classical computing resources such as GPUs and CPUs. With its first‑Nyquist‑zone, direct‑RF front end and market-leading signal‑to‑noise ratio, the ZQCS lets researchers optimize quantum fidelities without limits imposed by the control. A synchronization scheme optimized to execute large quantum programs maintains a distributed wall clock for deterministic timing across every signal. The ZQCS is powered by Zurich Instruments’ LabOne Q software, spanning pulse‑, gate‑, and workflow‑level interfaces supporting automation for calibration and tune‑up.
“We’re excited to see the first ZQCS installations come online, powering quantum error‑correction experiments, and helping our partners scale from hundreds to thousands of qubits,” says Sebastian Krinner, Product Manager. “This is a major step in our long‑term commitment to help the community reach fault tolerance.”
The launch affirms Zurich Instruments’ capability and commitment to deliver the quantum control technology of the logical‑qubit era, backed by deep domain expertise and the long-term stability offered by its parent company, Rohde & Schwarz.
About Zurich Instruments
Zurich Instruments is a Swiss company with a passion for phenomena that are often notoriously difficult to measure. We lead the change by providing advanced hardware, software and services for quantum computing control systems, lock-in amplifiers, impedance analyzers, and arbitrary waveform generators. As a company of scientists for scientists, we tackle challenges of research by delivering a wide product portfolio that reduces complexity of laboratory setups, unlocks new measurement strategies and complies to Swiss quality standards. Our commitment to collaborations and real-time support is reflected in seven offices worldwide, numerous research partnerships, and thousands of publications referring to Zurich Instruments. Since 2021, Zurich Instruments is a part of the Rohde & Schwarz and continues its scale up ambitions to advance science and accelerate the second quantum revolution.