Quantum Control and
High-Fidelity Readout
Join the session and discover the
Qubit Readout and Control Module (QRC)
What to expect
- A guided walkthrough showing how the QRC module seamlessly unites signal generation, readout, and synchronization for high‑fidelity operations.
- Engineering insights into the QRC’s design, featuring cutting‑edge RFSoC technology and combining direct digital synthesis (DDS) with single mixing, that delivers exceptional spurious‑free dynamic range (SFDR) and signal‑to‑noise ratio (SNR).
- A hands-on demonstration of QRC within the Qblox Cluster mainframe, covering a complete frequency range, from 100MHz to 10GHz, without gaps, providing full channel independence and optimal user flexibility.
Register for early access and be the first to see the demo:
How can you advance your quantum research with the QRC module?
The Qubit Readout and Control (QRC) module unlocks new possibilities in qubit readout and control for both research and high-performance computing applications. The QRC is a high channel density RF solution that offers excellent performance and adaptability to control a growing number of qubits with the highest fidelities inside the Qblox control stack.
Covering 100 MHz to 10 GHz, fully independent ports generate all the necessary signals for scalable control and readout for your qubits.
Unique DDS and single mixing combination ensure high SFDR, exceptional SNR, and full frequency range accuracy without recalibration.
Q1 real-time sequencer delivers fully deterministic, reliable performance for complex pulse sequences and measurement loops.
Channel-independent instantaneous bandwidth of >800 MHz.
Avoid delays with gapless playback and create the fastest parameter update rate of 4 ns.
High-level open-source software Qblox Scheduler streamlines easy scheduling, while the assembly layer can integrate with third-party tools like (e.g. Qiskit).
FAQ
- Who is this webinar for? Engineers, researchers, system architects, and anyone building scalable quantum computing of any qubit system, superconducting, spin, or color centers, who want to see the Qblox control hardware in action.
- Do I need prior knowledge of quantum hardware?A basic understanding of qubit control/readout will help you follow the demo, but we’ll walk you through the key concepts.
- Will the webinar be recorded? Yes — registrants will receive a link to the recording afterwards.
- Can I ask questions during the live session? Absolutely. Please submit your questions via the dedicated contact channel provided. Although we will not be answering them live, we will personally follow up with responses after the session.
FAQ
A basic understanding of qubit control/readout will help you follow the demo, but we’ll walk you through the key concepts.
Absolutely. Please submit your questions via the dedicated contact channel provided. Although we will not be answering them live, we will personally follow up with responses after the session.
Yes — registrants will receive a link to the recording afterwards.
Engineers, researchers, system architects, and anyone building scalable quantum computing of any qubit system, superconducting, spin, or color centers, who want to see the Qblox control hardware in action.
