Origin "Tianji" Quantum Control System

The Origin "Tianji" is a quantum control system built specifically for superconducting quantum chips. This all-in-one setup includes RF modules, digital modules, DC voltage sources, and a master sync controller—everything you need to run and read out multiple superconducting qubits at once. It‘s designed to handle the whole job on its own, no extra gear required. We made it modular, so it's highly integrated, super scalable, and really user-friendly. Oh, and it's customizable too. If you have specific needs, you can tailor the system—pick the specs and functions that work best for you.

Features

Highly Integrated, Seriously Capable

This thing is packed into one sleek unit that handles all the superconducting quantum control and readout on its own. With low phase noise and minimal interference, it delivers fast, high-fidelity qubit control and readout—no extra boxes needed.

Modular Setup, Grows with You

Built around a standard rack design, it's built for smooth operation and easy maintenance. You can start small with just 8 qubits and scale all the way up to 100+ when you’re ready.

Pro-Level Control Software

Comes with a clean, visual GUI that's super user-friendly. Tweak and loop parameters, edit or import waveforms, and run automated testing and calibration—all out of the box. It even includes a full library of standard superconducting quantum experiments and lets you create your own. Perfect for custom R&D.

Quantum Control System Specifications

System Composition

RF Transmitter Unit

Handles the XY control signals.

RF Transceiver Unit

Takes care of readout IN/OUT signals.

RF Local Oscillator (LO) Unit

Supplies LO signals for up/down conversion.

Digital Module

Delivers waveform control for operating and reading the quantum chip.

Clock Module

Provides a solid 100 MHz clock signal.

Central Control Module

Sends trigger signals to keep everything in sync.

DC Module

Supplies DC bias to the quantum parametric amplifiers.

Pump Source Module

Delivers the pump signal for the quantum parametric amps

Server

Handles all the data processing.

RF transmission component

Output frequency

3.75–8.25 GHz

Output power

–50 dBm to –10 dBm

IF signal resolution/sampling rate

11 bits at 3.2 GS/s

Analog bandwidth of the input IF signal

500 MHz

Spurious suppression

better than 50 dBc

Phase noise (@6 GHz)t

≤ –110 dBc/Hz at 1 kHz offset ≤ –140 dBc/Hz at 1 MHz offset

RF transceiver component

Output frequency

3.75–8.25 GHz

Output power

–50 dBm to –10 dBm

IF signal resolution/sampling rate

11 bits, 3.2 GSa/s

Analog bandwidth of the input IF signal

500 MHz

Spurious suppression

≥50 dBc

Phase noise (@6 GHz)

≤ –110 dBc/Hz at 1 kHz offset ≤ –140 dBc/Hz at 1 MHz offset

AWG Module

Sampling rate

1.2 GSa/s

Vertical resolution

16 bits

Analog bandwidth

400 MHz

Pulse amplitude range

–0.5 V to +0.5 V

Square wave test

Rise/fall time under 1 ns

Signal acquisition module

Sampling rate

3.2 GSa/s

Vertical resolution

11 bits

Signal frequency

800 MHz to 1300 MHz

Analog bandwidth

500 MHz

DC Voltage Source Module

Voltage Range

±10 V, steps in increments of 0.1 mV

Voltage Accuracy

≤ 0.1 mV

Noise Spectrum

10 Hz – 1 MHz: < –90 dBm 1 MHz – 10 MHz: < –50 dBm

Vertical Resolution

20 bits

Long-term Stability

Voltage drift < 0.01% over 3 hours

Voltage Noise

(0.1 – 10 Hz): Ratio to set voltage < 1.5 ppm

General Specifications

Dimensions

620 mm × 820 mm × 1720 mm

Power Consumption

Under 2500 W

Operating Temperature

0°C to 35°C

Operating Humidity

15% to 85% (non-condensing)

Communication Interface

LAN port

Origin "Tianji" Quantum Control System

Features

Highly Integrated, Seriously Capable

Modular Setup, Grows with You

Pro-Level Control Software

Quantum Control System Specifications

Got needs or questions about Quantum Control System? We're here to help.