Your Trusted Quantum Control Partner
Complete Quantum Control and Electronics Solution from Room Temperature to Cryogenics
Full-stack quantum computing vendors, HPC centers, and leading quantum research labs use our quantum control stack to build the world’s most advanced quantum computers.
Economically Scalable | Multi-User | Out-of-the-Box Workflows | Bespoke Physicist Support
We help experimental quantum physicists in hundreds of leading labs around the world make breakthroughs in quantum research.
Unmatched Performance | Easy to Use | Scalable |
Bespoke Physicist Support
”The OPX+ and Octave are a dramatic improvement over the traditional homemade AWG plus DAQ systems. These QM instruments offer ease of use across several levels of abstraction: from implementing and optimizing individual pulses to realizing complex experiments with real-time processing and feedback. Coding is user-friendly, which makes transmitting the know-how between group members much more straightforward."
“The Quantum Machines OPX control system has been an enabling technology for our research. It provides unparalleled flexibility and ease of use for experiments requiring real-time quantum feedforward control. With the integrated high-resolution time tagging, this platform is a no-brainer for advanced quantum networking experiments.”
”Diraq is delighted to partner with Quantum Machines, and credits their OPX control system, with its real-time capabilities, as instrumental in achieving the results outlined in our research. The ease of programming sequences in QUA significantly streamlined the experimental process.”
“My group is completely satisfied with the multiple OPX systems we’ve purchased. Qubit bring-up is fast and easy, as is optimization of high-fidelity microwave and z-pulse gates. The technical support team at Quantum Machines is outstanding.”
“We are very impressed to see how simple yet powerful the OPX controller is, as we rebuilt our noise spectrometer for NV centers in a fraction of the time it took us with other instruments. Now, a student with no experimental experience can run the system autonomously, even programming new and advanced dynamical decoupling sequences which include real-time computation. QM's controller is easy to use, and its unique capabilities enable fast and steady progress in our lab.”
“QM’s chip packaging solutions are exquisite pieces of engineering that have enhanced our resonator Q-factors to as much as 200 million. It is clearly a very highly engineered product that I’m sure will be widely adopted in the field.”
"Thanks to the super-fast on-board data processing of the OPX we could resolve the nonlinear phenomena of our superconducting quantum circuits. With conventional AWGs and electronics this would have taken an impractical long time. The OPX is extremely easy to operate and substantially changes the paradigm of data acquisition and analysis procedures in quantum labs."
“We were extremely surprised by the flexibility that OPX offers and by how much easier it makes our experiments. Moreover, OPX provides extreme speed-ups. No more frustration due to long waiting times for unwanted results!”
“Incorporating the OPX+ in our measurement instruments allowed us to set up time-domain measurements in minutes, seriously speeding up our sample characterization process.
With the provided extensive live online help we get the support from QM's experts to further debug any problems arising during measurements. With QM support Qilimanjaro can deliver their differential Analog Quantum Computers based on superconducting qubit technology.”
”QM's control electronics provide the best real-time features along with an intuitive and well-documented programming interface. At TII, we successfully controlled a 25-q chip and conducted multiplexed characterization of all qubits using QM’s OPX and Octave. What we appreciate most, however, is the QM’s unwavering support and commitment to helping us achieve our targets, even going so far as to send some of their best scientists when needed.”
“OPX has been a powerful enabler in our lab, helping us quickly characterize the performance of our recently discovered qubits. The hardware removes time wasted in uploading and waiting during pulse programming. QUA has substantially reduced the complexity of writing quantum protocols, allowing us to code dynamical decoupling and RB sequences in just a few lines. It remarkably saves our time in optimizing the processes and visualizing the results, allowing us to focus more on understanding the physics of our new qubits.” See case study >>
“The OPX’s fast feedback and unique real-time processing capabilities were critical for our experiment. Combining these with the OPX’s intuitive programming and QM’s state-of-the-art cryogenic electronics allowed us to do something that we have dreamt of doing for years.”
"Using the OPX has been simplifying our work in many respects due to the intuitive implementation of sequences within QUA. In addition, the support by QM helped us debugging possible issues with swift responses and an easy and informal way of getting in touch over Discord.”
"Writing our experiments [with QUA] is easy and intuitive, and we can now focus on the physics instead. In two days we had brought up our (6-q) chip completely, calibrated all parameters, and wrote the pulse sequence of our final experiment."
"OPX played a crucial role in our advanced quantum experiments. This platform is the most flexible and user-friendly system in our lab. It saved us a significant amount of time, enabling us to concentrate on quantum science and make progress much faster compared to writing our own code. Furthermore, the Quantum Machines customer success team has been extremely helpful in addressing our needs and maximizing the solution's full potential."
"The QUA python interface is great, everything you want to do is just three intuitive lines of code. The OPX is one of the only things in the lab that is working exactly as it should."
"I regard Quantum Machines as the quintessential example of how deep-tech companies should operate in harmony. Their OPX+ devices exemplify excellence, and the team's unmatched business ethos sets them apart. From unboxing the OPX+ to the first measurements is a truly exhilarating experience. They consistently go above and beyond for their customers, ensuring mutual success. Transitioning from academia to the startup realm, I have rarely encountered a company as remarkable as Quantum Machines."
"Quantum Machines' OPX played a key role in our roadmap. It enabled us to get the best control electronics out there [FPGA] without having to learn how to program them. QM provides a very scalable, very easy to use and very powerful hardware, which allows us to focus on the quantum science."
“QCage integrates seamlessly into our workflow of preparing and loading QPUs and supports higher throughput in our lab. Our research directly benefits from QCage's innovative design and engineering.”
“QM's chip packaging solutions are exquisite pieces of engineering that have enhanced our resonator Q-factors to as much as 200 million. It is clearly a very highly engineered product that I am sure will be widely adopted in our field.”
“Developing a functional qubit control electronic system absorbs a PhD-student full time at least for two years. QM’S Quantum Orchestration Platform allowed us set up experiments for full qubit characterization in 2-3 days with an undergraduate summer school student.”
“Efficiently controlling multiple frequency-tunable transmon qubits can be achieved with QM's OPX and QDevil's QDAC. QDAC's high-precision and low-noise bias voltage ensures accurate qubit frequency control without compromising coherence times, while QM's OPX offers advanced control solutions that are user-friendly and require minimal technical expertise. I highly recommend using OPX and QDAC together to streamline your lab processes and advance your quantum computing research.”
“We have integrated the Quantum Machines OPX control system with our cold atoms quantum computer at University of Wisconsin-Madison. The integration was completed rapidly, thanks in part to knowledgeable support from Quantum Machines engineers. The flexibility of the OPX for generating complex signals has been instrumental in our ongoing work advancing the performance of neutral atom qubit systems.”
“QOP is our main tool when doing error correction. It provides us with very fast feedback. It enabled us to perform advanced procedures … in a very short time. We could just purchase the technology that is tailor-made for… that we want to use.”
“We are very pleased with the Quantum Orchestration Platform (QOP) control solution. It’s remarkably easy to use, reliable, and flexible, supporting our advanced quantum research needs. The QOP dramatically expedites our research. The Quantum Machines customer success team has been instrumental in addressing all our needs to help us to maximize the full potential of the solution. We already use two systems and strongly recommend it.”
“The quantum orchestration platform (QOP) platform completely changed the way we control semiconductor quantum dot spin qubits. Key qubit control schemes we previously developed individually using time-consuming hardware description languages are now easily implemented in one box.”
“Integrating the control of the lab into a single unit made my research experience much easier. I can honestly say it is thanks to Quantum Machines’ well-engineered hardware and their team's true willingness to assist.”
“The OPX makes it a breeze to develop from scratch a brand-new superconducting qubit capability. Getting started is straightforward, the coding is easy, and the customer support is fantastic! The OPX reduces the potential barrier to progress and is also well suited for teaching.”
“Replacing three devices with one synchronized, orchestrated machine tremendously simplified lab workflow. Now our pulse sequences run in a fraction of the time of any other device combo. Plus, we can “talk” to the FPGA in human-speak, to run real-time calculations that were too complicated before! Along with the yoga-level.”
“The first time I was introduced to Quantum Machines, It surprised me how people were getting so excited about it. Only later did I realize, it was like explaining the value of a Laser before it existed, and all you knew are light bulbs. Today I truly believe that these systems will revolutionize our space.”
“Within only two days of unboxing the OPX and Octave, we were running randomized benchmarking, active reset, state tomography, and all the routine qubit control protocols. This was simply incredible. Furthermore, the easy-to-use QUA language allowed us to implement our pulse sequences in minutes. As a startup, speed of progress is a crucial element of our success. With QM, we are confident to accelerate our development and achieve results in days instead of months or even years.”
“Having tried several instruments in the past, I am very impressed by Quantum Machines' OPX. It finally removes the need for us to develop any skills in FPGA programming while still benefiting from advanced FPGA capabilities in our experiments.”
“Dedicated hardware for controlling and operating quantum bits is something we have all been dreaming of. Quantum Machines has answered this call by allowing us and others in the field to scale up with ease and with far greater functionality than was ever possible before.”
“With the OPX we were able to reduce the cost of infrastructure development from a few weeks to a few days, without any need to directly program the FPGA.”
“I must say I'm very happy with QM's Quantum Orchestration Platform. It's the single most reliable piece of equipment I've got in the lab. I operate it remotely and never had any problems. I strongly recommend the OPX and the QOP to my colleagues. It is by far the simplest way to do qubit physics.”
“It is a pleasure to work with Quantum Machines, which results in enjoyable interactions and a fast pace to getting actual results. The Quantum Orchestration Platform (QOP) has been easy to use and very powerful, but we are still just scratching the surface of its full capabilities!”
“The OPX+ has allowed us to tune up complex multi-qubit measurements with multiplexed control and readout signals for studying quasiparticle poisoning and correlated errors in superconducting qubit arrays. The on-board processing has been quite useful for analyzing qubit data streams on the fly.”
With dynamic parametric pulse programming, real-time feedback, classic math functions, flow control, and Qiskit/OpenQASM 3.0 integration, QUA is a powerful Python-embedded pulse-level language for easily coding quantum algorithms.
Auto-calibrated IQ mixing and local oscillator system for up/down- conversion, extending the OPX+ range to 18GHz.
FPGA-based controller for real-time quantum sequences, offering the lowest analog feedback latency and the shortest runtimes.
Ultra-low-noise 24-channel DAC, up to 25-bit resolution and 1 MS/s, for DC and low-frequency control.
Ultra-low-noise 24-channel DAC in a single rack unit, up to 25-bit resolution and 1 MS/s, for DC and low-frequency control.
Non-magnetic sample holder for quantum electronics, with 48 RC-filtered low-frequency lines and 16 RF lines with bias tees.
Compact multi-stage low-pass cryogenic filter ensuring millikelvin electron temperature in 24 lines simultaneously.
Sample holder for microwave resonator-based quantum devices, allowing high-fidelity operation of tens of qubits up to 18 GHz.
Best in class control platform with unmatched channel density, easily expandable to control even the largest quantum processors available
Remote-controlled breakout box of any 24-pin Fischer connector lines to 8 BNC lines
Best-in-class and field-proven room temperature quantum control systems for a wide range of qubit technologies and any QPU size.
Sample holders and multi-stage filters; compact and ultra-low noise to ensure the highest fidelity.
Powerful pulse-level programming and out-of-the-box workflow libraries ensure the highest fidelity and save significant development time.
Superconducting
With the OPX as your quantum controller, there’s no limit to the experiments you can run. Find out how to supercharge your superconducting qubits research with these real-world use cases.
Defect Centers and Optically Addressable
Find out how you can leverage QM’s advanced quantum control capabilities to perform groundbreaking experiments with defect centers and optically addressable qubits.
Quantum Dots
With the cutting-edge control capabilities of the OPX, you can push your quantum dots and spin qubit research to a new level. Click here to read these real-world use cases.
Neutral Atoms
Discover a robust way to arrange, control, and experiment with neutral atoms using the OPX and QUA with this in-depth use case.
We support any existing qubit processor and quantum device, from millikelvin to room temperature.
Active Reset: Fast Feedback, Dynamic Decisions, and Trying ‘Til You Get It Right
How to Dramatically Increase the Initialization Fidelity of Your Qubits with QUA
Fullstack Quantum Compilation: Mind the Pulse Gap
We help experimentalists like yourself in 100s of leading labs worldwide make breakthroughs in quantum research.
Shortest development cycle, maximum uptime, and highest fidelity with a quantum control stack optimal for large quantum computers.
Have a specific experiment in mind and wondering about the best quantum control and electronics setup?
Want to see what our quantum control and cryogenic electronics solutions can do for your qubits?