As the end of Moore’s law draws near, quantum technology provides the means to achieve breakthroughs in computing. The unique properties of superposition and entanglement enable previously unimagined performance in quantum applications like computing, communications, and sensing. As quantum research enters this new phase in physics and mathematics, you can use engineering to build real systems.
Quantum computing uses the properties of quantum superposition and entanglement to solve previously unsolvable problems. Keysight’s qubit control solutions and precise measurement instrumentation enable researchers to engineer and scale superior systems.
Many quantum-mechanical platforms such as trapped ions, superconducting circuits, and silicon spins can physically realize a quantum two-level system, or qubit. Keysight’s broad solution portfolio includes control and measurement solutions for the leading qubit technologies:
- silicon spin
- trapped ion
Scaling Quantum Systems
The complexity of synchronizing multiple control signals rises as the number of qubits increases. Leveraging an open field-programmable gate array (FPGA) architecture, Keysight’s modular and scalable solutions provide flexibility and low latency while optimizing cost and space.
Labber offers a complete, yet easy-to-use solution for instrument control and lab automation. Our software helps the quantum scientist or engineer maximize their experimental potential. Realize faster results with simple experimental set-up, intuitive visualization of results, and the efficient organization of collected data.
Quantum Benchmark - True-Q
Quantum Benchmark offers an essential software layer for both makers and users of quantum computers to turbocharge the runtime performance of error-prone quantum computers.
True-Q software tools deliver run-time error suppression, error-aware compilation, error diagnostics, and optimization to dramatically improve quantum hardware performance.
The software solves the mission-critical challenge of confirming if quantum hardware will execute a user-supplied algorithm to a user-specified precision, delivering quantum advantage to its users. Quantum Benchmark builds proprietary technology based on years of research by several of the world’s leading experts in quantum computing.
Quantum Communication is a method of transmitting information using quantum mechanics principles. One of the key features of quantum communication is that it allows for the secure transmission of information. This is because any attempt to intercept or eavesdrop on the transmission would cause the quantum state to collapse, alerting both the sender and receiver to the breach in security.
Quantum communication can be achieved through various methods including quantum key distribution (QKD), quantum teleportation, and quantum entanglement. These techniques have potential in areas such as cryptography, secure communication, and quantum internet.
Quantum Sensing refers to using quantum mechanics principles to detect and measure physical properties with high precision and sensitivity. This is achieved using quantum systems, such as superconducting circuits, trapped ions, or nitrogen-vacancy centers in diamonds, which can exhibit quantum effects like entanglement or coherence. Quantum sensing has potential applications in fields such as metrology, navigation, and medical imaging.
Keysight EDA tools enable your team of quantum hardware engineers to streamline their workflow and accelerate the development of quantum chips using a cost-effective electromagnetic simulation approach based on the method of moments.
Quantum Science is no longer a niche research area. Billions of dollars are being invested worldwide to harness the potential of the technology to solve hard problems. This explosive growth fuels the need for a trained workforce of scientists, engineers, and technicians. As universities ramp up quantum courses, Keysight brings e-learning courses designed for engineers tasked with solving the challenges of quantum systems.
Keysight University offers classes focused on designing large quantum systems and solutions that solve the most common problems.
Keysight Quantum Engineering Solutions offers world-wide opportunities to connect and accelerate your quantum innovations.
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"My collaboration with Keysight and the Boulder Cryogenic Quantum Testbed has been instrumental in understanding the precision of microwave measurements at millikelvin temperatures. In just a little over a year, we've built a very effective collaboration at bringing high precision test and measurement techniques and calibrations to superconducting quantum systems."
Josh Mutus, Sr. Research Scientist, Google AI Quantum
"All quantum technologies require classical systems for control and readout. Keysight accelerates my research by providing the most advanced system, allowing my students to concentrate on what they are best at – that is science. As importantly, our close collaboration with Keysight ensures the products we develop together will enable next-generation experiments for the whole spin qubits community."
Prof. Michel Pioro-Ladrière, Institut quantique, Université de Sherbrooke
"The Quantum Engineering Toolkit from Keysight greatly helped us focus on quantum tech development rather than control hardware. It led us to rapidly kick-off our startup activities where we went from unpacking boxes to full qubit control in a few hours, literally!"
Dr. Julien Camirand Lemyre, President and CTO at Nord Quantique
"The Quantum Engineering Toolkit platform has proven to be a key instrument to benchmark SBQ’s quantum magnetometer electronics against state-of-the-art signal generators for quantum control. Through its tight integration with the Labber software, our testing and prototyping schedules have been shortened, while providing a simple platform for the quantum engineer's training. With quantum initialization, control, and readout schemes being only a click away, the QET has become our personal quantum engineering companion.”
Dr. David Roy-Guay, CEO at SBQuantum
“Montana Instruments’ collaboration with Keysight unlocks new capabilities for rapid, turn-key characterization of low-temperature components and devices that will enable our shared customer base to increase productivity, advancing both the science and applications of QIST.”Luke Mauritsen, Founder/CEO at Montana Instruments
"Keysight’s team has been invaluable for helping Bluefors in our efforts to qualify cryogenic measurement infrastructure down to the microwave quantum limit."
Russell Lake, Technology Lead, Bluefors Oy
“Keysight’s Labber quantum software supported our team at Seeqc to rapidly realize quantum measurement capability, and in doing so enabled us to demonstrate state-of-the-art qubit performance based on our unique architecture within a couple of months of establishing our R&D labs.”
Matthew Hutchings, Chief Product Officer, Seeqc
"The Keysight quantum engineering team, with their deep domain knowledge, has been a vital FormFactor partner. We have worked together to use Keysight's Labber software to provide integrated and seamless control of our cryogenic wafer probe systems and cryostats, such as the HPD Shasta 106, as well as Keysight instrumentation. Together, we have delivered high-productivity, comprehensive, and easy-to-operate systems to help leading quantum hardware developers accelerate their innovations."
Mike Slessor, President and CEO, FormFactor
“Our collaboration with Keysight resulted in generating device models for cryo-CMOS devices that significantly improved our understanding of experimental cryo-CMOS circuit behavior and will definitely improve the design time and the reliability of our future cryo-CMOS circuits.”
Prof. Fabio Sebastiano, TU Delft
"Joint work between Quantum Benchmark and the Advanced Quantum Testbed at Berkeley Lab, leveraging the expertise of the teams, has led to a dramatic improvement in the area of quantum control. Stacking the error suppression tools in advanced compilers with additional error mitigation strategies leads to significant performance enhancements for quantum applications."
Dr. Irfan Siddiqi, Director, Advanced Quantum Testbed, Lawrence Berkeley National Laboratory