By Tabor Electronics
Exploring the advancements in quantum computing through the utilization of commercial off-the-shelf technology.
The Evolution of Quantum Computing Technology
Quantum computing is reaching an inflection point. Previously confined to experimental labs, it is now being propelled by large-scale industrial companies. The adoption of superconducting quantum processing units (QPUs), FPGA-based microwave synthesis electronics, and ultra-low-temperature refrigerators has led to the development of commercial turn-key, full-stack quantum systems. This represents a significant shift in quantum computing.
Benefits of Utilizing Commercial Off-the-Shelf Technology
Using flexible and commercially available technology has transformed quantum computing from a niche field to a more broadly accessible technology. It facilitates rapid testing and characterization of qubit systems, dramatically cutting costs and timelines and propelling technological advancements. Full-stack quantum systems built from industry-proven parts & hardware offer user-friendly operation, top performance, and cost efficiency, merging the latest breakthroughs into dependable systems.
Collaboration between Tabor Quantum Systems and FormFactor
Tabor Quantum Systems and FormFactor have collaborated on the development of a Quantum Computer utilizing COTS. Their collaboration has resulted in the creation of a superconducting quantum processing unit (QPU) known as the QuantWare 5-qubit QPU.
The collaboration also involved the integration of the QuantWare Soprano QPU into a LF-600 dilution refrigerator provided by FormFactor. The measurement and control of the system are performed using the Tabor Proteus P9484M-AWT PXI platform and Tabor's Qubit Characterization software. This collaboration highlights the successful integration of different components and systems to create a complete quantum computing solution.
Join Our Upcoming Webinar on Quantum Computing Advances
To delve deeper in we invite you to join our upcoming webinar, "How to build a Quantum Computer" This event is an excellent opportunity for both newcomers and seasoned professionals to explore the cutting-edge developments and practical applications of quantum computing technologies in various industries.
During the webinar, experts from Tabor Electronics and FormFactor will go into detail of the system architecture and show the results of qubit characterization in the following sections:
-Why we did it and how you can now benefit from it
-Components and Systems Selection
-Control and Measurement
-Results and Specifications
Register Now:
System Architecture and Qubit Characterization
The design of the quantum computer developed by Tabor Quantum Systems and FormFactor is centered around the QuantWare 5-qubit QPU, housed within a LF-600 dilution refrigerator to ensure ultra-low-temperature operation. The Tabor Proteus P9484M-AWT PXI platform provides the measurement and control capabilities, enabling effective characterization and testing of the qubit systems.
Future Implications of Full-Stack Quantum Systems
The design of the quantum computer developed by Tabor Quantum Systems and FormFactor is centered around the QuantWare 5-qubit QPU, housed within a LF-600 dilution refrigerator to ensure ultra-low-temperature operation. The Tabor Proteus P9484M-AWT PXI platform provides the measurement and control capabilities, enabling effective characterization and testing of the qubit systems.