Ferromon press realise
Event Date
TBD
Event Duration
2 Hours
The FERROMON project has been selected and supported by the EU as one of the Pathfinder projects in the field of quantum computation. With its Pathfinder programme, the EIC supports the exploration of bold ideas for radically new technologies. With this spirit, the FERROMON Consortium, composed of the University of Napoli, the Niels Bohr Institute in Copenhagen, and the three leading companies Quantware, Qblox, and QuantrolOx, brings together quantum technologists and researchers with the following question:
1. Can we design novel superconducting qubits with more attractive scalability
profiles?
2. And can we accelerate their development with automated bring-up characterizationand testing using the best of today’s industrial-grade quantum technology?
FERROMON will provide European scientific and industrial communities with a novel
building block to develop quantum computers based on a new kind of superconducting qubit. In FERROMON project we will use both tunnel ferromagnetic Josephson junctions and semiconducting nanowire junctions to replace the traditional Josephson Junctions to form transmon-based quantum processors with enhanced functionalities in terms of control and scalability. We expect this to contribute to solve at least four of the most prominent problems in current state-of-the-art implementations of superconducting circuits:
(1) Connectivity and related heat load,
(2) Low two-qubit gate fidelity,
(3) Drifting calibration parameters and
(4) Instability in qubit frequency.
FERROMON based systems have a significantly improved scalability potential compared to the current state-of-the-art solutions thanks to reduction of needed control lines, which will entice major players in the deep tech sector to fund additional research and development. FERROMON will create a significant, long-lasting effect on quantum technologies in both Europe and worldwide by revolutionizing how superconducting based quantum computers are built. Moreover, FERROMON based quantum computers will require less resources and consume less energy with respect to current superconducting based quantum computing platforms which aligns perfectly with goals of the European sustainable development and green deal.
Future FERROMON based quantum computing platforms will provide easier modularity (less cabling) and higher energy efficiency (less current density) which will work together to reduce costs and boost profits.
About event Partners
Event partners
About University of Napoli Federico II
About Niels Bohr Institute
At the Niels Bohr Institute, we research and teach within a broad spectrum of physics areas, including materials science, experimental solid-state physics, quantum nanoelectronics, and superconducting qubit experiments with close ties to a strong theory department as well as long-standing collaborations with industry. The synergetic combination of different disciplines provides a vibrant scientific environment with cutting-edge research.
Find out more at www.nbi.ku.dk/english
About Qblox
Qblox is a leading provider of quantum control solutions, offering hardware and software solutions designed to optimize the performance and scalability of quantum computing systems. With a 90+ member strong team, Qblox continues to innovate platform-agnostic and scalable hardware and software to support operations on thousands of qubits.
Find out more at www.qblox.com
About Quantware
QuantWare is the leading supplier of quantum processors. QuantWare is striving to become the ‘Intel of quantum computing’, providing increasingly powerful and affordable quantum processors to organizations around the world and enabling them to build quantum computers for 1/10th the cost of competing solutions. Committed to an open architecture approach, QuantWare develops technology that will massively scale the number of qubits in a single processor, to create processors that can perform useful quantum computation in the near term.
Find out more at www.quantware.com
About QuantrolOx
QuantrolOx, an Oxford University spinout, is the developer of Quantum EDGE software for qubit, and quantum processor tune up automation. We envision a world where the bring-up, characterisation and testing or every qubit will be fully automated enabling quantum scientists to spend less time tuning qubits and more time on advancing quantum computing, thereby accelerating the path to practical quantum computers. Quantum EDGE integrates with major quantum hardware providers by building on open- architecture principles enabling organizations to select the best components for their quantum systems.
Find out more at www.quantrolox.com
