Photo by Anukrati Omar on Unsplash
Seeqc is joined in this first-of-its-kind award by its partner in the project, NY CREATES, a world-leading R&D, innovation hub and commercialization facilitator in advanced digital, analog and power technologies.
Bridging the Gaps Between Academics and Industry
The Air Force awarded Seeqc’s proposal, “Highly Manufacturable Fluxonium Qubits at 300mm Wafer Scale,” which outlines the necessary and repeatable industrial processes needed to manufacture fluxonium qubits. Fluxonium qubits are superconducting qubits that utilize Josephson junctions, have longer quantum coherence and are advantageous for building high fidelity circuits with large numbers of qubits.
In the first phase of the project, Seeqc will develop circuit designs that leverage the superconducting qubit fabrication processes being developed by NY CREATES professionals. The company and NY CREATES will work hand-in-hand during Phase I to establish the design and process parameters required to fabricate fluxonium qubits on 300 mm silicon wafers using state-of-the-art tools at the NY CREATES fab in Albany, NY. Once the team has completed that first phase and demonstrated feasibility, they will proceed with a second phase to demonstrate manufacturability of the qubits at 300mm scale.
NY CREATES professionals have an established history in quantum, and were recently in the news having developed the first ever fully integrated 300mm quantum photonic wafer for AFRL and AIM Photonics, the National Integrated Photonics Manufacturing Initiative.
“There are only a handful of facilities in the world with the capabilities necessary to produce fluxonium qubits, so our partnership with NY CREATES was a natural fit for this project,” said Oleg Mukhanov Ph.D. co-founder and co-CEO of Seeqc. “The AFRL award and ensuing project will serve as a proof-of-concept for our eventual goal of producing fluxonium qubits cost-efficiently and at scale. By nature, these qubits can benefit all quantum applications with improved controllability and fidelity.”
”This STTR partnership is an example of how NY CREATES is engaging with innovative companies such as Seeqc, and with AFRL Rome, to make New York State the natural home for emerging quantum technologies”, said Douglas Grose, Ph.D., President of NY CREATES. “By ensuring that we are at the forefront of emerging technology development, we can plant the seeds for long-term economic development in the decades ahead”, he added.
Advancing Digital Quantum Computing and National Security Initiatives
The Air Force’s $5.25 million quantum collider program is designed to accelerate quantum enabling technologies that will eventually play a pivotal role in national defense. This vital research will support Seeqc’s goal of developing a new approach to making quantum computing useful, via fully digital quantum computing.
Seeqc’s solution combines classical and quantum computing to form an all-digital architecture through a system-on-a-chip design that utilizes 10-40 GHz superconductive classical Single Flux Quantum (SFQ) co-processing to address the efficiency, stability and cost issues endemic to quantum computing systems.
Seeqc recently spun out of HYPRES, Inc., the world’s leading developer of superconductor electronics, to pursue a vision of making quantum computing useful, commercially and at scale.
Bridging the Gaps Between Academics and Industry
The Air Force awarded Seeqc’s proposal, “Highly Manufacturable Fluxonium Qubits at 300mm Wafer Scale,” which outlines the necessary and repeatable industrial processes needed to manufacture fluxonium qubits. Fluxonium qubits are superconducting qubits that utilize Josephson junctions, have longer quantum coherence and are advantageous for building high fidelity circuits with large numbers of qubits.
In the first phase of the project, Seeqc will develop circuit designs that leverage the superconducting qubit fabrication processes being developed by NY CREATES professionals. The company and NY CREATES will work hand-in-hand during Phase I to establish the design and process parameters required to fabricate fluxonium qubits on 300 mm silicon wafers using state-of-the-art tools at the NY CREATES fab in Albany, NY. Once the team has completed that first phase and demonstrated feasibility, they will proceed with a second phase to demonstrate manufacturability of the qubits at 300mm scale.
NY CREATES professionals have an established history in quantum, and were recently in the news having developed the first ever fully integrated 300mm quantum photonic wafer for AFRL and AIM Photonics, the National Integrated Photonics Manufacturing Initiative.
“There are only a handful of facilities in the world with the capabilities necessary to produce fluxonium qubits, so our partnership with NY CREATES was a natural fit for this project,” said Oleg Mukhanov Ph.D. co-founder and co-CEO of Seeqc. “The AFRL award and ensuing project will serve as a proof-of-concept for our eventual goal of producing fluxonium qubits cost-efficiently and at scale. By nature, these qubits can benefit all quantum applications with improved controllability and fidelity.”
”This STTR partnership is an example of how NY CREATES is engaging with innovative companies such as Seeqc, and with AFRL Rome, to make New York State the natural home for emerging quantum technologies”, said Douglas Grose, Ph.D., President of NY CREATES. “By ensuring that we are at the forefront of emerging technology development, we can plant the seeds for long-term economic development in the decades ahead”, he added.
Advancing Digital Quantum Computing and National Security Initiatives
The Air Force’s $5.25 million quantum collider program is designed to accelerate quantum enabling technologies that will eventually play a pivotal role in national defense. This vital research will support Seeqc’s goal of developing a new approach to making quantum computing useful, via fully digital quantum computing.
Seeqc’s solution combines classical and quantum computing to form an all-digital architecture through a system-on-a-chip design that utilizes 10-40 GHz superconductive classical Single Flux Quantum (SFQ) co-processing to address the efficiency, stability and cost issues endemic to quantum computing systems.
Seeqc recently spun out of HYPRES, Inc., the world’s leading developer of superconductor electronics, to pursue a vision of making quantum computing useful, commercially and at scale.