Quobly Forges Strategic Collaboration with STMicroelectronics to Accelerate its Quantum Processor Manufacturing for Large-Scale Quantum Computing Solutions
Quobly Names its Scientific Advisory Board Variability of28nm FD-SOI transistors is evaluated for the first time down to ultra low temperatures (UL T), at T= 1 00mK. High performance is achieved at UL T for short channel transistors, with and IOFF below the equipment accuracy <; 1 fA, in particular by keeping advantage of forward back biasing (FBB), with the same efficiency from room temperature (R T) down to 100mK.
France invites Quobly to participate in Proqcima Variability of28nm FD-SOI transistors is evaluated for the first time down to ultra low temperatures (UL T), at T= 1 00mK. High performance is achieved at UL T for short channel transistors, with and IOFF below the equipment accuracy <; 1 fA, in particular by keeping advantage of forward back biasing (FBB), with the same efficiency from room temperature (R T) down to 100mK.
Quobly wins €2.5 million EIC grant to develop FD-SOI quantum processor demonstrator Quobly (formerly Siquance) completed its first funding round of €19 million. The startup is developing a fault-tolerant quantum processor to power a universal quantum computer.
Quobly raises €19 million Quobly (formerly Siquance) completed its first funding round of €19 million. The startup is developing a fault-tolerant quantum processor to power a universal quantum computer.
