This article presents the first cryogenic phase-locked loop (PLL) operating at 4.2 K. The PLL is designed for the control system of scalable quantum computers. The specifications of PLL are derived from the required control fidelity for a single-qubit operation. By considering the benefits and challenges of cryogenic operation, a dedicated analog PLL structure is used so as to maintain high performance from 300 to 4.2 K. The PLL incorporates a dynamic-amplifier-based charge-domain sub-sampling phase detector (PD), which simultaneously achieves low phase noise (PN) and low reference spur, thanks to its high phase-detection gain and minimized periodic disturbances on the voltage-controlled oscillator (VCO) control. Fabricated in a 40-nm CMOS ...
The most promising quantum algorithms require quantum processors that host millions of quantum bits ...
Cryogenic CMOS (cryo-CMOS) is a viable technology for the control interface of the large-scale quant...
Accurate and low-noise generation and amplification of microwave signals are required for the manipu...
The availability of quantum microprocessors is mandatory, to efficiently run those quantum algorithm...
This article presents a 4-to-5GHz LC oscillator operating at 4.2K for quantum computing applications...
Low-power, low phase noise (PN) cryogenic frequency generation is required for the control electroni...
A fault-tolerant quantum computer with millions of quantum bits (qubits) requires massive yet very p...
his article presents a cryo-CMOS quantum controller IC for superconducting qubits. The proposed glob...
Recent advances in solid-state qubit technology are paving the way to fault-tolerant quantum computi...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
Quantum computers hold the promise to solve some of the most complex problems of today. The core of ...
We present a digital cell library optimized for 4.2 K to create controllers that keep quantum proces...
The implementation of a classical control infrastructure for large-scale quantum computers is challe...
The Central Institute for Electronic Systems at Forschungszentrum Jülich develops, designs and tests...
Quantum computers1 could revolutionize computing in a profound way due to the massive speedup they p...
The most promising quantum algorithms require quantum processors that host millions of quantum bits ...
Cryogenic CMOS (cryo-CMOS) is a viable technology for the control interface of the large-scale quant...
Accurate and low-noise generation and amplification of microwave signals are required for the manipu...
The availability of quantum microprocessors is mandatory, to efficiently run those quantum algorithm...
This article presents a 4-to-5GHz LC oscillator operating at 4.2K for quantum computing applications...
Low-power, low phase noise (PN) cryogenic frequency generation is required for the control electroni...
A fault-tolerant quantum computer with millions of quantum bits (qubits) requires massive yet very p...
his article presents a cryo-CMOS quantum controller IC for superconducting qubits. The proposed glob...
Recent advances in solid-state qubit technology are paving the way to fault-tolerant quantum computi...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
Quantum computers hold the promise to solve some of the most complex problems of today. The core of ...
We present a digital cell library optimized for 4.2 K to create controllers that keep quantum proces...
The implementation of a classical control infrastructure for large-scale quantum computers is challe...
The Central Institute for Electronic Systems at Forschungszentrum Jülich develops, designs and tests...
Quantum computers1 could revolutionize computing in a profound way due to the massive speedup they p...
The most promising quantum algorithms require quantum processors that host millions of quantum bits ...
Cryogenic CMOS (cryo-CMOS) is a viable technology for the control interface of the large-scale quant...
Accurate and low-noise generation and amplification of microwave signals are required for the manipu...