We present a digital cell library optimized for 4.2 K to create controllers that keep quantum processors coherent and entangled. The library, implemented on a standard 40-nm CMOS technology, was employed in the creation of the first 4.2 K RISC-V processor. It has achieved a minimum supply voltage of 590 mV, energy-delay product of 37 fJ/MHz, and maximum operating frequency of 740 MHz, all at 4.2 K in continuous operation. These results have been obtained from stand-alone characterization, successfully executing small C programs/benchmarks at 4.2 K. The overall performance of the library compares well against the state-of-the-art libraries designed for room temperature. In particular, we compared the performance of the proposed library again...
Accurate and low-noise generation and amplification of microwave signals are required for the manipu...
Cryogenic CMOS (cryo-CMOS) is a viable technology for the control interface of the large-scale quant...
This paper presents the first experimental investigation and physical discussion of the cryogenic be...
With the advances towards a quantum computer incorporating many qubits, the demand for a scalable re...
A fault-tolerant quantum computer with millions of quantum bits (qubits) requires massive yet very p...
Quantum computers hold the promise to solve some of the most complex problems of today. The core of ...
Quantum computers1 could revolutionize computing in a profound way due to the massive speedup they p...
Recent advances in solid-state qubit technology are paving the way to fault-tolerant quantum computi...
CMOS circuits operating at cryogenic temperature (cryo-CMOS) are required in several low-temperature...
Quantum computing is a research field of increasing attention and popularity, which has steadily gai...
The Central Institute for Electronic Systems at Forschungszentrum Jülich develops, designs and tests...
This article presents the first cryogenic phase-locked loop (PLL) operating at 4.2 K. The PLL is des...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
We report on our systems engineering activities concerning cryogenic CMOS electronics as building bl...
The implementation of a classical control infrastructure for large-scale quantum computers is challe...
Accurate and low-noise generation and amplification of microwave signals are required for the manipu...
Cryogenic CMOS (cryo-CMOS) is a viable technology for the control interface of the large-scale quant...
This paper presents the first experimental investigation and physical discussion of the cryogenic be...
With the advances towards a quantum computer incorporating many qubits, the demand for a scalable re...
A fault-tolerant quantum computer with millions of quantum bits (qubits) requires massive yet very p...
Quantum computers hold the promise to solve some of the most complex problems of today. The core of ...
Quantum computers1 could revolutionize computing in a profound way due to the massive speedup they p...
Recent advances in solid-state qubit technology are paving the way to fault-tolerant quantum computi...
CMOS circuits operating at cryogenic temperature (cryo-CMOS) are required in several low-temperature...
Quantum computing is a research field of increasing attention and popularity, which has steadily gai...
The Central Institute for Electronic Systems at Forschungszentrum Jülich develops, designs and tests...
This article presents the first cryogenic phase-locked loop (PLL) operating at 4.2 K. The PLL is des...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
We report on our systems engineering activities concerning cryogenic CMOS electronics as building bl...
The implementation of a classical control infrastructure for large-scale quantum computers is challe...
Accurate and low-noise generation and amplification of microwave signals are required for the manipu...
Cryogenic CMOS (cryo-CMOS) is a viable technology for the control interface of the large-scale quant...
This paper presents the first experimental investigation and physical discussion of the cryogenic be...