For the non-stop demands for a better and smarter society, the number of electronic devices
keeps increasing exponentially; and the computation power, communication data rate, smart …

A scalable, non-multiplexed cryogenic 14-nm FinFET quantum bit (qubit) state controller
(QSC) for use in the semi-autonomous control of superconducting transmon qubits is …

This article presents a cryo-CMOS quantum controller IC for superconducting qubits. The
proposed globally synchronized clock system internally generates different local oscillator …

Quantum computing is poised to solve practically useful problems which are computationally
intractable for classical supercomputers. However, the current generation of quantum …

Over the past decade, significant progress in quantum technologies has been made, and
hence, engineering of these systems has become an important research area. Many …

Qubit control electronics composed of CMOS circuits are of critical interest for next-
generation quantum computing systems. A CMOS-based application-specific integrated …

In today's mainstream superconducting quantum computing platforms in a dilution
refrigerator, the qubits work at a cryogenic temperature (CT) of a few tens of mK, while the …

This article presents a two-times interleaved, loop-unrolled SAR analog-to-digital converter
(ADC) operational from 300 down to 4.2 K. The 6–8-bit resolution and the sampling speed …

While large-scale fault-tolerant quantum computers promise to enable the solution to certain
classes of problems for which no other efficient approach is known, such a machine is …

Today's hundred-qubit quantum computers require a dramatic scale up to millions of qubits
to become practical for solving real-world problems. Although a variety of qubit technologies …