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 …

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 …

Voltage-controlled Oscillator (VCO) is a prominent part that has been used to generate a
stable frequency for the high-frequency transceiver system. This survey encompasses a …

This article presents a 4-to-5GHz LC oscillator operating at 4.2 K for quantum computing
applications. The phase noise (PN) specification of the oscillator is derived based on the …

A universal fault-tolerant quantum computer will require large-scale control systems that can
realize all the waveforms required to implement a gateset that is universal for quantum …

This article will review recent progress in cryogenic CMOS designs for future scaled
quantum computing applications. After introducing the scaling challenges associated with …

Recently, physical quantum-bits (Qubits) have achieved a remarkable operational fidelity>
99.9% and a coherence time ranging from milliseconds to seconds with classic quantum …

This paper analyzes the performance requirements that need to be met by a clock generator
applied to a low-temperature quantum computer and analyzes the negative effects on the …

Design, simulation, analysis and verification methodologies are crucial for developing
electronic circuits and systems at large. Whereas long-standing EDA software is used in the …

This brief presents a brief overview of cryogenic CMOS circuits for large-scale quantum
computing, especially the cryogenic RF circuits from the functional blocks to system-level …