Enabling Next-Generation Sustainable Computing through Novel Multi-Valued-Logic Quantum Devices
As the demand for digital services grows, so does the need for data centres and transmission networks. Unfortunately, these data systems consume vast amounts of energy, resulting in nearly 1% of all energy-related greenhouse gas emissions. This project aims to invent novel quantum devices for highly energy-efficient computing that may help reduce the global digital […]
June 12, 2023
New device structure can improve the properties of integrated circuits towards low-power electronics
The development of a novel computational framework to investigate two-dimensional quantum material-based negative capacitance (NC) field-effect transistors (FETs) will enhance low-power electronics. “Mobile electronics, such as smartphones and laptops, rely on low-power electronic devices. Prioritizing lower power consumption in the design of these mobile electronics increases the usage time between charges and reduces the […]
April 17, 2023
Advanced microwave electronics enabling quantum technologies
Summary Superconducting quantum computers require quantum-limited measurements at microwave frequencies in order to implement error correction. Conventionally, this is accomplished using near quantum-limited Josephson Parametric Amplifiers (JPAs). The JPAs require bulky ferrite-based circulators that prevent on-chip integration of the amplifiers with the processor and take up the majority of space and cooling power in the […]
April 1, 2020
QuantumIon: an open-access quantum computing platform
Summary Trapped ions are one of the most advanced technologies for quantum computing, offering multi-qubit control in a universal quantum computing architecture and the ability to perform calculations with unprecedented precision. In this project we construct a shared trapped-ion quantum computing platform, QuantumIon, that will enable a broader and interdisciplinary scientific community to access an […]
September 9, 2019