Abstract: High-speed ADCs are critical in applications spanning from wideband wireless communication to ultra-high-speed wireline and optical links, but achieving rapid operation poses unique design ...

A cross-institutional team led by researchers from the Department of Electrical and Electronic Engineering (EEE), under the Faculty of Engineering at The University of Hong Kong (HKU), have achieved a ...

A Nature paper describes an innovative analog in-memory computing (IMC) architecture tailored for the attention mechanism in large language models (LLMs). They want to drastically reduce latency and ...

Analog computing stands apart from digital systems in some interesting ways. Instead of crunching numbers through step-by-step algorithms and binary logic, analog computers model problems by ...

Many noise sources can plague high-speed radio-frequency (RF) analog signal chains, making design considerations that much more challenging. Both megahertz and sub-terahertz sampling-rate converters ...

Capturing memories on Mini VHS tapes was common before digital recording became widespread. These small tapes hold personal videos that can deteriorate over time, making it important to preserve them ...

A digital-to-analog converter (DAC) transforms digital binary data into an analog signal using weighted contributions from each bit. In this FAQ, we discuss the two most commonly known ways of DAC ...

Abstract: The performance of modern analog-to-digital converters is often limited by the circuitry surrounding them. This tutorial explains how we measure analog-to-digital converters to ensure that ...

Resolution is key in maximizing the performance of an analog-to-digital converter (ADC). But here comes the rub: resolution of an ADC comes with a specific voltage reference. So, what if design ...