Latest Articles for Energy Efficiency

Exploring how ferrimagnetic Weyl semimetals control electron spins for future technology.

A look into how beam lattices influence wave behavior and energy harvesting.

A smarter system reduces fuel use and emissions in refrigerated truck trailers.

CARAML offers a new way to assess AI hardware efficiency in machine learning tasks.

Machine learning refines predictions for gas turbine performance and efficiency.

Exploring low-power spintronic neurons for efficient AI computing.

A method to generate synthetic data for few-shot learning in reinforcement learning.

Research reveals efficient control of NV centers using magnetoelastic waves.

This study explores light's impact on bilayer graphene's thermoelectric efficiency.

A look at FIFO and Round Robin scheduling methods in computing systems.

A method to enhance particle searches by minimizing energy costs and time.

Optimizing interconnected energy systems reduces carbon emissions in modern buildings.

Lowering calculation precision without losing accuracy using R2F2 technology.

A new method enhances federated learning by reducing data transmission and energy usage.

A new method enhances SNN performance while saving energy through weight compression.

Selenium shows potential for improving solar cell efficiency and performance.

A tool to analyze energy use by computer programs.

A new algorithm reduces energy consumption in computer vision applications.

A fresh look at how erasing information may not always mean energy loss.

C-sync improves time sync efficiency and fault resilience in IoT networks.

Examining energy-saving strategies in mobile networks with Open RAN and reinforcement learning.

A new framework improves neural networks for devices with limited resources.

Researchers aim to identify new superconductors using binary hydrides.

Examining methods to optimize sparse matrix-vector multiplications for energy savings.

New tool ODiMO improves DNN performance on edge hardware.

TFETs offer a new approach to efficiency in electronics.

A new approach helps satellites reduce battery usage and extend lifespan.

This study examines the electronic behavior of BiSb thin films and their applications.

This article explores new methods to make language models faster and more energy-efficient.

Exploring the behavior of double quantum dots in thermoelectric applications.

The Duke Humanoid aims to mimic human walking using less energy.

Research highlights the tunable properties of MAPb(I Br) for solar energy applications.

Study reveals the efficiency of memristors for advanced computing tasks.

Optimizing DNNs with power-of-two quantization for resource-limited devices.

Combining CPUs and GPUs enhances computation speed and reduces energy use.

Exploring symbolic neural networks for smarter energy-efficient buildings.

A new method reduces energy use in single-photon cameras while maintaining image quality.

A new model mimics brain learning to improve task adaptation in AI.

This article discusses bistable beams and their potential shape-changing techniques using vibrations.

Exploring new methods to optimize massive MIMO systems using low-resolution ADCs to improve performance.