Latest Articles for Computing

This article explores methods to enhance the reliability of research artifacts in computing.

Freya PAGE improves efficiency in distributed computing with uneven computer speeds.

A novel method enhances data sharing for efficient GNN training.

Edge computing and Near-Memory Computing are changing data processing dynamics.

A new method improves memory access for dynamic graph applications, boosting performance and efficiency.

Quantum computing offers new solutions for complex optimization challenges.

New methods for valleytronics using graphene and TMD materials show promise for future computing.

GPUs improve efficiency in solving nonlinear programming problems through innovative methods.

Discover the role of continuous variables in advancing quantum technology.

Samsara improves reliability and security in hardware accelerators, ensuring efficient computing.

A new instruction set boosts performance in data streaming tasks.

A new method to improve machine learning training with diverse data.

Exploring the dynamics of centralized and decentralized learning methods.

Optimizing memory management for better performance in embedded systems.

A study examining the impact of honor pledges on cheating in programming assignments.

Study reveals how holes in WSe₂ can enhance quantum devices.

LLload makes it easier to track job performance on HPC systems.

Combining pruning and quantization streamlines DNN efficiency for smaller devices.

Coded computing offers a fresh approach to optimize server efficiency.

DRLQ enhances task assignment for quantum resources, boosting efficiency in cloud computing.

A new system speeds up image creation while maintaining quality.

A new approach to quantum compilation using reinforcement learning shows promise for effective quantum operations.

New tools improve efficiency using lower precision in computations for research.

A new method estimates the quality of entangled states in quantum technology.

Research highlights the impact of oxygen vacancies on memristive device performance.

New model simplifies Human Activity Recognition using standard devices.

RRAM technology offers unique properties for data storage and computing.

Exploring energy-efficient computing through superconducting circuits and reversible logic.

RealMLP enhances machine learning efficiency for tabular data analysis.

Examining the role of dropout techniques in improving fairness in DNNs.

Combining classical and quantum computing to improve fluid dynamics simulations.

A new method to manage workloads efficiently by optimizing core usage.

This guide outlines a systematic approach to developing quantum software.

A new oscillator design improves performance and stability for future communication technologies.

Recent developments improve speed and efficiency in quantum circuit simulations.

Exploring quantum computing's impact on financial derivatives and the Black-Scholes model.

Research on Rydberg atoms aims to transform quantum communication and computing.

Research on spin waves opens new paths in technology and materials science.

This paper analyzes the importance of auto-tuning for AMD GPUs in high-performance computing.

Exploring the integration of quantum computing into machine learning for improved performance.