Latest Articles for High-Performance Computing

The ATLAS Google Project examines cloud resources for data analysis in particle physics.

Combining AI and HPC enhances simulations for scientific research.

This article discusses application performance issues in Dragonfly+ network systems.

New methods boost particle interaction calculations using Graphics Processing Units.

This article discusses the role of GPUs in simulating complex multiphase flows.

New framework enhances energy use monitoring in FaaS systems for better efficiency.

Exploring the latest methods for simulating quantum circuits using high-performance computing.

Hiperwalk aids researchers in simulating quantum walks on complex graphs, enhancing quantum studies.

A new system improves GPU thread management for better performance.

A new format simplifies data storage and analysis for high-throughput microscopy.

vTensor optimizes memory for high-performance computing tasks.

This article examines the link between cosmic rays and memory errors in computers.

A new method reduces wasted time from memory errors in computing.

This study enhances TDDFT calculations using multiple GPUs for larger molecular systems.

A novel approach to checkpointing in MPI enhances efficiency and eases usage.

Tapis enhances job scheduling by predicting wait times for faster results.

A guide for developers on memory power usage in high-performance computing.

HiCCL improves communication efficiency between GPUs in high-performance computing systems.

A method for simulating fluid flow in complex environments.

Enhancing data processing speeds in high-performance Particle-in-Cell simulations.

A study on improving GPU efficiency through targeted optimization techniques.

Enhancing OpenMP testing through CI/CD for better software performance.

Exploring communication methods within multi-GPU supercomputers for enhanced performance.

A comprehensive tool for evaluating high-performance computing systems.

Analyzing energy consumption in supercomputers for enhanced efficiency.

This article examines how Coarray and CUDA Fortran integration enhances computing performance.

MC/DC software enhances neutron transport simulations for better accuracy and efficiency.

Exploring the shift toward GPU-centered methods for better computing performance.

Domino improves training speed of language models by optimizing communication between GPUs.

A tool to analyze energy use by computer programs.

miniLB offers an easier way to assess LBM simulations across various hardware systems.

DAOS offers efficient data management for high-performance computing environments.

A new framework aims to optimize job management in cloud and HPC environments.

Intel SHMEM enhances GPU communication, enabling efficient high-performance applications.

A new framework streamlines FPGA programming, making it more accessible for developers.

Silent errors pose risks in large computations, impacting accuracy in algorithms.

Scientists enhance nuclear fusion research through adaptable computing frameworks.

Grouping messages improves efficiency in modern computing.

GPUVM enhances GPU memory management for faster data processing.

PyQUDA simplifies lattice QCD calculations using Python, enhancing productivity for researchers.