Latest Articles for Computing

Overview of edge-to-cloud tools and their applications.

Researchers develop methods for predictable magnetization, enhancing future computing technologies.

Learn how dual-threaded processors enhance performance in various applications.

A new approach to computing that prioritizes energy savings over strict accuracy.

A new method enhances the analysis of multi-trace properties in computing systems.

Investigating the link between entanglement and discord using partial transposition.

New training method enhances hyperdimensional computing performance by integrating confidence levels.

Memory-centric computing changes data processing by moving computation closer to data storage.

Investigating the stability and decay of edge zero modes in the transverse field Ising model.

Improving language recognition with smaller, faster models for real-world applications.

DVFO enhances energy efficiency and processing speed for edge devices in IoT.

Creating smaller, effective language models tailored for specific language pairs.

GiPH improves task placement across devices for better performance.

Disaggregated memory systems optimize resource usage in high-performance computing environments.

Exploring the intersection of quantum computing and machine learning advancements.

Quantum learning merges quantum mechanics and machine learning to reshape computing systems.

JOSS optimizes energy use in task-based applications by considering CPU and memory together.

A guide on the transitions of energy levels in quantum systems.

Exploring the significance of quantum states and their operations in modern technology.

This article examines how D-SGD maintains generalization across different communication structures.

New methods improve the verification of concurrent programs, addressing path explosion challenges.

Exploring efficient methods for creating winning strategies in two-player games.

A novel configuration addresses amplitude issues in spin simulations using optical cavities.

Combining model parallelism and memory swapping to efficiently serve large models.

New methods enhance MPI Alltoallv communication for improved FFT performance.

Examining the challenge of energy use and carbon impact in computing.

New language models improve text compression methods for better storage and faster transfer.

Using machine learning to predict failures in high-performance computing jobs.

Learn about quantum computing, its concepts, and its potential impact on various industries.

A look into spin wave technology and its potential applications.

A new method focuses on reducing energy costs in multi-processor scheduling.

A new approach improves performance in diverse computing systems.

A look into pipelining's benefits and challenges in molecular mechanical circuits.

Proteinoid microspheres offer unique properties for computing and medicine.

New technology mimics brain functions using memristive nanopores for advanced memory systems.

A look into how quantum mechanics transforms information processing.

Researchers developed an efficient way to create entangled photons using quantum dots.

Research on vortex STOs shows promise for advanced computing using chaotic dynamics.

A new method enhances estimation of quantum state usefulness with limited data.

Phase binarized oscillators show potential for solving optimization problems faster than quantum methods.