Latest Articles for Computational Methods

A look at weight-averaged model-merging and its impact on deep learning performance.

A look at computational methods in category theory and their applications.

A method to fix measurement errors in quantum computing, enhancing reliability.

A new method simplifies training for energy-efficient spiking neural networks.

A look at phase-field modeling and the importance of numerical stability in simulations.

A new method streamlines fitting experimental data for physicists.

New kernel improves Gaussian processes for accurate data predictions.

Learn how to uncover system behavior through data patterns and model identification.

An exploration of how CAMPS reduces entanglement in quantum spin chains.

This study presents a new method for calculating energy levels using the Dirac equation.

Discover how a new method speeds up image recognition.

New basis set vDZP offers quick and accurate results in quantum chemistry calculations.

Simplifying complex calculations in high-dimensional mathematics with a fresh cubature method.

A look into controlling systems with parabolic partial differential equations.

Machine learning improves the speed and accuracy of phase diagram construction for materials.

Learn about the unique properties of calcium isotopes and their significance.

Scientists use reinforcement learning to improve connections between quantum particles.

A look into optimizing machine learning models using quasi-convex functions.

Combining TDA and CNNs enhances image recognition accuracy by leveraging diverse data.

A new method enhances accuracy in material behavior studies.

Scientists improve designs for magnonic devices using advanced algorithms and innovative methods.

A look into the tools used to study atomic behavior.

Scientists investigate how different methods affect band gap calculations in materials.

Explore how quantum computing transforms chromatography in drug production.

Learn about basis set incompleteness errors and how scientists address these in quantum chemistry.

New technique boosts efficiency in quantum chemistry calculations using GPU technology.

Explore how quantum gates enhance technology through composite pulses.

Discover the science behind particles and their interactions in lattice gauge theories.

Delving into 3D conformal field theories with U(1) symmetry for new discoveries.

Delving into how quasi-particles and self-energy shape molecular behavior.

How algorithmic design influences Casimir-Polder forces for advanced technology.

Discover how a new decoder is changing quantum error correction for the better.

A look into particle behavior through the Non-Linear Sigma Model.

Discover how Complex Langevin simulations tackle complex quantum systems effectively.

Discover fresh methods transforming quantum chemistry through the sum-of-squares technique.

Joint Approximate Diagonalization offers better predictions in quantum material behaviors.

Explore the elegance and complexity of ternary quartics in mathematics.

Navigating the complexities of estimating unknowns in seismic studies.

Explore how median-dual regions simplify complex geometry in fluid dynamics.

Learn how quantum circuit cutting improves quantum neural networks on limited devices.