Latest Articles for Computer Science

A new approach improves efficiency in lattice basis computation using the generalized Euclidean algorithm.

Introducing BackFlip, a method to evaluate artistic images while preserving their aesthetic value.

Explore the unique characteristics of shifted and threshold matroids and their applications.

ShapeMamba-EM improves segmentation of complex neural images.

New algorithms combine quantum computing and classical methods to speed up calculations.

This article examines how GNNs enhance the solving of SAT problems.

New techniques improve approximations for challenging CSP instances.

A guide to the concepts of tensor rank and subrank.

A method improves speed and efficiency of particle simulations using nearest neighbour search.

A new method to streamline language models while preserving their performance.

This article discusses how to implement quantum walks on sparse graphs effectively.

A new method to detect odd-length cycles in graphs using advanced algorithms.

Explore the significance of the Saint Venant operator in tensor field analysis.

A new approach to CFR enhances speed for large games using GPUs.

A look into the challenges and advancements in index coding for effective communication.

A look into how computers maintain accuracy despite component failures.

New techniques improve efficiency in addressing the Subset Sum challenge.

A clear look at polarities and their role in mathematics and data relationships.

A look at how algebraic theories help describe mathematical structures and their interactions.

A new method enhances data address translation for better system efficiency.

Exploring the nuances of code-based digital signatures and their importance.

Exploring new methods for efficient program generation.

A look into the odd cover problem and its implications in graph theory.

Investigating the properties of sober dcpos and their products.

A look into the evolving field of topological deep learning models and their strengths.

A new method improves grammar inference for programming languages with better accuracy and readability.

A new technique enhances quantum error coding accuracy, making quantum computers more effective.

Research focuses on improving quantum codes for better error protection and efficiency.

Learn how quantum methods can improve path counting in directed graphs.

Exploring conflict-free coloring in graphs, hypergraphs, and practical applications.

Researchers enhance quantum simulations using ancillary qubits and digital gates for improved accuracy.

This paper discusses continual learning of causal relations without losing previous knowledge.

Exploring the relationship between transformers and splines in AI.

Examining QAOA and RQAOA approaches for optimizing graph challenges.

An overview of techniques to check if numbers are divisible by three using miniKanren.

A study of particle dynamics using the stochastic six-vertex model reveals key behaviors.

A look into the methods for making graphs bipartite.

A new method for visualizing large datasets improves speed and quality.

Combining neural networks and quantum computing for optimized circuit design.

Learn about the Gromov-Wasserstein distance and its applications in various fields.