An expectation-maximization algorithm for finding noninvadable stationary states. by Robert Marsland (8616483)

Python implementation of the Trajectory Adaptive Multilevel Sampling algorithm for rare events and improvements by Pascal Wang (10130612)

“…<div>This directory contains Python 3 scripts implementing the Trajectory Adaptive Multilevel Sampling algorithm (TAMS), a variant of Adaptive Multilevel Splitting (AMS), for the study of rare events. …”

Schematic illustration of intensity functions and inter-event time densities. by Gerrit Großmann (9585147)

Cumulative distribution function of different algorithms after interpolation. by Ruiyi Tang (10302578)

EFGs: A Complete and Accurate Implementation of Ertl’s Functional Group Detection Algorithm in RDKit by Gonzalo Colmenarejo (650249)

“…In this paper, a new RDKit/Python implementation of the algorithm is described, that is both accurate and complete. …”

Probability density distribution. by Jianpeng Zhang (528185)

The skeleton algorithm identifies mitochondrial density in sample images from cells. by Margarita M. Ivanova (11604141)

Synthetic Realness: Authenticity as Algorithm (Reality Drift Working Paper Series, 2025) by Reality Drift Working Papers Series 2020-2025 (22445446)

“…<p dir="ltr">This paper explores the concept of synthetic realness: how authenticity is increasingly engineered by algorithms until the line between real and fake becomes functionally irrelevant. …”

The optimal solution set of NYN by using different algorithms. by Yi Tao (178829)

Subjects: “…evolutionary genetic algorithm…”

The optimal solution set of HN by using different algorithms. by Yi Tao (178829)

Subjects: “…evolutionary genetic algorithm…”

FAR-1: A Fast Integer Reduction Algorithm Compared to Collatz and Half-Collatz by Faizan Ali (21689861)

Subjects:

Predictive Mixing for Density Functional Theory (and Other Fixed-Point Problems) by L. D. Marks (1949689)

Subjects:

Verification of the in-line PS function. by Raul Castañeda (13932971)

Available functions in the utility package. by Raul Castañeda (13932971)

CARNOT: a Fragment-Based Direct Molecular Dynamics and Virtual–Reality Simulation Package for Reactive Systems by Xin Chen (14149)

“…Employing the PW91 density functional theory and the 6-31+G­(d) basis set, the capabilities of the CARNOT program were illustrated by a combustion reaction, consisting of 28 650 atoms, and by reaction network analysis that revealed a range of mechanistic and dynamical events. …”

CARNOT: a Fragment-Based Direct Molecular Dynamics and Virtual–Reality Simulation Package for Reactive Systems by Xin Chen (14149)

“…Employing the PW91 density functional theory and the 6-31+G­(d) basis set, the capabilities of the CARNOT program were illustrated by a combustion reaction, consisting of 28 650 atoms, and by reaction network analysis that revealed a range of mechanistic and dynamical events. …”

CARNOT: a Fragment-Based Direct Molecular Dynamics and Virtual–Reality Simulation Package for Reactive Systems by Xin Chen (14149)

“…Employing the PW91 density functional theory and the 6-31+G­(d) basis set, the capabilities of the CARNOT program were illustrated by a combustion reaction, consisting of 28 650 atoms, and by reaction network analysis that revealed a range of mechanistic and dynamical events. …”

CARNOT: a Fragment-Based Direct Molecular Dynamics and Virtual–Reality Simulation Package for Reactive Systems by Xin Chen (14149)

“…Employing the PW91 density functional theory and the 6-31+G­(d) basis set, the capabilities of the CARNOT program were illustrated by a combustion reaction, consisting of 28 650 atoms, and by reaction network analysis that revealed a range of mechanistic and dynamical events. …”

CARNOT: a Fragment-Based Direct Molecular Dynamics and Virtual–Reality Simulation Package for Reactive Systems by Xin Chen (14149)

“…Employing the PW91 density functional theory and the 6-31+G­(d) basis set, the capabilities of the CARNOT program were illustrated by a combustion reaction, consisting of 28 650 atoms, and by reaction network analysis that revealed a range of mechanistic and dynamical events. …”

CARNOT: a Fragment-Based Direct Molecular Dynamics and Virtual–Reality Simulation Package for Reactive Systems by Xin Chen (14149)

“…Employing the PW91 density functional theory and the 6-31+G­(d) basis set, the capabilities of the CARNOT program were illustrated by a combustion reaction, consisting of 28 650 atoms, and by reaction network analysis that revealed a range of mechanistic and dynamical events. …”