Life is one of the most complex phenomena known in our world. Researchers construct
various models of life that serve diverse purposes and are applied in a wide range of areas …

The continuous symmetry methodology has been developed to provide a quantitative
estimation for the degree of a selected symmetry point‐group in a molecular structure …

This article investigates low-level and high-level multithreaded performance of evolutionary
processes that are typically employed in evolutionary design and artificial life. Computations …

We present a new software platform called eVolutus for simulating evolution of living
organisms. We choose Foraminifera as model organisms that represent a group of single …

This work describes a new heuristic algorithm that estimates structural and geometric
similarity of three‐dimensional morphologies. It is an extension to previously developed …

This paper covers aspects of quantifying the symmetry of two-and three-dimensional elastic
bar-and-joint structures. The concept of symmetry as a quantitative property instead of a …

Research in complex collective and multi-agent systems often involves building models of
three-dimensional biological life or evolving such structures in virtual environments …

In this work we describe a novel simulation model of foraminifera and their microhabitat. The
simulations reported here are focused on the response of foraminiferal populations to …

Abstract eVolutus is a new software platform designed for modeling evolutionary and
population dynamics of living organisms. Single-celled eukaryotes, foraminifera, are …

This report demonstrates how parallel computation can be implemented in the Framsticks
environment. A number of possible multithreaded and distributed architectures and …