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OPLS-AA, MMFF, GBSA solvent model, conformational sampling, minimizing, MD. Includes the Maestro GUI which provides visualizing, molecule building, calculation setup, job launch and monitoring, project-level organizing of results, access to a suite of other modelling programs. Proprietary: Schrödinger: MAPS [4] Yes Yes Yes Yes Yes Yes Yes No Yes
The solver uses a partially compatible ABAQUS file format. The pre/post-processor generates input data for many FEA and CFD applications: Guido Dhondt, Klaus Wittig: 2.20: 2022-08-01: GNU GPL: Free: Linux, Windows: DIANA FEA: General purpose finite element package utilised by civil, structural and geotechnical engineers. DIANA FEA BV, The ...
Lis (Library of Iterative Solvers for linear systems; pronounced lis]) is a scalable parallel software library to solve discretized linear equations and eigenvalue problems that mainly arise from the numerical solution of partial differential equations using iterative methods.
There is a friendly CalculiX Launcher [7] with CCX wizard for both Windows and Linux. [8] Also possible is the Installation in Windows 10 Fall Creator (1709) with the new Linux Subsystem WSL. [9] A Python library, pycalculix, [10] was written to automate the creation of CalculiX models in the Python programming language. The library provides ...
In 2012 version 1.9 released as unrestricted freeware proprietary software. [4] In 2013 version 2.0 released as free and open-source software. [5] [6] In 2016 version 2.1 brings support for Linux and MacOS. [7] According to an interview given in 2020 by a major maintainer SolveSpace aims to be backwards compatibile as much as possible.
The SciPy scientific library, for instance, uses HiGHS as its LP solver [13] from release 1.6.0 [14] and the HiGHS MIP solver for discrete optimization from release 1.9.0. [15] As well as offering an interface to HiGHS, the JuMP modelling language for Julia [16] also describes the specific use of HiGHS in its user documentation. [17]
GEKKO works on all platforms and with Python 2.7 and 3+. By default, the problem is sent to a public server where the solution is computed and returned to Python. There are Windows, MacOS, Linux, and ARM (Raspberry Pi) processor options to solve without an Internet connection.
Following a redesign of the software organization, Gerris became Basilisk, [17] which allows one to develop its own solver (not necessarily in fluid mechanics) using various data structures (including of course the quadtree/octree) and optimized operators for iteration, derivation, etc. Solvers are written in C, more specifically the Basilisk C ...