Name | Version | Summary | date |
tdw |
1.12.24.2 |
3D simulation environment |
2024-03-28 20:46:28 |
opstool |
0.8.7 |
openseespy toolbox |
2024-03-26 10:15:16 |
scml-agents |
0.4.7 |
Agents submitted to the SCML competition or contributed by the community |
2024-03-24 06:27:05 |
siren |
0.0.1 |
Sampling and Injection for Rare EveNts: A neutrino and rare-process injection toolkit |
2024-03-21 07:27:51 |
DmHaloGeometry |
0.1 |
Do geometric computations on dark matter particle data |
2024-03-20 19:54:48 |
copper-bem |
0.2.1 |
Performance curve generator for building energy simulation |
2024-03-19 23:30:43 |
bluepyemodel |
0.0.97 |
Blue Brain Python Electrical Modeling Pipeline |
2024-03-19 16:12:08 |
py4cst |
0.1.4.2 |
Automation/Scripting library for CST Studio Suite |
2024-03-19 03:04:30 |
lewis |
1.3.3 |
Lewis - Let's write intricate simulators! |
2024-03-18 10:14:22 |
PyDTMC |
8.6.0 |
A full-featured and lightweight library for discrete-time Markov chains analysis. |
2024-03-18 01:28:31 |
bgpy-pkg |
7.0.5 |
Simulates BGP and ROV in an extensible manner |
2024-03-17 22:36:39 |
netlogopy |
0.0.15 |
netlogopy : Usage netlogo by python |
2024-03-17 10:23:59 |
Brian2 |
2.6.0 |
A clock-driven simulator for spiking neural networks |
2024-03-15 15:42:37 |
salabim |
24.0.2 |
discrete event simulation in Python |
2024-03-15 11:09:05 |
kisao |
2.34 |
Utilities for working with the Kinetic Simulation Algorithm Ontology (KiSAO) |
2024-03-14 19:51:55 |
vessim |
0.5.1 |
A simulator for carbon-aware applications and systems. |
2024-03-14 11:46:31 |
bluecellulab |
2.4.0 |
The Pythonic Blue Brain simulator access |
2024-03-14 09:43:47 |
simpa |
0.9.0 |
Simulation and Image Processing for Photonics and Acoustics |
2024-03-14 09:21:22 |
pylattica |
0.1.3 |
pylattica is a package for fast prototyping of lattice models for chemistry and materials science |
2024-03-13 18:40:32 |
dibs-computing-core |
1.0.0 |
DIBS---Dynamic-ISO-Building-Simulator is a simulation program for calculating the space heating, occupancy hot water, cooling and electricity demand of German non-residential buildings. Further the DIBS calculates the heating value based energy uses, the primary energy and the greenhouse gas emission based on the defined factors of the German building energy ordinance (Gebäudeenergiegesetz). The underlying resistance-capacity-model is based on the simplified hourly method of ISO 13790:2008. |
2024-03-13 14:29:53 |