Search Results for "heat equation"
Sort By:
Showing 7 open source projects for "heat equation"
View related business solutions-
SKUDONET ADC, operates at the application layer, efficiently distributing network load and application load across multiple servers. This not only enhances the performance of your application but also ensures that your web servers can handle more traffic seamlessly.
-
HubSpot is an AI-powered customer platform with all the software, integrations, and resources you need to connect your marketing, sales, and customer service. HubSpot's connected platform enables you to grow your business faster by focusing on what matters most: your customers.
-
1
FEniCS.jl
A scientific machine learning (SciML) wrapper for the FEniCS
..., and instructions to add further ones can be found here. A high-level API for usage with DifferentialEquations. An example can be seen in solving the heat equation with high-order adaptive time-stepping. Various gists/jupyter notebooks have been created to provide a brief overview of the overall functionality and of any differences between the pythonic FEniCS and the Julian wrapper. DifferentialEquations.jl ecosystem. Paraview can also be used to visualize various results just like in FEniCS. -
2
Python/FEniCS Examples
phase-field simulation and other examples with Python/FEniCS
The main goal of this project was developing phase-field simulations of lithium dendrite growth with FEniCS programmed in Python. The problem was based in the grand potential-based model of Zijian Hong and Venkatasubramanian Viswanathan (https://doi.org/10.1021/acsenergylett.8b01009) . Some simpler examples were developed before for a first approach with FEniCS: heat equation and combustion model. -
3
MPI 3D Heat equation
MPI Numerical Solving of the 3D Heat equation
This scientific code solves the 3D Heat equation with MPI (Message Passing Interface) implementation. There are Fortran 90 and C versions. A benchmark analysis is also preformed with the relation between speedup and number of processes. -
4
SafeConc
Calculates temperature variations and stresses in fresh concrete.
Main purpose of this program is to find temperature variations in a cement concrete body during its early age and calculate stresses associated with it. This allows users to find out the temperature distribution, strength development, thermal stresses and risk of cracking in the body. It is based on a semi-empirical hydration model developed by Lin and Meyer in 2009, which itself is based on Arrhenius equation. It also uses finite element method to distribute heat and stresses. Strength... -
Your applications are all built differently, but they all need to perform. NeoLoad simplifies and scales performance testing for everything, from APIs and microservices, to end-to-end application testing through innovative protocol and browser-based capabilities.
-
5
Cooldt
Cool-down time calculator for multi-layers pipe
Cooldt calculate the cooling duration of a multi-layers pipe in a cold environment. The duration to reach the “Final fluid temperature” or cool-down time (CDT) is calculated by solving the heat equation in cylindrical coordinates with a flux conservative formulation. -
6
-
7
This benchmarking program measures the cpu performance by numerically finding a solution and measuring runtime of the two-dimensional heat equation in cartesian coordinates. This program is a model of steel undergoind natural convection.
- Previous
- You're on page 1
- Next