Software and hardware required for a simulation: Difference between revisions

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* '''Security Software:''' Antivirus and firewall to protect the simulation data and computing resources.
* '''Security Software:''' Antivirus and firewall to protect the simulation data and computing resources.
* '''Power Supply:''' Uninterruptible Power Supply (UPS) to prevent data loss during power outages.
* '''Power Supply:''' Uninterruptible Power Supply (UPS) to prevent data loss during power outages.
```
This outline is structured to give an overview of the basic requirements for setting up a simulation environment, covering both the hardware and software aspects. It can be a great starting point for discussions in your class about the practical aspects of running simulations in various fields.


== Standards ==
== Standards ==

Revision as of 15:18, 15 November 2023

Modeling & Simulation[1]

Certainly, Mr. MacKenty. Here's an outline formatted in MediaWiki markup, which you can use in your teaching materials to describe the software and hardware required for running a simulation:

```mediawiki

Simulation Setup: Hardware and Software Requirements[edit]

Hardware Requirements[edit]

  • Processor (CPU): High-performance CPU (e.g., Intel Core i7 or AMD Ryzen 7) for complex calculations.
  • Graphics Processing Unit (GPU): Dedicated GPU (e.g., NVIDIA or AMD Radeon) for simulations requiring graphical rendering or parallel processing.
  • Memory (RAM): Minimum 8GB RAM, recommended 16GB or higher for larger simulations.
  • Storage: SSD (Solid State Drive) for faster data access and storage. Capacity dependent on the size of the simulation data.
  • Networking: High-speed internet connection for simulations that require cloud computing resources or real-time data feeds.
  • Cooling System: Efficient cooling system to prevent overheating during intensive computational tasks.

Software Requirements[edit]

  • Operating System: Modern OS like Windows, Linux, or macOS.
  • Simulation Software:
    • For physics-based simulations: Software like ANSYS, SolidWorks, or MATLAB.
    • For environmental and geographical simulations: GIS software like ArcGIS or QGIS.
    • For AI and machine learning simulations: Python with libraries like TensorFlow, PyTorch, or Scikit-learn.
  • Data Analysis Tools: Software for analyzing results, such as Python with Pandas, R, or Excel.
  • Visualization Software: Tools like Tableau, Gephi, or Python libraries (Matplotlib, Seaborn) for data visualization.
  • Code Editors and IDEs: Visual Studio Code, PyCharm, or Eclipse for software development and scripting.
  • Version Control: Git and platforms like GitHub or GitLab for code versioning and collaboration.
  • Cloud Computing Services (Optional): AWS, Google Cloud, or Azure for access to additional computational resources.

Additional Considerations[edit]

  • Backup Solutions: Regular backup strategy for data safety (e.g., external hard drives, cloud storage services).
  • Security Software: Antivirus and firewall to protect the simulation data and computing resources.
  • Power Supply: Uninterruptible Power Supply (UPS) to prevent data loss during power outages.

Standards[edit]

  • Outline the software and hardware required for a simulation.

References[edit]