PALM
The software PALM is a large-eddy simulation (LES) model for atmospheric and oceanic flows developed at the Institute of Meteorology and Climatology of the Leibniz Universität Hannover.
Installation
Please download and follow the follwing pdf-document for detailled instructions for the installation of PALM:
SGE scripts
Sample SGE scripts for submitting PALM jobs can be found here:
- palm.sge (for standard version of PALM)
- palm_simple.sge (only for simple version of PALM - see installation guide for more information)
Please copy the sample script to your working directory (as palm.sge or <different-name>.sge). For carrying out the test run (to verify the installation), the script does not need to be modified. Please see the installation guide for instructions on how to modify the script for different runs.
Runtime estimation
The runtime of PALM (which is needed for the SGE script and for mrun) can be estimated by
[[1]]
where the constant c_{PALM,FLOW} is approximately
[[2]]
The number of points is defined by product of the resolution in x-, y- and z-direction
[[3]]
The number of iterations can be calculated by
[[4]]
with the pyhsical simulation time T_{total} and the timestep size \Delta t. The timestep size \Delta t can be estimated over the Courant-Friedrichs-Levy like criteria
[[5]]
where L and N are the length of the simulated domain and resolution in x-, y- and z-direction, respectively. The velocity \bar u_{max} is the maximal windspeed of the simulation.
Known issues
- With the Intel Compiler 12.0.0 the compiler flag -no-prec-div and -np-prec-sqrt can lead to different results for same runs. Please don't use these flags. Note that the flags will automatically be set when using the compiler option -fast. In this case you should set -prec-div and -prec-sqrt.
Tutorials
Here are slides from the last training at ForWind in April 2012.
Day 1
- Fundamentals of LES
- Introduction
- Overview
- Installation on FLOW (Please see above for actual installation rules)
- Introduction to NCL
Day 2
- Exercise: Neutral boundary layer
- Numerical boundary conditions
- Program control
- Program structure
- Runs with mrun (part 1)
- Runs with mrun (part 2)
Day 3
- Parallelization
- Debugging
- Non-cyclic boundary conditions
- Restarts with mrun
- Interface Exercise
- User defined code
- LES of wake flows