Video recording and production done by Enthought.
Numerical Lagrangian tracking is a way to follow parcels of fluid as they are advected by a numerical circulation model. This is a natural method to investigate transport in a system and understand the physics on the wide range of length scales that are actually experienced by a drifter. TRACMASS is a tool for Lagrangian trajectory modeling that has been developed over the past two decades. It has been used to better understand physics and its applications to real-world problems in many areas around the world, in both atmospheric and oceanic settings. TRACMASS is written in FORTRAN, which is great for speed but not as great for ease of use. This code has been wrapped in Python to run batches of simulations and improve accessibility --- and dubbed TracPy.
In this talk, I will outline some of the interesting features of the TRACMASS algorithm and several applications, then discuss the layout of the TracPy code. The code setup and organization have been a learning process and I will also share some of my hard-earned lessons.
TracPy is continually in development and is available on GitHub.