-
Jim Lewis (UC Berkeley Space Sciences Laboratory)21/10/2020 13:00
The SPEDAS software package includes several features designed to support discovery, download, and analysis of heliophysics data sets without the need to develop mission-specific load routines. In this presentation, we will briefly demonstrate some of these tools, including downloads via NASA's CDAWeb service, the Heliophysics API (HAPI), and the DAS2 protocol. We will discuss the metadata...
Aller à la page de la contribution -
Jeremy Jeremy Faden21/10/2020 13:10
Autoplot has been useful for developing science processes that interact with HAPI and Das2 Servers, CDF files, and other file formats where a collection of files form a database covering long time spans ("aggregations"). Internally, Autoplot's Java code implements these features, and to make use of them codes will use Autoplot as a library. This is messy, and I've extracted functionality...
Aller à la page de la contribution -
Nicolas Andre (IRAP, OMP, CNRS, UPS, CNES)21/10/2020 13:20
The French Plasma Physics Data Centre (CDPP, http://cdpp.eu/) initially established by CNES and CNRS aims to providing access to local and remote data, designing and building science driven analysis tools for observational data as well as results from models and numerical simulations. Other tools like the Propagation Tool or 3DView allow users to put their data in context and interconnect with...
Aller à la page de la contribution -
Baptiste Cecconi (LESIA - Observatoire de Paris - PSL)21/10/2020 13:30
[MASER][1] (Measuring, Analysing and Simulating Radio Emissions) provides a comprehensive infrastructure dedicated to low frequency radio emissions (typically < 50 to 100 MHz). The four main radio sources observed in this frequency are the Earth, the Sun, Jupiter and Saturn. They are observed either from ground (down to 10 MHz) or from space (down to a few kHz). Ground observatories are more...
Aller à la page de la contribution -
21/10/2020 13:40
-
Julie Barnum (Laboratory for Atmospheric and Space Physics)21/10/2020 14:02
Many Heliophysics software projects are being developed in, or converted to, the Python programming language. The Python in Heliophysics Community (PyHC) has worked over the past two years to bring together the solar and space physics communities for the purpose of coordinating Python software development efforts. The goal of this work is to share knowledge and lessons learned, reduce the...
Aller à la page de la contribution -
Laura Hayes (NASA Goddard Space Flight Center)21/10/2020 14:11
The goal of the SunPy project is to facilitate and promote the use and development of community-led, free, and open source data analysis software for solar physics based on the scientific Python environment. The project achieves this goal by developing and maintaining the SunPy core package, supporting an ecosystem of affiliated packages, and educating the solar physics community about the...
Aller à la page de la contribution -
M. Eric Grimes (UCLA)21/10/2020 14:21
SPEDAS (Space Physics Environment Data Analysis Software) is a framework, written in IDL, to support loading, plotting, analysis, and integration of data from a number of space- and ground-based observatories, including THEMIS, MMS, GOES, ERG, IUGONET, and most data sets archived at NASA CDAWeb. While powerful, IDL has numerous limitations, including the high cost of licensing, limited...
Aller à la page de la contribution -
Dr Darren De Zeeuw21/10/2020 14:24
Kamodo is an open source python package under development at the Community Coordinated Modeling Center (CCMC). It can read, interpolate, visualize, and analyze space weather model output and data. A Kamodofied model has a python reader and interpolator to enable visualization and analysis tools in Kamodo. Many of the already Kamodofied models have had their most useful visualization adapted...
Aller à la page de la contribution -
Nicholas Murphy (Center for Astrophysics | Harvard & Smithsonian)21/10/2020 14:27
The mission of the PlasmaPy project is to foster the creation of an open source software ecosystem for plasma research and education. The PlasmaPy package contains the core functionality needed by most plasma scientists, while community-developed affiliated packages will contain more specialized functionality. Because plasma science is vital to much of heliophysics and astronomy, PlasmaPy is...
Aller à la page de la contribution -
Arnaud Masson (ESA), S Stansby21/10/2020 14:30
Short presentation of HelioPy
Aller à la page de la contribution -
21/10/2020 14:33
Other packages update
Aller à la page de la contribution
PyHC/IHDEA interactions -
Jack Ireland
Choisissez le fuseau horaire
Le fuseau horaire de votre profil: