Loading docs/source/aspis_py.rst +6 −6 Original line number Diff line number Diff line ASPIS.py library ASPIS.py package ---------------- Intro ^^^^^ ASPIS.py is a library of code that allows access to the data contained in ASPIS database and other ASPIS.py is a package of code that allows access to the data contained in ASPIS database and other various community databases, to perform client-side specific analyses of this data and to visualize it. The data available are of two types: data in the internal database produced by the CAESAR community and information on external data in other databases. Along with access to the data, the ASPIS.py library contains code packages that can be imported as library objects, with which to perform ASPIS.py package contains code packages that can be imported as package objects, with which to perform analysis and/or visualization of the data. The criterion of ASPIS.py is to act as a collector for the data and analysis software of the Space Weather (SWx) Italian Loading @@ -25,7 +25,7 @@ standardization, making it easier for researchers to work with and build upon ea field of SWX and astrophysics in general. Functions ^^^^^^^^^^^^^^^^^^ ^^^^^^^^^ The functions of the ASPIS.py module are conceived to implement the following key components of the ASPIS service: Loading Loading @@ -94,7 +94,7 @@ the provided Wheel file. Note that version number may have changed. Use case example ^^^^^^^^^^^^^^^^ Here we show an example of the way a user can use a specific product of the ASPIS.py library. Here we show an example of the way a user can use a specific product of the ASPIS.py package. from aspis import products as aps from datetime import datetime Loading Loading @@ -128,7 +128,7 @@ plot: This example code performs the following steps: #. Import necessary modules and classes from the "aspis" library. #. Import necessary modules and classes from the "aspis" package. #. Define input parameters, namely the initial velocity (V0), its uncertainty (sigma_V0), and a times-tamp (Time_UTC). #. Create an instance of the "pdbm" class from the "aspis.products" module. #. Use this instance to compute the CME (Coronal Mass Ejection) model parameters based on the provided input. Loading Loading
docs/source/aspis_py.rst +6 −6 Original line number Diff line number Diff line ASPIS.py library ASPIS.py package ---------------- Intro ^^^^^ ASPIS.py is a library of code that allows access to the data contained in ASPIS database and other ASPIS.py is a package of code that allows access to the data contained in ASPIS database and other various community databases, to perform client-side specific analyses of this data and to visualize it. The data available are of two types: data in the internal database produced by the CAESAR community and information on external data in other databases. Along with access to the data, the ASPIS.py library contains code packages that can be imported as library objects, with which to perform ASPIS.py package contains code packages that can be imported as package objects, with which to perform analysis and/or visualization of the data. The criterion of ASPIS.py is to act as a collector for the data and analysis software of the Space Weather (SWx) Italian Loading @@ -25,7 +25,7 @@ standardization, making it easier for researchers to work with and build upon ea field of SWX and astrophysics in general. Functions ^^^^^^^^^^^^^^^^^^ ^^^^^^^^^ The functions of the ASPIS.py module are conceived to implement the following key components of the ASPIS service: Loading Loading @@ -94,7 +94,7 @@ the provided Wheel file. Note that version number may have changed. Use case example ^^^^^^^^^^^^^^^^ Here we show an example of the way a user can use a specific product of the ASPIS.py library. Here we show an example of the way a user can use a specific product of the ASPIS.py package. from aspis import products as aps from datetime import datetime Loading Loading @@ -128,7 +128,7 @@ plot: This example code performs the following steps: #. Import necessary modules and classes from the "aspis" library. #. Import necessary modules and classes from the "aspis" package. #. Define input parameters, namely the initial velocity (V0), its uncertainty (sigma_V0), and a times-tamp (Time_UTC). #. Create an instance of the "pdbm" class from the "aspis.products" module. #. Use this instance to compute the CME (Coronal Mass Ejection) model parameters based on the provided input. Loading
