Table_2_BayesPI-BAR2: A New Python Package for Predicting Functional Non-coding Mutations in Cancer Patient Cohorts.docx by Kirill Batmanov (3722374)

“…Here, we present a new user-friendly Python package BayesPI-BAR2 based on the proposed pipeline for integrative whole-genome sequence analysis. …”

DataSheet_1_AirSeaFluxCode: Open-source software for calculating turbulent air-sea fluxes from meteorological parameters.pdf by Stavroula Biri (14571707)

“…This means that empirical “bulk formulae” parameterizations that relate direct flux observations to concurrent measurements of the mean meteorological and sea surface variables contain considerable uncertainty. In this paper, we present a Python 3.6 (or higher) open-source software package “AirSeaFluxCode” for the computation of the heat (latent and sensible) and momentum fluxes. …”

Implementations benchmark. by Serena Aneli (17002149)

Data for "Freezing rain events related to atmospheric rivers and associated mechanisms for western North America" by Ju Liang (7040102)

“…</div><div>The data is provided in python .pckl format. The example code for reading each of the provided .pckl files is given in Readme.txt.…”

Image10_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image15_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image12_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image14_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image11_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image8_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image2_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image3_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image13_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image5_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image9_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image4_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image6_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image1_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Image7_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG by Stelios Tourgaidis (14004246)

“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”

Python Delimiters by Lorena A. Barba (97553)