-
1
Presentation1_NeuroPack: An Algorithm-Level Python-Based Simulator for Memristor-Empowered Neuro-Inspired Computing.pdf
منشور في 2022"…This diversity of technologies requires the establishment of versatile tools that can enable designers to translate memristors’ attributes in novel neuro-inspired topologies. In this study, we present NeuroPack, a modular, algorithm-level Python-based simulation platform that can support studies of memristor neuro-inspired architectures for performing online learning or offline classification. …"
-
2
-
3
-
4
-
5
Tree file outputs from the phylogenetic analyses of the genus Python
منشور في 2025"…Further, it has been suggested that the genus <i>Python</i> may have an Asian origin, and this scenario would require the African species to be monophyletic. …"
-
6
-
7
Image10_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
8
Image15_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
9
Image12_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
10
Image14_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
11
Image11_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
12
Image8_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
13
Image2_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
14
Image3_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
15
Image13_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
16
Image5_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
17
Image9_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
18
Image4_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
19
Image6_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
-
20
Image1_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
منشور في 2022"…Whereas numerous modelling techniques are described in literature, there is a lack of a unified open-source toolset that incorporates the equations and parameterizations used by different wave-particle interaction models in a user-friendly environment. 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. …"
