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1 | 1 | :html_theme.sidebar_secondary.remove: |
2 | 2 |
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3 | | -Welcome to PINA’s documentation! |
| 3 | +Welcome to PINA's documentation! |
4 | 4 | ======================================= |
5 | 5 |
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6 | 6 | .. grid:: 6 |
@@ -41,35 +41,36 @@ Welcome to PINA’s documentation! |
41 | 41 | .. grid-item:: |
42 | 42 | :columns: 12 12 8 8 |
43 | 43 |
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44 | | - Physics Informed Neural network for Advanced modeling (**PINA**) is |
45 | | - an open-source Python library providing an intuitive interface for |
46 | | - solving differential equations using PINNs, NOs or both together. |
| 44 | + **PINA** is an open-source Python library designed to simplify and accelerate |
| 45 | + the development of Scientific Machine Learning (SciML) solutions. |
| 46 | + Built on top of `PyTorch <https://pytorch.org/>`_, `PyTorch Lightning <https://lightning.ai/docs/pytorch/stable/>`_, |
| 47 | + and `PyTorch Geometric <https://pytorch-geometric.readthedocs.io/en/latest/>`_, |
| 48 | + PINA provides an intuitive framework for defining, experimenting with, |
| 49 | + and solving complex problems using Neural Networks, |
| 50 | + Physics-Informed Neural Networks (PINNs), Neural Operators, and more. |
47 | 51 |
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48 | | - Based on `PyTorch <https://pytorch.org/>`_, `PyTorchLightning <https://lightning.ai/docs/pytorch/stable/>`_, and `PyG <https://pytorch-geometric.readthedocs.io/en/latest/>`_, **PINA** offers a simple and intuitive way to formalize a specific (differential) problem |
49 | | - and solve it using neural networks . The approximated solution of a differential equation |
50 | | - can be implemented using PINA in a few lines of code thanks to the intuitive and user-friendly interface. |
| 52 | + - **Modular Architecture**: Designed with modularity in mind and relying on powerful yet composable abstractions, PINA allows users to easily plug, replace, or extend components, making experimentation and customization straightforward. |
51 | 53 |
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52 | | - |
| 54 | + - **Scalable Performance**: With native support for multi-device training, PINA handles large datasets efficiently, offering performance close to hand-crafted implementations with minimal overhead. |
| 55 | + |
| 56 | + - **Highly Flexible**: Whether you're looking for full automation or granular control, PINA adapts to your workflow. High-level abstractions simplify model definition, while expert users can dive deep to fine-tune every aspect of the training and inference process. |
53 | 57 |
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54 | 58 | For further information or questions about **PINA** contact us by email. |
55 | 59 |
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56 | | - |
57 | | - |
58 | | - |
59 | 60 | .. grid-item-card:: Contents |
60 | 61 | :class-title: sd-fs-5 |
61 | 62 | :class-body: sd-pl-4 |
62 | 63 |
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63 | 64 | .. toctree:: |
64 | 65 | :maxdepth: 1 |
65 | 66 |
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66 | | - API <_rst/_code> |
67 | | - Tutorial <_tutorial> |
68 | 67 | Installing <_installation> |
69 | | - Team & Foundings <_team.rst> |
| 68 | + API <_rst/_code> |
| 69 | + Tutorials <_tutorial> |
| 70 | + Cite PINA <_cite.rst> |
70 | 71 | Contributing <_contributing> |
| 72 | + Team & Foundings <_team.rst> |
71 | 73 | License <_LICENSE.rst> |
72 | | - Cite PINA <_cite.rst> |
73 | 74 |
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74 | 75 |
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75 | 76 |
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