README.ipynb

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       "<a name=\"top\"></a>\n",
       "\n",
       "[<img width=\"600px\" src=\"fidle/img/00-Fidle-titre-01.svg\"></img>](#top)\n",
       "\n",
       "<!-- --------------------------------------------------- -->\n",
       "<!-- To correctly view this README under Jupyter Lab     -->\n",
       "<!-- Open the notebook: README.ipynb!                    -->\n",
       "<!-- --------------------------------------------------- -->\n",
       "\n",
       "## Session Fidle à distance (NEW !)\n",
       "\n",
       "Faute de pouvoir organiser des sessions en présentiel,\\\n",
       "nous vous proposons une **session à distance** :-)\n",
       "\n",
       "**- Prochain rendez-vous -**\n",
       "\n",
       "|[<img width=\"100px\" src=\"fidle/img/00-Fidle-a-distance-01.svg\"></img>](https://gricad-gitlab.univ-grenoble-alpes.fr/talks/fidle/-/wikis/Fidle%20%C3%A0%20distance/En%20bref)<br>**Jeudi 4 févier, 14h :**<br>Episode 1 : **Introduction du cycle, Historique et concepts fondamentaux**|\n",
       "|:---|\n",
       "|Fonction de perte - Descente de gradient - Optimisation - Hyperparamètres<br>Préparation des données - Apprentissage - Validation - Sous et sur apprentissage<br>Fonctions d’activation - softmax<br>Travaux pratiques : Régression et Classification avec des DNN|\n",
       "|Durée : 3h - Paramètres de diffusion précisés 2 jours avant|\n",
       "\n",
       "A propos de **[Fidle à distance](https://gricad-gitlab.univ-grenoble-alpes.fr/talks/fidle/-/wikis/Fidle%20%C3%A0%20distance/En%20bref)**\\\n",
       "Voir le [programme](https://gricad-gitlab.univ-grenoble-alpes.fr/talks/fidle/-/wikis/Fidle%20%C3%A0%20distance/Pr%C3%A9sentation#programme-)\n",
       "\n",
       "\n",
       "## About Fidle\n",
       "\n",
       "This repository contains all the documents and links of the **Fidle Training** .   \n",
       "Fidle (for Formation Introduction au Deep Learning) is a 2-day training session  \n",
       "co-organized by the Formation Permanente CNRS and the Resinfo/SARI and DevLOG CNRS networks.  \n",
       "\n",
       "The objectives of this training are :\n",
       " - Understanding the **bases of Deep Learning** neural networks\n",
       " - Develop a **first experience** through simple and representative examples\n",
       " - Understanding **Tensorflow/Keras** and **Jupyter lab** technologies\n",
       " - Apprehend the **academic computing environments** Tier-2 or Tier-1 with powerfull GPU\n",
       "\n",
       "For more information, you can contact us at : \n",
       "[<img width=\"200px\" style=\"vertical-align:middle\" src=\"fidle/img/00-Mail_contact.svg\"></img>](#top)  \n",
       "Current Version : <!-- VERSION_BEGIN -->\n",
       "2.0.1\n",
       "<!-- VERSION_END -->\n",
       "\n",
       "\n",
       "## Course materials\n",
       "\n",
       "| | | |\n",
       "|:--:|:--:|:--:|\n",
       "| **[<img width=\"50px\" src=\"fidle/img/00-Fidle-pdf.svg\"></img><br>Course slides](https://cloud.univ-grenoble-alpes.fr/index.php/s/wxCztjYBbQ6zwd6)**<br>The course in pdf format<br>(12 Mo)| **[<img width=\"50px\" src=\"fidle/img/00-Notebooks.svg\"></img><br>Notebooks](https://gricad-gitlab.univ-grenoble-alpes.fr/talks/fidle/-/archive/master/fidle-master.zip)**<br> &nbsp;&nbsp;&nbsp;&nbsp;Get a Zip or clone this repository &nbsp;&nbsp;&nbsp;&nbsp;<br>(10 Mo)| **[<img width=\"50px\" src=\"fidle/img/00-Datasets-tar.svg\"></img><br>Datasets](https://cloud.univ-grenoble-alpes.fr/index.php/s/wxCztjYBbQ6zwd6)**<br>All the needed datasets<br>(1.2 Go)|\n",
       "\n",
       "Have a look about **[How to get and install](https://gricad-gitlab.univ-grenoble-alpes.fr/talks/fidle/-/wikis/Install-Fidle)** these notebooks and datasets.\n",
       "\n",
       "\n",
       "## Jupyter notebooks\n",
       "\n",
       "<!-- INDEX_BEGIN -->\n",
       "\n",
       "### Linear and logistic regression\n",
       "- **[LINR1](LinearReg/01-Linear-Regression.ipynb)** - [Linear regression with direct resolution](LinearReg/01-Linear-Regression.ipynb)  \n",
       "Low-level implementation, using numpy, of a direct resolution for a linear regression\n",
       "- **[GRAD1](LinearReg/02-Gradient-descent.ipynb)** - [Linear regression with gradient descent](LinearReg/02-Gradient-descent.ipynb)  \n",
       "Low level implementation of a solution by gradient descent. Basic and stochastic approach.\n",
       "- **[POLR1](LinearReg/03-Polynomial-Regression.ipynb)** - [Complexity Syndrome](LinearReg/03-Polynomial-Regression.ipynb)  \n",
       "Illustration of the problem of complexity with the polynomial regression\n",
       "- **[LOGR1](LinearReg/04-Logistic-Regression.ipynb)** - [Logistic regression](LinearReg/04-Logistic-Regression.ipynb)  \n",
       "Simple example of logistic regression with a sklearn solution\n",
       "\n",
       "### Perceptron Model 1957\n",
       "- **[PER57](IRIS/01-Simple-Perceptron.ipynb)** - [Perceptron Model 1957](IRIS/01-Simple-Perceptron.ipynb)  \n",
       "Example of use of a Perceptron, with sklearn and IRIS dataset of 1936 !\n",
       "\n",
       "### Basic regression using DNN\n",
       "- **[BHPD1](BHPD/01-DNN-Regression.ipynb)** - [Regression with a Dense Network (DNN)](BHPD/01-DNN-Regression.ipynb)  \n",
       "Simple example of a regression with the dataset Boston Housing Prices Dataset (BHPD)\n",
       "- **[BHPD2](BHPD/02-DNN-Regression-Premium.ipynb)** - [Regression with a Dense Network (DNN) - Advanced code](BHPD/02-DNN-Regression-Premium.ipynb)  \n",
       "A more advanced implementation of the precedent example\n",
       "\n",
       "### Basic classification using a DNN\n",
       "- **[MNIST1](MNIST/01-DNN-MNIST.ipynb)** - [Simple classification with DNN](MNIST/01-DNN-MNIST.ipynb)  \n",
       "An example of classification using a dense neural network for the famous MNIST dataset\n",
       "\n",
       "### Images classification with Convolutional Neural Networks (CNN)\n",
       "- **[GTSRB1](GTSRB/01-Preparation-of-data.ipynb)** - [Dataset analysis and preparation](GTSRB/01-Preparation-of-data.ipynb)  \n",
       "Episode 1 : Analysis of the GTSRB dataset and creation of an enhanced dataset\n",
       "- **[GTSRB2](GTSRB/02-First-convolutions.ipynb)** - [First convolutions](GTSRB/02-First-convolutions.ipynb)  \n",
       "Episode 2 : First convolutions and first classification of our traffic signs\n",
       "- **[GTSRB3](GTSRB/03-Tracking-and-visualizing.ipynb)** - [Training monitoring](GTSRB/03-Tracking-and-visualizing.ipynb)  \n",
       "Episode 3 : Monitoring, analysis and check points during a training session\n",
       "- **[GTSRB4](GTSRB/04-Data-augmentation.ipynb)** - [Data augmentation ](GTSRB/04-Data-augmentation.ipynb)  \n",
       "Episode 4 : Adding data by data augmentation when we lack it, to improve our results\n",
       "- **[GTSRB5](GTSRB/05-Full-convolutions.ipynb)** - [Full convolutions](GTSRB/05-Full-convolutions.ipynb)  \n",
       "Episode 5 : A lot of models, a lot of datasets and a lot of results.\n",
       "- **[GTSRB6](GTSRB/06-Notebook-as-a-batch.ipynb)** - [Full convolutions as a batch](GTSRB/06-Notebook-as-a-batch.ipynb)  \n",
       "Episode 6 : To compute bigger, use your notebook in batch mode\n",
       "- **[GTSRB7](GTSRB/07-Show-report.ipynb)** - [Batch reports](GTSRB/07-Show-report.ipynb)  \n",
       "Episode 7 : Displaying our jobs report, and the winner is...\n",
       "- **[GTSRB10](GTSRB/batch_oar.sh)** - [OAR batch script submission](GTSRB/batch_oar.sh)  \n",
       "Bash script for an OAR batch submission of an ipython code\n",
       "- **[GTSRB11](GTSRB/batch_slurm.sh)** - [SLURM batch script](GTSRB/batch_slurm.sh)  \n",
       "Bash script for a Slurm batch submission of an ipython code\n",
       "\n",
       "### Sentiment analysis with word embedding\n",
       "- **[IMDB1](IMDB/01-Embedding-Keras.ipynb)** - [Sentiment alalysis with text embedding](IMDB/01-Embedding-Keras.ipynb)  \n",
       "A very classical example of word embedding with a dataset from Internet Movie Database (IMDB)\n",
       "- **[IMDB2](IMDB/02-Prediction.ipynb)** - [Reload and reuse a saved model](IMDB/02-Prediction.ipynb)  \n",
       "Retrieving a saved model to perform a sentiment analysis (movie review)\n",
       "- **[IMDB3](IMDB/03-LSTM-Keras.ipynb)** - [Sentiment analysis with a LSTM network](IMDB/03-LSTM-Keras.ipynb)  \n",
       "Still the same problem, but with a network combining embedding and LSTM\n",
       "\n",
       "### Time series with Recurrent Neural Network (RNN)\n",
       "- **[SYNOP1](SYNOP/01-Preparation-of-data.ipynb)** - [Preparation of data](SYNOP/01-Preparation-of-data.ipynb)  \n",
       "Episode 1 : Data analysis and preparation of a meteorological dataset (SYNOP)\n",
       "- **[SYNOP2](SYNOP/02-First-predictions.ipynb)** - [First predictions at 3h](SYNOP/02-First-predictions.ipynb)  \n",
       "Episode 2 : Learning session and weather prediction attempt at 3h\n",
       "- **[SYNOP3](SYNOP/03-12h-predictions.ipynb)** - [12h predictions](SYNOP/03-12h-predictions.ipynb)  \n",
       "Episode 3: Attempt to predict in a more longer term \n",
       "\n",
       "### Unsupervised learning with an autoencoder neural network (AE)\n",
       "- **[AE1](AE/01-AE-with-MNIST.ipynb)** - [Building and training an AE denoiser model](AE/01-AE-with-MNIST.ipynb)  \n",
       "Episode 1 : After construction, the model is trained with noisy data from the MNIST dataset.\n",
       "- **[AE2](AE/02-AE-with-MNIST-post.ipynb)** - [Exploring our denoiser model](AE/02-AE-with-MNIST-post.ipynb)  \n",
       "Episode 2 : Using the previously trained autoencoder to denoise data\n",
       "\n",
       "### Generative network with Variational Autoencoder (VAE)\n",
       "- **[VAE1](VAE/01-VAE-with-MNIST.ipynb)** - [First VAE, with a small dataset (MNIST)](VAE/01-VAE-with-MNIST.ipynb)  \n",
       "Construction and training of a VAE with a latent space of small dimension.\n",
       "- **[VAE2](VAE/02-VAE-with-MNIST-post.ipynb)** - [Analysis of the associated latent space](VAE/02-VAE-with-MNIST-post.ipynb)  \n",
       "Visualization and analysis of the VAE's latent space\n",
       "- **[VAE5](VAE/05-About-CelebA.ipynb)** - [Another game play : About the CelebA dataset](VAE/05-About-CelebA.ipynb)  \n",
       "Episode 1 : Presentation of the CelebA dataset and problems related to its size\n",
       "- **[VAE6](VAE/06-Prepare-CelebA-datasets.ipynb)** - [Generation of a clustered dataset](VAE/06-Prepare-CelebA-datasets.ipynb)  \n",
       "Episode 2 : Analysis of the CelebA dataset and creation of an clustered and usable dataset\n",
       "- **[VAE7](VAE/07-Check-CelebA.ipynb)** - [Checking the clustered dataset](VAE/07-Check-CelebA.ipynb)  \n",
       "Episode : 3 Clustered dataset verification and testing of our datagenerator\n",
       "- **[VAE8](VAE/08-VAE-with-CelebA.ipynb)** - [Training session for our VAE](VAE/08-VAE-with-CelebA.ipynb)  \n",
       "Episode 4 : Training with our clustered datasets in notebook or batch mode\n",
       "- **[VAE9](VAE/09-VAE-withCelebA-post.ipynb)** - [Data generation from latent space](VAE/09-VAE-withCelebA-post.ipynb)  \n",
       "Episode 5 : Exploring latent space to generate new data\n",
       "- **[VAE10](VAE/batch_slurm.sh)** - [SLURM batch script](VAE/batch_slurm.sh)  \n",
       "Bash script for SLURM batch submission of VAE8 notebooks \n",
       "\n",
       "### Miscellaneous\n",
       "- **[ACTF1](Misc/Activation-Functions.ipynb)** - [Activation functions](Misc/Activation-Functions.ipynb)  \n",
       "Some activation functions, with their derivatives.\n",
       "- **[NP1](Misc/Numpy.ipynb)** - [A short introduction to Numpy](Misc/Numpy.ipynb)  \n",
       "Numpy is an essential tool for the Scientific Python.\n",
       "- **[TSB1](Misc/Using-Tensorboard.ipynb)** - [Tensorboard with/from Jupyter ](Misc/Using-Tensorboard.ipynb)  \n",
       "4 ways to use Tensorboard from the Jupyter environment\n",
       "<!-- INDEX_END -->\n",
       "\n",
       "\n",
       "## Installation\n",
       "\n",
       "A procedure for **configuring** and **starting Jupyter** is available in the **[Wiki](https://gricad-gitlab.univ-grenoble-alpes.fr/talks/fidle/-/wikis/Install-Fidle)**.\n",
       "\n",
       "## Licence\n",
       "\n",
       "[<img width=\"100px\" src=\"fidle/img/00-fidle-CC BY-NC-SA.svg\"></img>](https://creativecommons.org/licenses/by-nc-sa/4.0/)  \n",
       "\\[en\\] Attribution - NonCommercial - ShareAlike 4.0 International (CC BY-NC-SA 4.0)  \n",
       "\\[Fr\\] Attribution - Pas d’Utilisation Commerciale - Partage dans les Mêmes Conditions 4.0 International  \n",
       "See [License](https://creativecommons.org/licenses/by-nc-sa/4.0/legalcode).  \n",
       "See [Disclaimer](https://creativecommons.org/licenses/by-nc-sa/4.0/#).  \n",
       "\n",
       "\n",
       "----\n",
       "[<img width=\"80px\" src=\"fidle/img/00-Fidle-logo-01.svg\"></img>](#top)\n"
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       "<IPython.core.display.Markdown object>"
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   ],
   "source": [
    "from IPython.display import display,Markdown\n",
    "display(Markdown(open('README.md', 'r').read()))\n",
    "#\n",
    "# This README is visible under Jupiter LAb ! :-)"
   ]
  }
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