TerraScale ML - Group 5 ======================= This hackmd document will serve as our collaborative note taking tool. Feel free to add anything you want to this to help each other out. The goal of our sessions is to discuss what you just learned and then try ourselves with some hands on exercises. ## Important Links: - Indico: https://indico.desy.de/event/28296/ - Main hackmd: https://hackmd.io/P6LPegsuQ9ikLtgf6jpxaw - Google Collab: https://colab.research.google.com (To copy the notebook to your drive you will need a google account..) ## How we will stay in touch: - Mattermost: https://mattermost.web.cern.ch/terascale-ml/channels/group-5 - Zoom: https://cern.zoom.us/j/63832089462?pwd=S3FrZE9udEJYaFhmUE51cUp2YjF3QT09 Before we start, let's say hello in this document to check that everyone has figured out how to edit this file! ## Lesson 1 - [ ] - https://deeplearning540.github.io/lesson01/content.html - https://github.com/deeplearning540/lesson01/blob/main/lesson.ipynb - [Download link video](https://indico.desy.de/event/28296/contributions/99576/attachments/64395/79079/deeplearning540-lesson01-2021-02-19_17.59.48.mkv) ### Check your Learning #### Exercise 1 **In the following, the order of steps was confused, please rearrange:** 1. collect training data, compute accuracy, predict new data, fit training data - + 2. compute accuracy, collect training data, predict new data, fit training data - 3. collect training data, fit training data, compute accuracy, predict new data - + + + + + + + 4. collect training data, predict new data, fit training data, compute accuracy #### Exercise 2 **The least squares method for an input data pair `x` and `y` derives it’s name as it …** 1. Minimizes the sum of the product of `x*y` 2. Minimizes the sum of the absolute difference between `y` and the predicted `y_hat` 3. Minimizes the sum of the squared difference between `y` and the predicted `y_hat` - + + + + + + + + 4. Minimizes the sum of `y**2` and `x**2` #### Exercise 3 **NaN stands for not-a-number. When loading a dataset with `pandas`, NaN values occur in the loaded data because ...** 1. Input files contain string values in a column 2. Computational Problems occurred, like computing the square root of a negative number - + + + + 3. Data could not be parsed correctly when reading input files into memory - + + + + + + 4. there was no internet connection ## Lesson 2 - https://deeplearning540.github.io/lesson02/content.html - https://github.com/deeplearning540/lesson02/blob/main/lesson.ipynb - [Download link video](https://indico.desy.de/event/28296/contributions/97975/attachments/64396/79084/deeplearning540_lesson02-2021-02-22_23.30.44.mkv) ### Check your Learning The following questions serve as a help for learners to reflect on the content of the videos. Answer at least one question. At best you want to answer these questions as a team. #### Exercise 1 You are provided a table of measurements from a weather station. Each measurements comes with values for temperature, precipation, cloud structure, date, humidity, and a quality ID. The latter tells you if the instrument was performing OK. You'd like to learn an algorithm that is able to predict the quality ID (5 possible integer values from 0 to 4) for any new data coming in. This falls into ... 1. Supervised Learning - + + + + + 2. Unsupervised Learning 3. Reinforcement Learning #### Exercise 2 You are given a dataset of iris flowers. The data set consists of 50 samples from each of three species of Iris (Iris setosa, Iris virginica and Iris versicolor). Four features were measured from each sample: the length and the width of the sepals and petals, in centimeters. Which of the following feature combinations lend themselves for clustering? See [`this overview plot`](<https://en.wikipedia.org/wiki/Iris_flower_data_set#/media/File:Iris_dataset_scatterplot.svg>) for help. 1. Sepal.Length versus Sepal.Width 2. Sepal.Length versus Petal.Width - + 3. Petal.Length versus Petal.Width - + + + + + + 4. Sepal.Width versus Petal.Width - + + + #### Exercise 3 You are helping to organize a conference of more than 1000 attendants. All participants have already paid and are expecting to pick up their conference t-shirt on the first day. Your team is in shock as it discovers that t-shirt sizes have not been recorded during online registration. However, all participants were asked to provide their age, gender, body height and weight. To help out, you sit down to write a python script that predicts the t-shirt size for each participant using a clustering algorithm. You know that you can only get 7 t-shirt sizes (XS, S, M, L, XL, XXL). This falls into: 1. Supervised Learning 2. Unsupervised Learning - + + + + + + + 3. Reinforcement Learning ## Lesson 03 - Lesson 03: From Clustering To Classification [video](), [learner notebook](https://github.com/deeplearning540/lesson03/blob/main/lesson.ipynb) ### Questions about lesson 03 ### Questions about exercises for lesson 03 ### Check your Learning #### Exercise 1 1.) When using the k-Nearest-Neighbor (kNN) algorithm for classifying a query point x_q, the k stands for: 1. the number of neighbors that must have a given label for the query point to get this label assigned - 2. the number of classes occurring in the data set - 3. the number of observations that define a neighborhood - ++++++++++ 4. the number of clusters in the dataset - #### Exercise 2 2.) When going through tutorials and exercises that discuss the k-Nearest-Neighbor (kNN) method, you observe that k is typically chosen to be an odd number. Checking the code, sklearn also access even numbers for k. Why do people tend to choose odd numbers? - tradition that often works best in practice - odd numbers prevent ties from happening with the majority vote - ++++++ - this way, the total number of samples in the neighborhood is always even as one has to add the query sample - odd numbers prevent ties from happening with the plurarity vote - (+)for binary classification - + #### Exercise 3 3.) What is the majority vote and the plurality vote if the 8 nearest neighbors to your unknown data point are of the following classes: a. - class 1: 3 - class 2: 2 - class 3: 2 - class 4: 1 majority vote: none___ plurality vote: c1___ b. - class 1: 5 - class 2: 2 - class 3: 1 majority vote: c1___ plurality vote: c1___ #### Exercise 4 4.) Find the four hidden bug(s)! from sklearn.neighbors import KNeighborsClassifier as knn from sklearn.model_selection import train_test_split from sklearn.metrics import confusion_matrix # ... load dataset ... X_train, X_test, y_train, y_test = train_test_split(X, y, test_size = 1.5, random_state = 42) kmeans = knn(n_neighbors=5) kmeans = kmeans.fit(X_train, y_train) y_test_hat = kmeans.predict(X_train) cm = confusion_matrix(y_train, y_test_hat) accuracy = (cm[0,0]+cm[0,1]) / cm.sum() Bugs: - y_test_hat should come from predicting X_test - Acc calculation wrong - test size >1 - confusion matrix should be calculated from y_test ## Lesson 04 #### Exercise 1 The ROC acronym stands for: 1. Receiver Operator Curve - 2. Receiving Operates Curves - 3. Receiver Operating Characteristic - + ++ + + + 4. Reception Occlusion Characteristic - #### Exercise 2 Fill in the blanks! A k-Nearest-Neighbor (kNN) classifier can produce a probability when predicting the class label of an unseen sample x_q. This can be achieved by counting class _______ in the training set neighborhood of this query point. - frequencies(?) For a k=7 neighborhood, the threshold to decide for any given class in this neighborhood is calculated as 4/__. In the same setting (k=7), let’s assume we find 5 labels for class 1 and 2 labels for class 0. This means, that we get two probabilities, which are _____ for class 1 and _____ for class 0. - 7, 5/7, 2/7 ## Lesson 05 #### Check your Learning The following questions serve as a help for learners to reflect on the content of the videos. Answer at least one question. At best you want to answer these questions as a team. #### Exercise 1 A hidden layer of an artificial neural network consists of a fixed set of parts. These are...: 1. ...weights 𝑊 and a bias term 𝑏⃗ - 2. ...weights 𝑊 and a non-linear activation function 𝐹 - 3. ...a bias term 𝑏⃗ and a non-linear activation function 𝐹 - 4. ...weights 𝑊, a bias term 𝑏⃗ and a non-linear activation function 𝐹 - + + + ++ #### Exercise 2 Unlike scikit-learn, keras is a machine learning framework that...: 1. ...offers one-stop-shop prepared networks that are already published 2. ...offers building blocks to construct neural networks on CPU or GPU architectures - + 3. ...offers an API to either wrap around backends (keras library) or represents the high-level API for tensorflow - ++ 4. ...all of the above - + + ## Lesson 06 #### Exercise 1 The advantage of mini-batched based optimisation compared to online gradient descent or full data set gradient descent is … 1. a mini-batch represents the entire data set and hence is enough to optimize on 2. the optimisation converges faster - + 3. the optimisation can be performed in memory independent of the data set size - +++++ 4. the optimisation can be performed in memory independent of the data set size 5. the optimisation will converge always into a global optimum #### Exercise 2 Categorical Cross-Entropy is part of a well-known divergence in statistics. A divergence is a method to compare two probability density functions. It provides a large value if two distributions are different and a small value if they are similar. This well-known divergance that spurrs the Categorical Cross-Entropy is … 1. Mean-Squared-Error divergence 2. Negative-Log-Likelihood divergence 3. Kullback-Leibler divergence - ++++++ 4. Maximum-Mean-Discreptancy divergence #### Exercise 3 The gradient that is required for gradient descent is the gradient … 1. of the loss function L with respect to the testset input data, df/dx, given the network parameters theta 2. of the network f with respect to the input data, df/dx, given the network parameters theta 3. of the network f with respect to the network parameters, df/dtheta, given the training data x 4. of the loss function L with respect to the network parameters, df/dtheta, given the training data x - ++++++ ## Lesson 07 #### Exercise 1 Fill in the blanks to produce a CNN for classification! from tensorflow import keras from keras.layers import Input, Dense, Dropout, Flatten, Conv2D, MaxPooling2D ###### load the data ###### define the network conv1 = Conv2D(16, kernel_size=(3,3), activation=’relu’, input_shape=X_train.shape[1:]) conv2 = Conv2D(32, kernel_size=(3,3), activation=’relu’) mpool = MaxPooling2D(pool_size=(2,2)) ###### MLP layers flat = Flatten() dense1 = Dense(128, activation='relu') dense2 = Dense(num_classes, activation = 'softmax') ###### compile and train x_inputs = Input(shape=X_train.shape[1:]) x = conv1(x_inputs) x = conv2(x) x = mpool(x) x = flat(x) x = dense1(x) output_yhat = dense2(x) model = keras.Model(inputs = x_inputs, outputs = output_yhat, name=”hello-world-cnn”) #### Exercise 2 The Flatten operation rearranges an input image (or feature map) into a sequence of numbers. How does it perform this? 1. the pixel intensities are averaged per row and concatenated 2. all rows of the input are added and provided as a result 3. all columns of the input are concatenated (from top to bottom) 4. all rows of the input are concatenated (from top to bottom) - ++ + #### Exercise 3 For an input image shape of 28x28 what is the shape of the feature map after running the image through a single 5x5 convolutional filter? 1. 24x28 2. 20x28 3. 26x26 - 4. 24x24 - + + + + + #### Exercise 4 For an MNIST input image, how many parameters does a Conv2D layer require when being defined to produce 16 feature maps as output and a 3x3 neighborhood. How many parameters does a Dense layer with 16 outputs have? Compute the two parameter counts! --- (3x3x1+1)x16 160? (28,28) mnist image 1. (28x28x32) 2. 28x28x16 + 16 - + + 3. (28X28 + 1)*16