Please help me understand the difference between a Generative and Discriminative Algorithm keeping in mind that I am just a beginner.
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Let's say you have input data x and you want to classify the data into labels y. A generative model learns the joint probability distribution Here's a really simple example. Suppose you have the following data in the form (x,y):
If you take a few minutes to stare at those two matrices, you will understand the difference between the two probability distributions. The distribution From the description above you might be thinking that generative models are more generally useful and therefore better, but it's not as simple as that. This paper is a very popular reference on the subject of discriminative vs. generative classifiers, but it's pretty heavy going. The overall gist is that discriminative models generally outperform generative models in classification tasks. 


A generative algorithm models how the data was generated in order to categorize a signal. It asks the question: based on my generation assumptions, which category is most likely to generate this signal? A discriminative algorithm does not care about how the data was generated, it simply categorizes a given signal. 


Imagine your task is to classify a speech to a language: you can do it either by: 1) Learning each language and then classifying it using the knowledge you just gained OR 2) Determining the difference in the linguistic models without learning the languages and then classifying the speech. the first one is the Generative Approach and the second one is the Discriminative approach. check this reference for more details: http://www.cedar.buffalo.edu/~srihari/CSE574/DiscriminativeGenerative.pdf 


Although this topic is quite old, I think it's worth to add this important distinction. In practice the models are used as follows. In discriminative models to predict the label y from the training example x, you must evaluate: Which merely chooses what is the most likely class considering x. It's like we were trying to model the decision boundary between the classes. This behavior is very clear in neural networks, where the computed weights can be seen as a complex shaped curve isolating the elements of a class in the space. Now using Bayes' rule, let's replace the in the equation by . Since you are just interested in the arg max, you can wipe out the denominator, that will be the same for every y. So you are left with Which is the equation you use in generative models. While in the first case you had the conditional probability distribution p(yx), which modeled the boundary between classes, in the second you had the joint probability distribution p(x, y), since p(x, y) = p(x  y) p(y), which explicitly models the actual distribution of each class. With the joint probability distribution function, given an y, you can calculate ("generate") its respective x. For this reason they are called generative models. 


Generally there is a practice in machine learning community not to learn something that you don’t want for the task. For example, consider a classification task where you goal is to assign y labels to a given x input. If we use generative model
we have to model p(x) which is irreverent for the task in hand. Practical limitations like data sparseness will force us to model 

