Although both of the above methods provide a better score for the better closeness of prediction, still crossentropy is preferred. Is it in every case or there are some peculiar scenarios where we prefer crossentropy over MSE?

See heliosphan.org/crossentropy.html and heliosphan.org/generativemodels.html – redcalx Oct 31 '16 at 22:51
Crossentropy is prefered for classification, while mean squared error is one of the best choices for regression. This comes directly from the statement of the problems itself  in classification you work with very particular set of possible output values thus MSE is badly defined (as it does not have this kind of knowledge thus penalizes errors in incompatible way). To better understand the phenomena it is good to follow and understand the relations between
 cross entropy
 logistic regression (binary cross entropy)
 linear regression (MSE)
You will notice that both can be seen as a maximum likelihood estimators, simply with different assumptions about the dependent variable.

3Could you please elaborate more on "assumptions about the dependent variable" ? – yuefengz Nov 15 '16 at 23:40

1@Fake  as Duc pointed out in the separate answer, logistic regression assumes binomial distribution (or multinomial in generalised case of cross entropy and softmax) of the dependent variable, while linear regression assumes that it is a linear function of the variables plus an IID sampled noise from a 0mean gaussian noise with fixed variance. – lejlot Aug 28 '17 at 15:32

I once trained a single output neuron using MSEloss to output 0 or 1 [for negative and positive classes]. The result was that all the outputs were at the extremes  you couldn't pick a threshold. Using two neurons with CE loss got me a much smoother result, so I could pick a threshold. Probably BCE is what you want to use if you stay with a single neuron. – SomethingSomething Jun 3 at 9:54
When you derive the cost function from the aspect of probability and distribution, you can observe that MSE happens when you assume the error follows Normal Distribution and cross entropy when you assume binomial distribution. It means that implicitly when you use MSE, you are doing regression (estimation) and when you use CE, you are doing classification. Hope it helps a little bit.

Say we have 2 probability distribution vectors: actual [0.3, 0.5, 0.1, 0.1] and predicted [0.4, 0.2, 0.3, 0.1] Now if we use MSE to determine our loss, why would this be a bad choice than KL divergence? What are the features that are missed when we perform MSE on such a data? – akshit bhatia Apr 23 '19 at 12:33

Could you show how gaussian leads to MSE and binomial leads to cross entropy? – Kunyu Shi Aug 14 '19 at 5:52

@KunyuShi Look at the PDF/PMF of the normal and Bernoulli distributions. If we take their log (which we generally do, to simplify the loss function) we get MSE and binary crossentropy, respectively. – A_P Feb 6 at 23:36
If you do logistic regression for example, you will use the sigmoid function to estimate de probability, the cross entropy as the loss function and gradient descent to minimize it. Doing this but using MSE as the loss function might lead to a nonconvex problem where you might find local minima. Using cross entropy will lead to a convex problem where you might find the optimum solution.
https://www.youtube.com/watch?v=rtD0RvfBJqQ&list=PL0Smm0jPm9WcCsYvbhPCdizqNKps69W4Z&index=35
There is also an interesting analysis here: https://jamesmccaffrey.wordpress.com/2013/11/05/whyyoushouldusecrossentropyerrorinsteadofclassificationerrorormeansquarederrorforneuralnetworkclassifiertraining/

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