The domain of Machine learning and Quantum computation are the next big leap in the general experience of computing. Using machine learning we want to take smart decisions and enlarge our solution space. In this era, we can see active research in Medical image processing, self driving cars, Content summarisation, sentiment analysis etc. All these can be obtained by using classical computers. Another domain of active research is Quantum information processing, here we try to use the principles of quantum mechanics to gain a leap in efficiency of information processing task. One such example is Shor's factoring algorithm which can solve the prime factorisation problem in

O((log

*N*)

^{2}(log log

*N*)(log log log

*N*) which is NP hard if we use classical computers. The primary reason which enables this the phenomena of superposition.

The confluence of Classical machine learning with Quantum information theory which gives rise to field of Quantum Machine Learning, which is still in its nascent stages, but never the less very interesting to study. It is interesting to ask two types of questions

a. How good would be a quantum computer in learning the the classical information. To give an example will a quantum computer be able to classify Apples and Oranges better than a classical computer.

b. Another interesting question is to ask will some of the problems which are hard in quantum world be learned using classical computers. One such example is to classify entangled vs separable states.

In this conference I will talk about how two domains are similar and different and what are some proposed solutions for the above stated problems.