 The human brain is 100,000 times smaller than a supercomputer and also consumes 100,000 times less energy than a supercomputer. Yet in terms of intelligence, it outputs all those strong, expensive machines that we are using. So the question is where does the brain get its power? For the last 13 or 14 years that I've been studying neuroscience, I've read so many books that tell us how the brain works. But what I find is missing is that it tells us that where the power and the vision of the brain come from. Then I came across this book that pretty much answers this question. Because of that, I found that it would benefit the students to introduce a course based on this subject. This course is not limited to theoretical part. Students will learn about some of the most popular techniques that are used in modern neurosciences, including in vivo-electrophysiology and large-scale single cell energy. You will learn how we perform the surgery in the laboratory for acute experiments and also chronic implantations. And you will also learn how to interpret some of the evoked potential signals that we can evoke with electricity or with light for the genetics. In the course, I'm going to explain you about a technique that we use that is called calcium imaging. And for that technique, we have a miniature microscope that is connected on top of the head of the animal. And we can see why the animal is behaving. We can track the activity of the neurons and follow these neurons all the day. So during the course, we are going to study what is the basis of calcium imaging technique and how this can help us to understand how the brain functions. I hope that you join us for this course this November.