Lets revisit python first.
Well, since a long time I have been stuck in importing modules in python.
Everytime I download some library, I cd into that directory and then need to load it.
As the paths to these downloads are long in length ,most of the times I copy into the Downloads directory in/home and then work on it.But that too is a bit cumbersome at times.The issues becomes gross when I start working on windows with the same.The paths are soo long.
After overcoming the "Aaalas", I googled a bit to see what is a better solution of working on modules located in non-working directory and the Google always comes to my rescue :) [Really, the day I get rich, I will definitely make a generous donation to these guys :)]
So here it goes:
Well, since a long time I have been stuck in importing modules in python.
Everytime I download some library, I cd into that directory and then need to load it.
As the paths to these downloads are long in length ,most of the times I copy into the Downloads directory in/home and then work on it.But that too is a bit cumbersome at times.The issues becomes gross when I start working on windows with the same.The paths are soo long.
After overcoming the "Aaalas", I googled a bit to see what is a better solution of working on modules located in non-working directory and the Google always comes to my rescue :) [Really, the day I get rich, I will definitely make a generous donation to these guys :)]
So here it goes:
Now coming to the experimenting time:
Aim:
1/ Explore the expeyes in Windows using Ipython notebook
2/ Generate a sine wave using expeyes , sample it at a particular frequency, generate its dft using numpy fft lib.
3/ Understand the relation between sample number in the DFT spectrum to actual physical frequency it represents.
My Expeyes Junior :)
Aim:
1/ Explore the expeyes in Windows using Ipython notebook
2/ Generate a sine wave using expeyes , sample it at a particular frequency, generate its dft using numpy fft lib.
3/ Understand the relation between sample number in the DFT spectrum to actual physical frequency it represents.
My Expeyes Junior :)