Part 10 π of Intro to NumPy, what a journey guys, thanks for sticking around for these posts!! On to part 100 shall we??
.
Follow u0040bigdataguru for tutorials and instructional posts on AI, machine learning and deep learning!
.
.
π¨βπ»#NumPy
.
Follow u0040bigdataguru for tutorials and instructional posts on AI, machine learning and deep learning!
.
.
π¨βπ»#NumPy
.
np.tile() is one of the most beautiful yet super useful functions there is in NumPy and Python! Happy weekend!! ππ
.
Typo alert: 4th slide should say np.array([[6], [7]]) for the picture to match!
.
π¨βπ»#NumPy
np.tile() is one of the most beautiful yet super useful functions there is in NumPy and Python! Happy weekend!! ππ
.
Typo alert: 4th slide should say np.array([[6], [7]]) for the picture to match!
.
π¨βπ»#NumPy
np.cumsum() is a useful function when it comes to doing big data cumulative sums. See it, learn it, and use it πͺ
.
.
.
π¨βπ»#NumPy
.
.
.
π¨βπ»#NumPy
This post is inspired by a great question on the last post! So keep asking great questions and motivate future posts πͺ
.
.
π¨βπ»#NumPy
.
.
π¨βπ»#NumPy
Hi Data Science enthusiasts π
.
Today, we are gonna talk about broadcasting in NumPy π’
.
Broadcasting is a powerful, useful yet tricky feature in NumPy. If you know it well and use it intentionally, you can simplify a lot of code π
.
However, if itβs used by mistake it can create bugs and a lot of headaches π€
.
Thatβs because in NumPy, you can easily do operations between matrices even if they donβt have the same shape π
.
NumPy βbroadcastsβ the smaller matrix (if valid for the operation) and repeats the operation per element, row, column, etc π€
.
In todayβs code snippet, a scalar broadcasts into the same size of a matrix to be subtracted. Similarly, a row and column vector broadcasts into the right shape before getting subtracted!
.
Wanna know how? Check out the post!
.π¨βπ»#NumPy
.
Today, we are gonna talk about broadcasting in NumPy π’
.
Broadcasting is a powerful, useful yet tricky feature in NumPy. If you know it well and use it intentionally, you can simplify a lot of code π
.
However, if itβs used by mistake it can create bugs and a lot of headaches π€
.
Thatβs because in NumPy, you can easily do operations between matrices even if they donβt have the same shape π
.
NumPy βbroadcastsβ the smaller matrix (if valid for the operation) and repeats the operation per element, row, column, etc π€
.
In todayβs code snippet, a scalar broadcasts into the same size of a matrix to be subtracted. Similarly, a row and column vector broadcasts into the right shape before getting subtracted!
.
Wanna know how? Check out the post!
.π¨βπ»#NumPy