Autograd
Autodidact: a pedagogical implementation ofThis is a tutorial implementation based on the full version of Autograd.
Example use:
>>> import autograd.numpy as np # Thinly-wrapped numpy
>>> from autograd import grad # The only autograd function you may ever need
>>>
>>> def tanh(x): # Define a function
... y = np.exp(-2.0 * x)
... return (1.0 - y) / (1.0 + y)
...
>>> grad_tanh = grad(tanh) # Obtain its gradient function
>>> grad_tanh(1.0) # Evaluate the gradient at x = 1.0
0.41997434161402603
>>> (tanh(1.0001) - tanh(0.9999)) / 0.0002 # Compare to finite differences
0.41997434264973155
We can continue to differentiate as many times as we like, and use numpy's vectorization of scalar-valued functions across many different input values:
>>> import matplotlib.pyplot as plt
>>> x = np.linspace(-7, 7, 200)
>>> plt.plot(x, tanh(x),
... x, grad(tanh)(x), # first derivative
... x, grad(grad(tanh))(x), # second derivative
... x, grad(grad(grad(tanh)))(x), # third derivative
... x, grad(grad(grad(grad(tanh))))(x), # fourth derivative
... x, grad(grad(grad(grad(grad(tanh)))))(x), # fifth derivative
... x, grad(grad(grad(grad(grad(grad(tanh))))))(x)) # sixth derivative
>>> plt.show()
Autograd was written by Dougal Maclaurin, David Duvenaud and Matt Johnson. See the main page for more information.