Skip to content

Autograd Engine for Python Written in Python C-API for Speed

License

Notifications You must be signed in to change notification settings

goktug97/minigrad

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

16 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Minigrad

An autograd engine inspired by Karpathy's micrograd library. It is a Drop-In Replacement but it requires you to cast Python numerical types to the Value type.

It is called minigrad because it is a little bit bigger and more complex in terms of readability than micrograd. Engine is implemented in Python C API so it runs faster.

Currently, minigrad.nn and micrograd.nn are the same.

Installation

pip install minigrad

Example usage

a = Value(-4.0)
b = Value(2.0)
c = a + b
d = a * b + b**3.0 # The power exponent must be Python double not Value.
c += c + Value(1.0)
c += Value(1.0) + c + -a
d += d * Value(2.0) + (b + a).relu()
d += Value(3.0) * d + (b - a).relu()
e = c - d
f = e**2.0
g = f / Value(2.0)
g += Value(10.0) / f
print(f'{g.data:.4f}') # prints 24.7041, the outcome of this forward pass
g.backward()
print(f'{a.grad:.4f}') # prints 138.8338, i.e. the numerical value of dg/da
print(f'{b.grad:.4f}') # prints 645.5773, i.e. the numerical value of dg/db

Training a neural net

Refer to demo.ipynb example. It differs from the original implementation in terms of types as the library only allows Value to Value operations. For example Value(2.0) * 2.0 is not allowed, so it should be Value(2.0) * Value(2.0).

Running tests

Should be run under test directory because It will try to import local minigrad and fail because of the C extension. Also it requires PyTorch.

cd test
python -m pytest

License

Minigrad is licensed under the MIT License.

About

Autograd Engine for Python Written in Python C-API for Speed

Topics

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published