min(DALL·E)
This is a fast, minimal port of Boris Dayma's DALL·E Mega. It has been stripped down for inference and converted to PyTorch. The only third party dependencies are numpy, requests, pillow and torch.
To generate a 4x4 grid of DALL·E Mega images it takes:
- 89 sec with a T4 in Colab
- 48 sec with a P100 in Colab
- 13 sec with an A100 on Replicate
The flax model and code for converting it to torch can be found here.
Install
$ pip install min-dalle
Usage
Load the model parameters once and reuse the model to generate multiple images.
from min_dalle import MinDalle
model = MinDalle(
models_root='./pretrained',
dtype=torch.float32,
is_mega=True,
is_reusable=True
)
The required models will be downloaded to models_root
if they are not already there. Set the dtype
to torch.float16
to save GPU memory. If you have an Ampere architecture GPU you can use torch.bfloat16
. Once everything has finished initializing, call generate_image
with some text as many times as you want. Use a positive seed
for reproducible results. Higher values for log2_supercondition_factor
result in better agreement with the text but a narrower variety of generated images. Every image token is sampled from the top-$k$ most probable tokens.
image = model.generate_image(
text='Nuclear explosion broccoli',
seed=-1,
grid_size=4,
log2_k=6,
log2_supercondition_factor=5,
is_verbose=False
)
display(image)
Saving Individual Images
The images can also be generated as a FloatTensor
in case you want to process them manually.
images = model.generate_images(
text='Nuclear explosion broccoli',
seed=-1,
image_count=7,
log2_k=6,
log2_supercondition_factor=5,
is_verbose=False
)
To get an image into PIL format you will have to first move the images to the CPU and convert the tensor to a numpy array.
images = images.to('cpu').numpy()
Then image
image = Image.fromarray(images[i])
image.save('image_{}.png'.format(i))
Interactive
If the model is being used interactively (e.g. in a notebook) generate_image_stream
can be used to generate a stream of images as the model is decoding. The detokenizer adds a slight delay for each image. Setting log2_mid_count
to 3 results in a total of 2 ** 3 = 8
generated images. The only valid values for log2_mid_count
are 0, 1, 2, 3, and 4. This is implemented in the colab.
image_stream = model.generate_image_stream(
text='Dali painting of WALL·E',
seed=-1,
grid_size=3,
log2_mid_count=3,
log2_k=6,
log2_supercondition_factor=3,
is_verbose=False
)
for image in image_stream:
display(image)
Command Line
Use image_from_text.py
to generate images from the command line.
$ python image_from_text.py --text='artificial intelligence' --no-mega