/sparse_autoencoder

Primary LanguageTypeScriptMIT LicenseMIT

Sparse autoencoders

This repository hosts:

  • sparse autoencoders trained on the GPT2-small model's activations.
  • a visualizer for the autoencoders' features

Install

pip install git+https://github.com/openai/sparse_autoencoder.git

Code structure

See sae-viewer to see the visualizer code, hosted publicly here.

See model.py for details on the autoencoder model architecture. See paths.py for more details on the available autoencoders.

NOTE: we also hope to release training code soon. stay tuned!

Example usage

import torch
import blobfile as bf
import transformer_lens
import sparse_autoencoder

# Extract neuron activations with transformer_lens
model = transformer_lens.HookedTransformer.from_pretrained("gpt2", center_writing_weights=False)
device = next(model.parameters()).device

prompt = "This is an example of a prompt that"
tokens = model.to_tokens(prompt)  # (1, n_tokens)
with torch.no_grad():
    logits, activation_cache = model.run_with_cache(tokens, remove_batch_dim=True)

layer_index = 6
location = "resid_post_mlp"

transformer_lens_loc = {
    "mlp_post_act": f"blocks.{layer_index}.mlp.hook_post",
    "resid_delta_attn": f"blocks.{layer_index}.hook_attn_out",
    "resid_post_attn": f"blocks.{layer_index}.hook_resid_mid",
    "resid_delta_mlp": f"blocks.{layer_index}.hook_mlp_out",
    "resid_post_mlp": f"blocks.{layer_index}.hook_resid_post",
}[location]

with bf.BlobFile(sparse_autoencoder.paths.v5_32k(location, layer_index), mode="rb") as f:
    state_dict = torch.load(f)
    autoencoder = sparse_autoencoder.Autoencoder.from_state_dict(state_dict)
    autoencoder.to(device)

input_tensor = activation_cache[transformer_lens_loc]

input_tensor_ln = input_tensor

with torch.no_grad():
    latent_activations, info = autoencoder.encode(input_tensor_ln)
    reconstructed_activations = autoencoder.decode(latent_activations, info)

normalized_mse = (reconstructed_activations - input_tensor).pow(2).sum(dim=1) / (input_tensor).pow(2).sum(dim=1)
print(location, normalized_mse)