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Understand and test language model architectures on synthetic tasks.

Zoology provides machine learning researchers with a simple playground for understanding and testing language model architectures on synthetic tasks. This repository can be used to reproduce the results in our paper Zoology: Measuring and Improving Recall in Efficient Language Models. See the section on reproducing paper experiments for details.


Why did we make Zoology? In our research on efficient language models, synthetic tasks have been crucial for understanding and debugging issues before scaling up to expensive pretraining runs. So, we're releasing the code we've used alongside instructions for replicating a lot of our experiments and their WandB logs. Simplicity is our main design goal: limited dependencies, architecture implementations that are easy to understand, and a straightforward process for adding new synthetic tasks.

Is Zoology a good fit for your use case? If you are looking to actually train a large machine learning model, Zoology's training harness (which is optimized for simplicity) is certainly not a good fit. For our language model research, we've found the GPT-NeoX useful for this. That being said, you might still want to use some of Zoology's layer implementations or maybe even mix the synthetic tasks into your training distribution.

I want to explore the Based architecture. How should I get started? See our repository at HazyResearch/based for the code we used to train and evaluate large Based language models. If you would like to reproduce the synthetic experiments from the Based paper, this is the right repository! See zoology/experiments/arxiv24_based_figure2/README.md for instructions on how to reproduce the results.

Getting started

Installation. First, ensure you have torch installed, or install it following the instructions here. Then, install Zoology with:

git clone https://github.com/HazyResearch/zoology.git
cd zoology
pip install -e .[extra,analysis] 

If you want to keep this install as lightweight as possible; the only required dependencies are: torch, einops, tqdm, pydantic, wandb. There is some extra functionality (e.g. launching sweeps in parallel with Ray) that require additional dependencies. To install without the optional dependencies, run pip install -e ..

Then, try running an example experiment with:

python -m zoology.launch zoology/experiments/examples/basic.py

This will train a simple two layer transformer on multi-query associative recall. To run a sweep over learning rates, try:

python -m zoology.launch zoology/experiments/examples/basic_sweep.py

If you have access to multiple GPUs, you can run the sweep in parallel by adding the -p flag.

Reproducing paper experiments

This repository has been used to produce results in a few papers on efficient language models. The configs, instructions and plotting code for reproducing the figures in these papers are provided in the following sub-folders.

Configuration, Experiments, and Sweeps

In this section, we'll walk through how to configure an experiment and launch sweeps.

Configuration. Models, data, and training are controlled by configuration objects. For details on available configuration fields, see the configuration definition in zoology/config.py. The configuration is a nested Pydantic model, which can be instantiated as follows:

from zoology.config import TrainConfig, ModelConfig, DataConfig, ModuleConfig, FunctionConfig

config = TrainConfig(
    max_epochs=20,
    data=DataConfig(
        train_configs=[MQARConfig(num_examples=10_000, vocab_size=128, input_seq_len=input_seq_len, **factory_kwargs)],
        test_configs=[MQARConfig(num_examples=1_000, vocab_size=128, input_seq_len=input_seq_len, **factory_kwargs)],
    ),
    model=ModelConfig(
        vocab_size=128,
        sequence_mixer=ModuleConfig("name": "zoology.mixers.attention.MHA"}
    ),
)

Note that the FunctionConfig and ModuleConfig are special objects that configure partial functions and PyTorch modules, respectively. They both have an instantiate() method that will import the function or class passed to name and partial or instantiate it with kwargs. For example,

fn_config = FunctionConfig(name="torch.sort", kwargs={"descending": True})
fn = fn_config.instantiate()
fn(torch.tensor([2,4,3])) # [4, 3, 2]

Launching experiments. To launch an experiment from the command line, define a configuration object in python file and store it in a global variable configs:

config = TrainConfig(...)
configs = [config]

See zoology/experiments/examples/basic.py for an example.

Then run python -m zoology.launch zoology/experiments/examples/basic.py, replacing basic.py with the path to your experiment. This will launch a single training job.

Launching sweeps. To launch a sweep, simply add more configuration objects to the configs list. For example, here's the content of zoology/experiments/examples/basic_sweep.py:

import numpy as np
from zoology.config import TrainConfig

configs = []
for lr in np.logspace(-4, -2, 10):
   configs.append(TrainConfig(learning_rate=lr)) 

You can then run python -m zoology.launch zoology/experiments/examples/basic_sweep.py. This will launch a sweep with 10 jobs, one for each configuration.

Launching sweeps in parallel. If you have multiple GPUs on your machine, you can launch sweeps in parallel across your devices. To launch sweeps in parallel, you'll need to install Ray: pip install -e.[extras]. Then, you can run python -m zoology.launch zoology/experiments/basic_sweep.py -p. This will run the configurations in parallel using a pool of workers, one per GPU.

Logging. Zoology uses Weights and Biases for logging. You'll need to login with wandb login and update the LoggerConfig in your configuration to point to your project:

from zoology.config import TrainConfig, LoggerConfig

TrainConfig(
    logger=LoggerConfig(
        project="my_wandb_project",
        entity="my_wandb_entity",
    ),
    ...
)

Data

In this section, we'll walk through how to create a new synthetic task and discuss some of the tasks that are already implemented.

Creating a new task. To create a new task, you'll need to subclass zoology.config.DataSegmentConfig. See zoology/data/associative_recall.py for an example.

class DataSegmentConfig(BaseConfig):
    """
    This class should be subclassed to define per task. For example, MQARConfig
    """
    vocab_size: int = 8_192
    num_examples: int = 1_000
    input_seq_len: int = 64

    def build(self, **kwargs):
        raise NotImplementedError()

You'll need to implement the build method, which should return a zoology.data.utils.DataSegment object, a simple dataclass:

@dataclass
class DataSegment:
    inputs: torch.Tensor
    labels: torch.Tensor
    slices: Dict[str, any] = None

The inputs and labels should be integer tensors with values in the range [0, vocab_size).

You can create this subclass in any file you want, as long as it's importable. Let's assume that we've created a file zoology/data/my_task.py and written our MyDataSegmentConfig function there. Then, we can add it to our data configuration with:

from zoology.config import TrainConfig, DataConfig, FunctionConfig
config = TrainConfig(
    DataConfig(
        train_configs=[MyDataSegmentConfig(num_examples=10_000, vocab_size=128, input_seq_len=input_seq_len, **other_kwargs)],
        test_configs=[MyDataSegmentConfig(num_examples=1_000, vocab_size=128, input_seq_len=input_seq_len, **other_kwargs)],
    ),
)

Caching dataset creation. Sometimes it's useful to cache the dataset creation process, especially if it's expensive. To do so you can pass a cache_dir to the DataConfig: DataConfig(..., cache_dir="my_cache_dir").

About

This repo is being developed by members of the HazyResearch group.

If you use this codebase, or otherwise found our work valuable, please cite:

@article{zoology2023,
  title={Zoology: Measuring and Improving Recall in Efficient Language Models},
  author={Arora, Simran and Eyuboglu, Sabri and Timalsina, Aman and Johnson, Isys and Poli, Michael and Zou, James and Rudra, Atri and Ré, Christopher},
  journal={	arXiv:2312.04927},
  year={2023}
}

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