Organize unstructured data
Project description
Lilac
Better data, better AI
Lilac is a tool for exploration, curation and quality control of datasets for training, fine-tuning and monitoring LLMs.
Lilac is used by companies like Cohere and Databricks to visualize, quantify and improve the quality of pre-training and fine-tuning data.
Lilac runs on-device using open-source LLMs with a UI and Python API.
🆒 New
- Lilac Garden is our hosted platform for blazing fast dataset-level computations. Sign up to join the pilot.
- Cluster & title millions of documents with the power of LLMs. Explore and search over 36,000 clusters of 4.3M documents in OpenOrca
Why use Lilac?
- Explore your data interactively with LLM-powered search, filter, clustering and annotation.
- Curate AI data, applying best practices like removing duplicates, PII and obscure content to reduce dataset size and lower training cost and time.
- Inspect and collaborate with your team on a single, centralized dataset to improve data quality.
- Understand how data changes over time.
Lilac can offload expensive computations to Lilac Garden, our hosted platform for blazing fast dataset-level computations.
See our 3min walkthrough video
🔥 Getting started
💻 Install
pip install lilac[all]
If you prefer no local installation, you can duplicate our Spaces demo by following documentation here.
For more detailed instructions, see our installation guide.
🌐 Start a webserver
Start a Lilac webserver with our lilac
CLI:
lilac start ~/my_project
Or start the Lilac webserver from Python:
import lilac as ll
ll.start_server(project_dir='~/my_project')
This will open start a webserver at http://localhost:5432/ where you can now load datasets and explore them.
Lilac Garden
Lilac Garden is our hosted platform for running dataset-level computations. We utilize powerful GPUs to accelerate expensive signals like Clustering, Embedding, and PII. Sign up to join the pilot.
- Cluster and title a million data points in 20 mins
- Embed your dataset at half a billion tokens per min
- Run your own signal
📊 Load data
Datasets can be loaded directly from HuggingFace, Parquet, CSV, JSON, LangSmith from LangChain, SQLite, LLamaHub, Pandas, Parquet, and more. More documentation here.
import lilac as ll
ll.set_project_dir('~/my_project')
dataset = ll.from_huggingface('imdb')
If you prefer, you can load datasets directly from the UI without writing any Python:
🔎 Explore
[!NOTE] 🔗 Explore OpenOrca and its clusters before installing!
Once we've loaded a dataset, we can explore it from the UI and get a sense for what's in the data. More documentation here.
✨ Clustering
Cluster any text column to get automated dataset insights:
dataset = ll.get_dataset('local', 'imdb')
dataset.cluster('text') # add `use_garden=True` to offload to Lilac Garden
[!TIP] Clustering on device can be slow or impractical, especially on machines without a powerful GPU or large memory. Offloading the compute to Lilac Garden, our hosted data processing platform, can speedup clustering by more than 100x.
⚡ Annotate with Signals (PII, Text Statistics, Language Detection, Neardup, etc)
Annotating data with signals will produce another column in your data.
dataset = ll.get_dataset('local', 'imdb')
dataset.compute_signal(ll.LangDetectionSignal(), 'text') # Detect language of each doc.
# [PII] Find emails, phone numbers, ip addresses, and secrets.
dataset.compute_signal(ll.PIISignal(), 'text')
# [Text Statistics] Compute readability scores, number of chars, TTR, non-ascii chars, etc.
dataset.compute_signal(ll.PIISignal(), 'text')
# [Near Duplicates] Computes clusters based on minhash LSH.
dataset.compute_signal(ll.NearDuplicateSignal(), 'text')
# Print the resulting manifest, with the new field added.
print(dataset.manifest())
We can also compute signals from the UI:
🔎 Search
Semantic and conceptual search requires computing an embedding first:
dataset.compute_embedding('gte-small', path='text')
Semantic search
In the UI, we can search by semantic similarity or by classic keyword search to find chunks of documents similar to a query:
We can run the same search in Python:
rows = dataset.select_rows(
columns=['text', 'label'],
searches=[
ll.SemanticSearch(
path='text',
embedding='gte-small')
],
limit=1)
print(list(rows))
Conceptual search
Conceptual search is a much more controllable and powerful version of semantic search, where "concepts" can be taught to Lilac by providing positive and negative examples of that concept.
Lilac provides a set of built-in concepts, but you can create your own for very specif
We can create a concept in Python with a few examples, and search by it:
concept_db = ll.DiskConceptDB()
db.create(namespace='local', name='spam')
# Add examples of spam and not-spam.
db.edit('local', 'spam', ll.concepts.ConceptUpdate(
insert=[
ll.concepts.ExampleIn(label=False, text='This is normal text.'),
ll.concepts.ExampleIn(label=True, text='asdgasdgkasd;lkgajsdl'),
ll.concepts.ExampleIn(label=True, text='11757578jfdjja')
]
))
# Search by the spam concept.
rows = dataset.select_rows(
columns=['text', 'label'],
searches=[
ll.ConceptSearch(
path='text',
concept_namespace='lilac',
concept_name='spam',
embedding='gte-small')
],
limit=1)
print(list(rows))
🏷️ Labeling
Lilac allows you to label individual points, or slices of data:
We can also label all data given a filter. In this case, adding the label "short" to all text with a
small amount of characters. This field was produced by the automatic text_statistics
signal.
We can do the same in Python:
dataset.add_labels(
'short',
filters=[
(('text', 'text_statistics', 'num_characters'), 'less', 1000)
]
)
Labels can be exported for downstream tasks. Detailed documentation here.
💬 Contact
For bugs and feature requests, please file an issue on GitHub.
For general questions, please visit our Discord.
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