A Python vector database you just need - no more, no less.
vectordb
is a Pythonic vector database offers a comprehensive suite of CRUD (Create, Read, Update, Delete) operations and robust scalability options, including sharding and replication. It's readily deployable in a variety of environments, from local to on-premise and cloud. vectordb
delivers exactly what you need - no more, no less. It's a testament to effective Pythonic design without over-engineering, making it a lean yet powerful solution for all your needs.
vectordb
capitalizes on the powerful retrieval prowess of DocArray and the scalability, reliability, and serving capabilities of Jina. Here's the magic: DocArray serves as the engine driving vector search logic, while Jina guarantees efficient and scalable index serving. This synergy culminates in a robust, yet user-friendly vector database experience - that's vectordb
for you.
pip install vectordb
- Kick things off by defining a Document schema with the DocArray dataclass syntax:
from docarray import BaseDoc
from docarray.typing import NdArray
class ToyDoc(BaseDoc):
text: str = ''
embedding: NdArray[128]
- Opt for a pre-built database (like
InMemoryExactNNVectorDB
orHNSWVectorDB
), and apply the schema:
from docarray import DocList
import numpy as np
from vectordb import InMemoryExactNNVectorDB, HNSWVectorDB
# Specify your workspace path
db = InMemoryExactNNVectorDB[ToyDoc](workspace='./workspace_path')
# Index a list of documents with random embeddings
doc_list = [ToyDoc(text=f'toy doc {i}', embedding=np.random.rand(128)) for i in range(1000)]
db.index(inputs=DocList[ToyDoc](doc_list))
# Perform a search query
query = ToyDoc(text='query', embedding=np.random.rand(128))
results = db.search(inputs=DocList[ToyDoc]([query]), limit=10)
# Print out the matches
for m in results[0].matches:
print(m)
Since we issued a single query, results
contains only one element. The nearest neighbour search results are conveniently stored in the .matches
attribute.
vectordb
is designed to be easily served as a service, supporting gRPC
, HTTP
, and Websocket
communication protocols.
On the server side, you would start the service as follows:
with db.serve(protocol='grpc', port=12345, replicas=1, shards=1) as service:
service.block()
This command starts vectordb
as a service on port 12345
, using the gRPC
protocol with 1
replica and 1
shard.
On the client side, you can access the service with the following commands:
from vectordb import Client
# Instantiate a client connected to the server. In practice, replace 0.0.0.0 to the server IP address.
client = Client[ToyDoc](address='grpc://0.0.0.0:12345')
# Perform a search query
results = client.search(inputs=DocList[ToyDoc]([query]), limit=10)
This allows you to perform a search query, receiving the results directly from the remote vectordb
service.
You can seamlessly deploy your vectordb
instance to Jina AI Cloud, which ensures access to your database from any location.
Start by embedding your database instance or class into a Python file:
# example.py
from docarray import BaseDoc
from vectordb import InMemoryExactNNVectorDB
db = InMemoryExactNNVectorDB[ToyDoc](workspace='./vectordb') # notice how `db` is the instance that we want to serve
if __name__ == '__main__':
# IMPORTANT: make sure to protect this part of the code using __main__ guard
with db.serve() as service:
service.block()
Next, follow these steps to deploy your instance:
-
If you haven't already, sign up for a Jina AI Cloud account.
-
Use the
jc
command line to login to your Jina AI Cloud account:
jc login
- Deploy your instance:
vectordb deploy --db example:db
After deployment, use the vectordb
Client to access the assigned endpoint:
from vectordb import Client
# replace the ID with the ID of your deployed DB as shown in the screenshot above
c = Client(address='grpcs://ID.wolf.jina.ai')
Manage your deployed instances using jcloud
You can then list, pause, resume or delete your deployed DBs with jc
command:
jcloud list ID
jcloud pause ID
or jcloud resume ID
jcloud remove ID
Vector databases serve as sophisticated repositories for embeddings, capturing the essence of semantic similarity among disparate objects. These databases facilitate similarity searches across a myriad of multimodal data types, paving the way for a new era of information retrieval. By providing contextual understanding and enriching generation results, vector databases greatly enhance the performance and utility of Language Learning Models (LLM). This underscores their pivotal role in the evolution of data science and machine learning applications.
Both the local library usage and the client-server interactions in vectordb
share the same API. This provides index
, search
, update
, and delete
functionalities:
index
: Accepts aDocList
to index.search
: Takes aDocList
of batched queries or a singleBaseDoc
as a single query. It returns either single or multiple results, each withmatches
andscores
attributes sorted byrelevance
.delete
: Accepts aDocList
of documents to remove from the index. Only theid
attribute is necessary, so make sure to track theindexed
IDs
if you need to delete documents.update
: Accepts aDocList
of documents to update in the index. Theupdate
operation will replace theindexed
document with the same index with the attributes and payload from the input documents.
You can serve vectordb
and access it from a client with the following parameters:
- protocol: The serving protocol. It can be
gRPC
,HTTP
,websocket
or a combination of them, provided as a list. Default isgRPC
. - port: The service access port. Can be a list of ports for each provided protocol. Default is 8081.
- workspace: The path where the VectorDB persists required data. Default is '.' (current directory).
You can set two scaling parameters when serving or deploying your Vector Databases with vectordb
:
- Shards: The number of data shards. This improves latency, as
vectordb
ensures Documents are indexed in only one of the shards. Search requests are sent to all shards and results are merged. - Replicas: The number of DB replicas.
vectordb
uses the RAFT algorithm to sync the index between replicas of each shard. This increases service availability and search throughput, as multiple replicas can respond in parallel to more search requests while allowing CRUD operations. Note: In JCloud deployments, the number of replicas is set to 1. We're working on enabling replication in the cloud.
Here are the parameters for each VectorDB
type:
This database performs exhaustive search on embeddings and has limited configuration settings:
workspace
: The folder where required data is persisted.
InMemoryExactNNVectorDB[MyDoc](workspace='./vectordb')
InMemoryExactNNVectorDB[MyDoc].serve(workspace='./vectordb')
This database employs the HNSW (Hierarchical Navigable Small World) algorithm from HNSWLib for Approximate Nearest Neighbor search. It provides several configuration options:
workspace
: Specifies the directory where required data is stored and persisted.
Additionally, HNSWVectorDB offers a set of configurations that allow tuning the performance and accuracy of the Nearest Neighbor search algorithm. Detailed descriptions of these configurations can be found in the HNSWLib README:
space
: Specifies the similarity metric used for the space (options are "l2", "ip", or "cosine"). The default is "l2".max_elements
: Sets the initial capacity of the index, which can be increased dynamically. The default is 1024.ef_construction
: This parameter controls the speed/accuracy trade-off during index construction. The default is 200.ef
: This parameter controls the query time/accuracy trade-off. The default is 10.M
: This parameter defines the maximum number of outgoing connections in the graph. The default is 16.allow_replace_deleted
: If set toTrue
, this allows replacement of deleted elements with newly added ones. The default isFalse
.num_threads
: This sets the default number of threads to be used duringindex
andsearch
operations. The default is 1.
vectordb
includes a simple CLI for serving and deploying your database:
Description | Command |
---|---|
Serve your DB locally | vectordb serve --db example:db |
Deploy your DB on Jina AI Cloud | vectordb deploy --db example:db |
-
User-friendly Interface: With
vectordb
, simplicity is key. Its intuitive interface is designed to accommodate users across varying levels of expertise. -
Minimalistic Design:
vectordb
packs all the essentials, with no unnecessary complexity. It ensures a seamless transition from local to server and cloud deployment. -
Full CRUD Support: From indexing and searching to updating and deleting,
vectordb
covers the entire spectrum of CRUD operations. -
DB as a Service: Harness the power of gRPC, HTTP, and Websocket protocols with
vectordb
. It enables you to serve your databases and conduct insertion or searching operations efficiently. -
Scalability: Experience the raw power of
vectordb
's deployment capabilities, including robust scalability features like sharding and replication. Improve your service latency with sharding, while replication enhances availability and throughput. -
Cloud Deployment: Deploying your service in the cloud is a breeze with Jina AI Cloud. More deployment options are coming soon!
-
Serverless Capability:
vectordb
can be deployed in a serverless mode in the cloud, ensuring optimal resource utilization and data availability as per your needs. -
Multiple ANN Algorithms:
vectordb
offers diverse implementations of Approximate Nearest Neighbors (ANN) algorithms. Here are the current offerings, with more integrations on the horizon:- InMemoryExactNNVectorDB (Exact NN Search): Implements Simple Nearest Neighbor Algorithm.
- HNSWVectorDB (based on HNSW): Utilizes HNSWLib
The future of Vector Database looks bright, and we have ambitious plans! Here's a sneak peek into the features we're currently developing:
- More ANN Search Algorithms: Our goal is to support an even wider range of ANN search algorithms.
- Enhanced Filtering Capabilities: We're working on enhancing our ANN Search solutions to support advanced filtering.
- Customizability: We aim to make
vectordb
highly customizable, allowing Python developers to tailor its behavior to their specific needs with ease. - Expanding Serverless Capacity: We're striving to enhance the serverless capacity of
vectordb
in the cloud. While we currently support scaling between 0 and 1 replica, our goal is to extend this to 0 to N replicas. - Expanded Deployment Options: We're actively working on facilitating the deployment of
vectordb
across various cloud platforms, with a broad range of options.
Need help with vectordb
? Interested in using it but require certain features to meet your unique needs? Don't hesitate to reach out to us. Join our Discord community to chat with us and other community members.
The VectorDB project is backed by Jina AI and licensed under Apache-2.0. Contributions from the community are greatly appreciated! If you have an idea for a new feature or an improvement, we would love to hear from you. We're always looking for ways to make vectordb
more user-friendly and effective.