Cloud-Native Neural Search? Framework for Any Kind of Data
Jina is a neural search framework that empowers anyone to build SOTA and scalable deep learning search applications in minutes.
⏱️ Save time - The design pattern of neural search systems. Native support for PyTorch/Keras/ONNX/Paddle. Build solutions in just minutes.
🌌 All data types - Process, index, query, and understand videos, images, long/short text, audio, source code, PDFs, etc.
🌩️ Local & cloud friendly - Distributed architecture, scalable & cloud-native from day one. Same developer experience on both local and cloud.
🍱 Own your stack - Keep end-to-end stack ownership of your solution. Avoid integration pitfalls you get with fragmented, multi-vendor, generic legacy tools.
pip install -U jina
More install options including Conda, Docker, Windows can be found here.
- Brand new to Jina? Check our Learning Bootcamp to get up to speed.
- Check our comprehensive docs for deeper tutorials, more advanced topics, and API reference.
We promise you can build a scalable ResNet-powered image search service in 20 minutes or less, from scratch. If not, you can forget about Jina.
Document, Executor, and Flow are three fundamental concepts in Jina.
- Document is the basic data type in Jina;
- Executor is how Jina processes Documents;
- Flow is how Jina streamlines and distributes Executors.
Leveraging these three components, let's build an app that find similar images using ResNet50.
💡 Preliminaries: download dataset, install PyTorch & Torchvision
from jina import DocumentArray, Document
def preproc(d: Document):
return (d.load_uri_to_image_blob() # load
.set_image_blob_normalization() # normalize color
.set_image_blob_channel_axis(-1, 0)) # switch color axis
docs = DocumentArray.from_files('img/*.jpg').apply(preproc)
import torchvision
model = torchvision.models.resnet50(pretrained=True) # load ResNet50
docs.embed(model, device='cuda') # embed via GPU to speedup
q = (Document(uri='img/00021.jpg') # build query image & preprocess
.load_uri_to_image_blob()
.set_image_blob_normalization()
.set_image_blob_channel_axis(-1, 0))
q.embed(model) # embed
q.match(docs) # find top-20 nearest neighbours, done!
Done! Now print q.matches
and you'll see the URIs of the most similar images.
Add three lines of code to visualize them:
for m in q.matches:
m.set_image_blob_channel_axis(0, -1).set_image_blob_inv_normalization()
q.matches.plot_image_sprites()
Sweet! FYI, you can use Keras, ONNX, or PaddlePaddle for the embedding model. Jina supports them well.
With an extremely trivial refactoring and ten extra lines of code, you can make the local script a ready-to-serve service:
-
Import what we need.
from jina import Document, DocumentArray, Executor, Flow, requests
-
Copy-paste the preprocessing step and wrap it via
Executor
:class PreprocImg(Executor): @requests def foo(self, docs: DocumentArray, **kwargs): for d in docs: (d.load_uri_to_image_blob() # load .set_image_blob_normalization() # normalize color .set_image_blob_channel_axis(-1, 0)) # switch color axis
-
Copy-paste the embedding step and wrap it via
Executor
:class EmbedImg(Executor): def __init__(self, **kwargs): super().__init__(**kwargs) import torchvision self.model = torchvision.models.resnet50(pretrained=True) @requests def foo(self, docs: DocumentArray, **kwargs): docs.embed(self.model)
-
Wrap the matching step into an
Executor
:class MatchImg(Executor): _da = DocumentArray() @requests(on='/index') def index(self, docs: DocumentArray, **kwargs): self._da.extend(docs) docs.clear() # clear content to save bandwidth @requests(on='/search') def foo(self, docs: DocumentArray, **kwargs): docs.match(self._da) for d in docs.traverse_flat('r,m'): # only require for visualization d.convert_uri_to_datauri() # convert to datauri d.pop('embedding', 'blob') # remove unnecessary fields for save bandwidth
-
Connect all
Executor
s in aFlow
, scale embedding to 3:f = Flow(port_expose=12345, protocol='http').add(uses=PreprocImg).add(uses=EmbedImg, replicas=3).add(uses=MatchImg)
-
Index image data and serve REST query publicly:
with f: f.post('/index', DocumentArray.from_files('img/*.jpg'), show_progress=True, request_size=8) f.block()
Done! Now query it via curl
and you get the most similar images:
Or go to http://0.0.0.0:12345/docs
and test requests via a Swagger UI:
Or use a Python client to access the service:
from jina import Client, Document
from jina.types.request import Response
def print_matches(resp: Response): # the callback function invoked when task is done
for idx, d in enumerate(resp.docs[0].matches): # print top-3 matches
print(f'[{idx}]{d.scores["cosine"].value:2f}: "{d.uri}"')
c = Client(protocol='http', port=12345) # connect to localhost:12345
c.post('/search', Document(uri='img/00021.jpg'), on_done=print_matches)
At this point, you probably have taken 15 minutes but here we are: an image search service with rich features:
✅ Solution as microservices | ✅ Scale in/out any component | ✅ Query via HTTP/WebSocket/gRPC/Client |
✅ Distribute/Dockerize components | ✅ Async/non-blocking I/O | ✅ Extendable REST interface |
Have another seven minutes? We'll show you how to bring your service to the next level by deploying it to Kubernetes.
- Create a Kubernetes cluster and get credentials (example in GCP, more K8s providers here):
gcloud container clusters create test --machine-type e2-highmem-2 --num-nodes 1 --zone europe-west3-a gcloud container clusters get-credentials test --zone europe-west3-a --project jina-showcase
- Move each
Executor
class to a separate folder with one Python file in each:PreprocImg
-> 📁preproc_img/exec.py
EmbedImg
-> 📁embed_img/exec.py
MatchImg
-> 📁match_img/exec.py
- Push all Executors to Jina Hub:
You will get three Hub Executors that can be used via Docker container.
jina hub push preproc_img jina hub push embed_img jina hub push match_img
- Adjust
Flow
a bit and open it:f = Flow(name='readme-flow', port_expose=12345, infrastructure='k8s').add(uses='jinahub+docker://PreprocImg').add(uses='jinahub+docker://EmbedImg', replicas=3).add(uses='jinahub+docker://MatchImg') with f: f.block()
Intrigued? Find more about Jina from our docs.
- 👗 Fashion image search:
jina hello fashion
- 🤖 QA chatbot:
pip install "jina[demo]" && jina hello chatbot
- 📰 Multimodal search:
pip install "jina[demo]" && jina hello multimodal
- 🍴 Fork the source of a demo to your folder:
jina hello fork fashion ../my-proj/
- Join our Slack community to chat to our engineers about your use cases, questions, and support queries.
- Join our Engineering All Hands meet-up to
discuss your use case and learn Jina's new features.
- When? The second Tuesday of every month
- Where? Zoom (see our public calendar/.ical/Meetup group) and live stream on YouTube
- Subscribe to the latest video tutorials on our YouTube channel
Jina is backed by Jina AI and licensed under Apache-2.0. We are actively hiring AI engineers, solution engineers to build the next neural search ecosystem in open source.
We welcome all kinds of contributions from the open-source community, individuals and partners. We owe our success to your active involvement.