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NBoost is a scalable, search-api-boosting platform for deploying transformer models to improve the relevance of search results on different platforms (i.e. Elasticsearch)

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Nboost

PyPI Documentation Status PyPI - License

Highlights โ€ข Overview โ€ข Benchmarks โ€ข Install โ€ข Getting Started โ€ข Kubernetes โ€ข Documentation โ€ข Tutorials โ€ข Contributing โ€ข Release Notes โ€ข Blog

What is it

โšกNBoost is a scalable, search-engine-boosting platform for developing and deploying state-of-the-art models to improve the relevance of search results.

Nboost leverages finetuned models to produce domain-specific neural search engines. The platform can also improve other downstream tasks requiring ranked input, such as question answering.

Contact us to request domain-specific models or leave feedback

Overview

The workflow of NBoost is relatively simple. Take the graphic above, and imagine that the server in this case is Elasticsearch.

In a conventional search request, the user sends a query to Elasticsearch and gets back the results.

In an NBoost search request, the user sends a query to the model. Then, the model asks for results from Elasticsearch and picks the best ones to return to the user.

Benchmarks

๐Ÿ”ฌ Note that we are evaluating models on differently constructed sets than they were trained on (MS Marco vs TREC-CAR), suggesting the generalizability of these models to many other real world search problems.

Fine-tuned Models Dependency Eval Set Search Boost[1] Speed
pt-tinybert-msmarco (default) PyTorch bing queries +45% (0.26 vs 0.18) ~50ms/query
pt-bert-base-uncased-msmarco PyTorch bing queries +62% (0.29 vs 0.18) ~300 ms/query
tf-bert-base-uncased-msmarco[2] TensorFlow bing queries +62% (0.29 vs 0.18) ~300 ms/query
tf-bert-base-uncased-msmarco TensorFlow wiki search +60% (0.28 vs 0.18) ~300 ms/query
biobert-base-uncased-msmarco TensorFlow biomed +66% (0.17 vs 0.10) ~300 ms/query

Instructions for reproducing here.

[1] MRR compared to BM25, the default for Elasticsearch. Reranking top 50.
[2] https://github.com/nyu-dl/dl4marco-bert

To use one of these fine-tuned models with nboost, run nboost --model_dir bert-base-uncased-msmarco for example, and it will download and cache automatically.

Using pre-trained language understanding models, you can boost search relevance metrics by nearly 2x compared to just text search, with little to no extra configuration. While assessing performance, there is often a tradeoff between model accuracy and speed, so we benchmark both of these factors above. This leaderboard is a work in progress, and we intend on releasing more cutting edge models!

Install NBoost

There are two ways to get NBoost, either as a Docker image or as a PyPi package. For cloud users, we highly recommend using NBoost via Docker.

๐Ÿšธ Depending on your model, you should install the respective Tensorflow or Pytorch dependencies. We package them below.

For installing NBoost, follow the table below.

Dependency ๐Ÿณ Docker ๐Ÿ“ฆ Pypi ๐Ÿ™ Kubernetes
Pytorch (recommended) koursaros/nboost:latest-pt pip install nboost[pt] helm install nboost/nboost --set image.tag=latest-pt
Tensorflow koursaros/nboost:latest-tf pip install nboost[tf] helm install nboost/nboost --set image.tag=latest-tf
All koursaros/nboost:latest-all pip install nboost[all] helm install nboost/nboost --set image.tag=latest-all
- (for testing) koursaros/nboost:latest-alpine pip install nboost helm install nboost/nboost --set image.tag=latest-alpine

Any way you install it, if you end up reading the following message after $ nboost --help or $ docker run koursaros/nboost --help, then you are ready to go!

success installation of NBoost

Getting Started

๐Ÿ“กThe Proxy

component overview

The Proxy is the core of NBoost. The proxy is essentially a wrapper to enable serving the model. It is able to understand incoming messages from specific search apis (i.e. Elasticsearch). When the proxy receives a message, it increases the amount of results the client is asking for so that the model can rerank a larger set and return the (hopefully) better results.

For instance, if a client asks for 10 results to do with the query "brown dogs" from Elasticsearch, then the proxy may increase the results request to 100 and filter down the best ten results for the client.

Setting up a Neural Proxy for Elasticsearch in 3 minutes

In this example we will set up a proxy to sit in between the client and Elasticsearch and boost the results!

Installing NBoost with tensorflow

If you want to run the example on a GPU, make sure you have Tensorflow 1.14-1.15 (with CUDA) to support the modeling functionality. However, if you want to just run it on a CPU, don't worry about it. For both cases, just run:

pip install nboost[pt]

Setting up an Elasticsearch Server

๐Ÿ”” If you already have an Elasticsearch server, you can skip this step!

If you don't have Elasticsearch, not to worry! You can set up a local Elasticsearch cluster by using docker. First, get the ES image by running:

docker pull elasticsearch:7.4.2

Once you have the image, you can run an Elasticsearch server via:

docker run -d -p 9200:9200 -p 9300:9300 -e "discovery.type=single-node" elasticsearch:7.4.2

Deploying the proxy

Now we're ready to deploy our Neural Proxy! It is very simple to do this, run:

nboost                                  \
    --uhost localhost                   \
    --uport 9200                        \
    --search_route "/<index>/_search"   \
    --query_path url.query.q            \
    --topk_path url.query.size          \
    --default_topk 10                   \
    --choices_path body.hits.hits       \
    --cvalues_path _source.passage

๐Ÿ“ข The --uhost and --uport should be the same as the Elasticsearch server above! Uhost and uport are short for upstream-host and upstream-port (referring to the upstream server).

If you get this message: Listening: <host>:<port>, then we're good to go!

Indexing some data

NBoost has a handy indexing tool built in (nboost-index). For demonstration purposes, will be indexing a set of passages about traveling and hotels through NBoost. You can add the index to your Elasticsearch server by running:

travel.csv comes with NBoost

nboost-index --file travel.csv --index_name travel --delim , --id_col

Now let's test it out! Hit the Elasticsearch with:

curl "http://localhost:8000/travel/_search?pretty&q=passage:vegas&size=2"

If the Elasticsearch result has the _nboost tag in it, congratulations it's working!

success installation of NBoost

What just happened?

Let's check out the NBoost frontend. Go to your browser and visit localhost:8000/nboost.

If you don't have access to a browser, you can curl http://localhost:8000/nboost/status for the same information.

The frontend recorded everything that happened:

  1. NBoost got a request for 2 search results. (average_topk)
  2. NBoost connected to the server at localhost:9200.
  3. NBoost sent a request for 50 search results to the server. (topn)
  4. NBoost received 50 search results from the server. (average_choices)
  5. The model picked the best 2 search results and returned them to the client.

Elastic made easy

To increase the number of parallel proxies, simply increase --workers. For a more robust deployment approach, you can distribute the proxy via Kubernetes (see below).

Kubernetes

See also

For in-depth query DSL and other search API solutions (such as the Bing API), see the docs.

Deploying NBoost via Kubernetes

We can easily deploy NBoost in a Kubernetes cluster using Helm.

Add the NBoost Helm Repo

First we need to register the repo with your Kubernetes cluster.

helm repo add nboost https://raw.githubusercontent.com/koursaros-ai/nboost/master/charts/
helm repo update

Deploy some NBoost replicas

Let's try deploying four replicas:

helm install --name nboost --set replicaCount=4 nboost/nboost

All possible --set (values.yaml) options are listed below:

Parameter Description Default
replicaCount Number of replicas to deploy 3
image.repository NBoost Image name koursaros/nboost
image.tag NBoost Image tag latest-pt
args.model Name of the model class nil
args.model_dir Name or directory of the finetuned model pt-bert-base-uncased-msmarco
args.qa Whether to use the qa plugin False
args.qa_model_dir Name or directory of the qa model distilbert-base-uncased-distilled-squad
args.model Name of the model class nil
args.host Hostname of the proxy 0.0.0.0
args.port Port for the proxy to listen on 8000
args.uhost Hostname of the upstream search api server elasticsearch-master
args.uport Port of the upstream server 9200
args.data_dir Directory to cache model binary nil
args.max_seq_len Max combined token length 64
args.bufsize Size of the http buffer in bytes 2048
args.batch_size Batch size for running through rerank model 4
args.multiplier Factor to increase results by 5
args.workers Number of threads serving the proxy 10
args.query_path Jsonpath in the request to find the query nil
args.topk_path Jsonpath to find the number of requested results nil
args.choices_path Jsonpath to find the array of choices to reorder nil
args.cvalues_path Jsonpath to find the str values of the choices nil
args.cids_path Jsonpath to find the ids of the choices nil
args.search_path The url path to tag for reranking via nboost nil
service.type Kubernetes Service type LoadBalancer
resources resource needs and limits to apply to the pod {}
nodeSelector Node labels for pod assignment {}
affinity Affinity settings for pod assignment {}
tolerations Toleration labels for pod assignment []
image.pullPolicy Image pull policy IfNotPresent
imagePullSecrets Docker registry secret names as an array [] (does not add image pull secrets to deployed pods)
nameOverride String to override Chart.name nil
fullnameOverride String to override Chart.fullname nil
serviceAccount.create Specifies whether a service account is created nil
serviceAccount.name The name of the service account to use. If not set and create is true, a name is generated using the fullname template nil
serviceAccount.create Specifies whether a service account is created nil
podSecurityContext.fsGroup Group ID for the container nil
securityContext.runAsUser User ID for the container 1001
ingress.enabled Enable ingress resource false
ingress.hostName Hostname to your installation nil
ingress.path Path within the url structure []
ingress.tls enable ingress with tls []
ingress.tls.secretName tls type secret to be used chart-example-tls

Documentation

ReadTheDoc

The official NBoost documentation is hosted on nboost.readthedocs.io. It is automatically built, updated and archived on every new release.

Contributing

Contributions are greatly appreciated! You can make corrections or updates and commit them to NBoost. Here are the steps:

  1. Create a new branch, say fix-nboost-typo-1
  2. Fix/improve the codebase
  3. Commit the changes. Note the commit message must follow the naming style, say Fix/model-bert: improve the readability and move sections
  4. Make a pull request. Note the pull request must follow the naming style. It can simply be one of your commit messages, just copy paste it, e.g. Fix/model-bert: improve the readability and move sections
  5. Submit your pull request and wait for all checks passed (usually 10 minutes)
    • Coding style
    • Commit and PR styles check
    • All unit tests
  6. Request reviews from one of the developers from our core team.
  7. Merge!

More details can be found in the contributor guidelines.

Citing NBoost

If you use NBoost in an academic paper, we would love to be cited. Here are the two ways of citing NBoost:

  1. \footnote{https://github.com/koursaros-ai/nboost}
    
  2. @misc{koursaros2019NBoost,
      title={NBoost: Neural Boosting Search Results},
      author={Thienes, Cole and Pertschuk, Jack},
      howpublished={\url{https://github.com/koursaros-ai/nboost}},
      year={2019}
    }

License

If you have downloaded a copy of the NBoost binary or source code, please note that the NBoost binary and source code are both licensed under the Apache License, Version 2.0.

Koursaros AI is excited to bring this open source software to the community.
Copyright (C) 2019. All rights reserved.

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NBoost is a scalable, search-api-boosting platform for deploying transformer models to improve the relevance of search results on different platforms (i.e. Elasticsearch)

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