opensearch-docs-cn/_search-plugins/neural-sparse-search.md

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Sparse search

Introduced 2.11 {: .label .label-purple }

Neural text search relies on dense retrieval that is based on text embedding models. However, dense methods use k-NN search, which consumes a large amount of memory and CPU resources. An alternative to neural text search, sparse neural search is implemented using an inverted index and thus is as efficient as BM25. Sparse search is facilitated by sparse embedding models. When you perform a sparse search, it creates a sparse vector (a list of token: weight key-value pairs representing an entry and its weight) and ingests data into a rank features index.

When selecting a model, choose one of the following options:

  • Use a sparse encoding model at both ingestion time and search time (high performance, relatively high latency).
  • Use a sparse encoding model at ingestion time and a tokenizer model at search time (low performance, relatively low latency).

PREREQUISITE
Before using sparse search, you must set up a sparse embedding model. For more information, see Using custom models within OpenSearch. {: .note}

To use sparse search, follow these steps:

  1. Create an ingest pipeline.
  2. Create an index for ingestion.
  3. Ingest documents into the index.
  4. Search the index using neural search.

Step 1: Create an ingest pipeline

To generate vector embeddings, you need to create an ingest pipeline that contains a sparse_encoding processor, which will convert the text in a document field to vector embeddings. The processor's field_map determines the input fields from which to generate vector embeddings and the output fields in which to store the embeddings.

The following example request creates an ingest pipeline where the text from passage_text will be converted into text embeddings and the embeddings will be stored in passage_embedding:

PUT /_ingest/pipeline/nlp-ingest-pipeline-sparse
{
  "description": "An sparse encoding ingest pipeline",
  "processors": [
    {
      "sparse_encoding": {
        "model_id": "aP2Q8ooBpBj3wT4HVS8a",
        "field_map": {
          "passage_text": "passage_embedding"
        }
      }
    }
  ]
}

{% include copy-curl.html %}

Step 2: Create an index for ingestion

In order to use the text embedding processor defined in your pipeline, create a rank features index, adding the pipeline created in the previous step as the default pipeline. Ensure that the fields defined in the field_map are mapped as correct types. Continuing with the example, the passage_embedding field must be mapped as rank_features. Similarly, the passage_text field should be mapped as text.

The following example request creates a rank features index that is set up with a default ingest pipeline:

PUT /my-nlp-index
{
  "settings": {
    "default_pipeline": "nlp-ingest-pipeline-sparse"
  },
  "mappings": {
    "properties": {
      "id": {
        "type": "text"
      },
      "passage_embedding": {
        "type": "rank_features"
      },
      "passage_text": {
        "type": "text"
      }
    }
  }
}

{% include copy-curl.html %}

Step 3: Ingest documents into the index

To ingest documents into the index created in the previous step, send the following requests:

PUT /my-nlp-index/_doc/1
{
  "passage_text": "Hello world",
  "id": "s1"
}

{% include copy-curl.html %}

PUT /my-nlp-index/_doc/2
{
  "passage_text": "Hi planet",
  "id": "s2"
}

{% include copy-curl.html %}

Before the document is ingested into the index, the ingest pipeline runs the sparse_encoding processor on the document, generating vector embeddings for the passage_text field. The indexed document includes the passage_text field, which contains the original text, and the passage_embedding field, which contains the vector embeddings.

To perform a sparse vector search on your index, use the neural_sparse query clause in Query DSL queries.

The following example request uses a neural_sparse query to search for relevant documents:

GET my-nlp-index/_search
{
  "query": {
    "neural_sparse": {
      "passage_embedding": {
        "query_text": "Hi world",
        "model_id": "aP2Q8ooBpBj3wT4HVS8a",
        "max_token_score": 2
      }
    }
  }
}

{% include copy-curl.html %}

The response contains the matching documents:

{
  "took" : 688,
  "timed_out" : false,
  "_shards" : {
    "total" : 1,
    "successful" : 1,
    "skipped" : 0,
    "failed" : 0
  },
  "hits" : {
    "total" : {
      "value" : 2,
      "relation" : "eq"
    },
    "max_score" : 30.0029,
    "hits" : [
      {
        "_index" : "my-nlp-index",
        "_id" : "1",
        "_score" : 30.0029,
        "_source" : {
          "passage_text" : "Hello world",
          "passage_embedding" : {
            "!" : 0.8708904,
            "door" : 0.8587369,
            "hi" : 2.3929274,
            "worlds" : 2.7839446,
            "yes" : 0.75845814,
            "##world" : 2.5432441,
            "born" : 0.2682308,
            "nothing" : 0.8625516,
            "goodbye" : 0.17146169,
            "greeting" : 0.96817183,
            "birth" : 1.2788506,
            "come" : 0.1623208,
            "global" : 0.4371151,
            "it" : 0.42951578,
            "life" : 1.5750692,
            "thanks" : 0.26481047,
            "world" : 4.7300377,
            "tiny" : 0.5462298,
            "earth" : 2.6555297,
            "universe" : 2.0308156,
            "worldwide" : 1.3903781,
            "hello" : 6.696973,
            "so" : 0.20279501,
            "?" : 0.67785245
          },
          "id" : "s1"
        }
      },
      {
        "_index" : "my-nlp-index",
        "_id" : "2",
        "_score" : 16.480486,
        "_source" : {
          "passage_text" : "Hi planet",
          "passage_embedding" : {
            "hi" : 4.338913,
            "planets" : 2.7755864,
            "planet" : 5.0969057,
            "mars" : 1.7405145,
            "earth" : 2.6087382,
            "hello" : 3.3210192
          },
          "id" : "s2"
        }
      }
    ]
  }
}