7.6 KiB
layout | title | has_children | has_toc | nav_order | parent | grand_parent |
---|---|---|---|---|---|---|
default | RAG tool | false | false | 65 | Tools | Agents and tools |
RAG tool
Introduced 2.12 {: .label .label-purple }
This is an experimental feature and is not recommended for use in a production environment. For updates on the progress of the feature or if you want to leave feedback, see the associated GitHub issue.
{: .warning}
The RAGTool
performs retrieval-augmented generation (RAG). For more information about RAG, see Conversational search.
RAG calls a large language model (LLM) and supplements its knowledge by providing relevant OpenSearch documents along with the user question. To retrieve relevant documents from an OpenSearch index, you'll need a text embedding model that facilitates vector search.
The RAG tool supports the following search methods:
- Neural search: Dense vector retrieval, which uses a text embedding model.
- Neural sparse search: Sparse vector retrieval, which uses a sparse encoding model.
Before you start
To register and deploy a text embedding model and an LLM and ingest data into an index, perform Steps 1--5 of the Agents and tools tutorial.
The following example uses neural search. To configure neural sparse search and deploy a sparse encoding model, see Neural sparse search.
Step 1: Register a flow agent that will run the RAGTool
A flow agent runs a sequence of tools in order and returns the last tool's output. To create a flow agent, send the following request, providing the text embedding model ID in the embedding_model_id
parameter and the LLM model ID in the inference_model_id
parameter:
POST /_plugins/_ml/agents/_register
{
"name": "Test_Agent_For_RagTool",
"type": "flow",
"description": "this is a test flow agent",
"tools": [
{
"type": "RAGTool",
"description": "A description of the tool",
"parameters": {
"embedding_model_id": "Hv_PY40Bk4MTqircAVmm",
"inference_model_id": "SNzSY40B_1JGmyB0WbfI",
"index": "my_test_data",
"embedding_field": "embedding",
"query_type": "neural",
"source_field": [
"text"
],
"input": "${parameters.question}",
"prompt": "\n\nHuman:You are a professional data analyst. You will always answer question based on the given context first. If the answer is not directly shown in the context, you will analyze the data and find the answer. If you don't know the answer, just say don't know. \n\n Context:\n${parameters.output_field}\n\nHuman:${parameters.question}\n\nAssistant:"
}
}
]
}
{% include copy-curl.html %}
For parameter descriptions, see Register parameters.
OpenSearch responds with an agent ID:
{
"agent_id": "9X7xWI0Bpc3sThaJdY9i"
}
To create a conversational agent containing a RAGTool
, see Conversational agents.
Step 2: Run the agent
Before you run the agent, make sure that you add the sample OpenSearch Dashboards Sample web logs
dataset. To learn more, see Adding sample data.
Then, run the agent by sending the following request:
POST /_plugins/_ml/agents/9X7xWI0Bpc3sThaJdY9i/_execute
{
"parameters": {
"question": "what's the population increase of Seattle from 2021 to 2023"
}
}
{% include copy-curl.html %}
OpenSearch performs vector search and returns the relevant documents:
{
"inference_results": [
{
"output": [
{
"name": "response",
"result": """{"_index":"my_test_data","_source":{"text":"Chart and table of population level and growth rate for the Seattle metro area from 1950 to 2023. United Nations population projections are also included through the year 2035.\\n
The current metro area population of Seattle in 2023 is 3,519,000, a 0.86% increase from 2022.\\n
The metro area population of Seattle in 2022 was 3,489,000, a 0.81% increase from 2021.\\n
The metro area population of Seattle in 2021 was 3,461,000, a 0.82% increase from 2020.\\n
The metro area population of Seattle in 2020 was 3,433,000, a 0.79% increase from 2019."},"_id":"6","_score":0.8173238}
{"_index":"my_test_data","_source":{"text":"Chart and table of population level and growth rate for the New York City metro area from 1950 to 2023. United Nations population projections are also included through the year 2035.\\n
The current metro area population of New York City in 2023 is 18,937,000, a 0.37% increase from 2022.\\n
The metro area population of New York City in 2022 was 18,867,000, a 0.23% increase from 2021.\\n
The metro area population of New York City in 2021 was 18,823,000, a 0.1% increase from 2020.\\n
The metro area population of New York City in 2020 was 18,804,000, a 0.01% decline from 2019."},"_id":"2","_score":0.6641471}
"""
}
]
}
]
}
Register parameters
The following table lists all tool parameters that are available when registering an agent.
Parameter | Type | Required/Optional | Description |
---|---|---|---|
embedding_model_id |
String | Required | The model ID of the model to use for generating vector embeddings. |
inference_model_id |
String | Required | The model ID of the LLM to use for inference. |
index |
String | Required | The index from which to retrieve relevant documents to pass to the LLM. |
embedding_field |
String | Required | When the model encodes raw text documents, the encoding result is saved in a field. Specify this field as the embedding_field . Neural search matches documents to the query by calculating the similarity score between the query text and the text in the document's embedding_field . |
source_field |
String | Required | The document field or fields to return. You can provide a list of multiple fields as an array of strings, for example, ["field1", "field2"] . |
input |
String | Required for flow agent | Runtime input sourced from flow agent parameters. If using an LLM, this field is populated with the LLM response. |
output_field |
String | Optional | The name of the output field. Default is response . |
query_type |
String | Optional | Specifies the type of query to run to perform neural search. Valid values are neural (for dense retrieval) and neural_sparse (for sparse retrieval). Default is neural . |
doc_size |
Integer | Optional | The number of documents to fetch. Default is 2 . |
prompt |
String | Optional | The prompt to provide to the LLM. |
k |
Integer | Optional | The number of nearest neighbors to search for when performing neural search. Default is 10. |
enable_Content_Generation |
Boolean | Optional | If true , returns results generated by an LLM. If false , returns results directly without LLM-assisted content generation. Default is true . |
Execute parameters
The following table lists all tool parameters that are available when running the agent.
Parameter | Type | Required/Optional | Description |
---|---|---|---|
question |
String | Required | The natural language question to send to the LLM. |