AWS Database Blog
Using knowledge graphs to build GraphRAG applications with Amazon Bedrock and Amazon Neptune
Retrieval Augmented Generation (RAG) is an innovative approach that combines the power of large language models with external knowledge sources, enabling more accurate and informative generation of content. This technique uses the strengths of both components, leveraging the language model’s ability to understand context and generate coherent responses while augmenting it with factual information retrieved from various data sources.
The choice of data source plays a crucial role in the effectiveness of RAG. While structured databases and unstructured text corpora can serve as valuable resources, knowledge graphs stand out as particularly beneficial. Knowledge graphs offer a structured representation of real-world entities and their relationships, supporting efficient retrieval and integration of relevant information.
Using knowledge graphs as sources for RAG (GraphRAG) yields numerous advantages. These knowledge bases encapsulate a vast wealth of curated and interconnected information, enabling the generation of responses that are grounded in factual knowledge. Additionally, the structured nature of knowledge graphs facilitates precise querying and retrieval, verifying that the most pertinent information is incorporated into the generation process. This fusion of language understanding and factual knowledge empowers RAG to produce outputs that are both informative and coherent, making it a powerful tool for applications ranging from question answering to content generation.
Amazon Bedrock is a fully managed service that offers a choice of high-performing foundation models (FMs) from leading AI companies like AI21 Labs, Anthropic, Cohere, Meta, Stability AI, and Amazon through a single API, along with a broad set of capabilities to build generative AI applications with security, privacy, and responsible AI.
In this post, we show you how to build GraphRAG applications using Amazon Bedrock and Amazon Neptune with LlamaIndex framework.
Solution overview
As a sample solution, we implement GraphRAG over a Customer 360 knowledge graph, which provides customer context for generative artificial intelligence (AI)-powered applications.
The GraphRAG application is orchestrated by LlamaIndex framework, which manages the interaction with Amazon Bedrock and Neptune. Amazon Bedrock provides the communication interface with large language models (LLMs), and Neptune Database stores the knowledge graph used in GraphRAG.
This solution has the following steps:
- Set up Customer 360 knowledge graph in Neptune
- Configure Amazon Bedrock with LlamaIndex
- Integrate Amazon Neptune with LlamaIndex
- Configure the retriever for Neptune
- Interact with the knowledge graph
For instructions on how to install and configure LlamaIndex, refer to LlamaIndex Installation and Setup page.
You can run this solution on Neptune graph notebooks. The notebook integrates with Neptune to retrieve data and with Bedrock to reason over input prompt with retrieved context to generate the output.
Set up Customer 360 knowledge graph in Neptune
For instructions on how to set up Neptune Database, refer to Setting up Neptune page.
We set up a Customer 360 knowledge graph on Neptune with synthetic data by following the Neptune sample identity graph notebook. The knowledge graph structure connects Phone, Email, Address and Session nodes to User node, the City node is connected to Address node, and Device, IP and Page nodes are connected to Session node.
Configure Amazon Bedrock with LlamaIndex
Configure Amazon Bedrock to integrate with LlamaIndex components. This allows you to implement the LLM in the retrieve and reason steps of the GraphRAG workflow.
In this case, we are using Anthropic Claude 3 Sonnet LLM through Bedrock.
You can change the LLM by replacing the model
parameter of Bedrock
class. For example, if you want to define Anthropic Claude 3 Haiku, the value of the model
parameter would be anthropic.claude-3-haiku-{model_version}
.
For more information about available models, refer to Amazon Bedrock page.
Integrate Amazon Neptune with LlamaIndex
In this section, we integrate the Neptune database with LlamaIndex. This allows LlamaIndex to connect to your Neptune database instance to retrieve information.
You need to create an instance of NeptuneDatabaseGraphStore
class to connect to the Neptune database. In the host parameter, you need to supply the Neptune database endpoint—for GraphRAG purposes, the read only endpoint should be used. For the port
parameter, you can extract the port from the database endpoint. The node_label
parameter represents the label that is associated with the entity nodes from your knowledge graph stored in Neptune to be queried during retrieval.
In this case, we are setting the User
node label from the Neptune knowledge graph to be the queried entity node for information retrieval.
Configure the retriever for Neptune
Now set up integration between the LLM and the Neptune database to perform the relevant sub-graph retrieval over the knowledge graph stored in the database.
First, you need to create an instance of KnowledgeGraphRAGRetriever
class, which you use to convert a given input prompt to retrieval instructions that will be performed over the Neptune database (storage_context
parameter).
The KnowledgeGraphRAGRetriever
provides the option to enrich retrieval content by performing natural language input prompt conversion to openCypher query format by setting the with_nl2graphquery
parameter as True
—this conversion is performed by the LLM configured previously. The graph_traversal_depth
parameter represents the retrieved sub-graph information depth—the higher the value, the deeper the knowledge graph information that will be returned.
Additionally, you need to create an instance of RetrieverQueryEngine
class to perform natural language prompting over the KnowledgeGraphRAGRetriever
instance (retriever
parameter).
To increase the accuracy of GraphRAG, we implement prompt engineering over the input prompt to extract information related to the configured retrieval node of the knowledge graph (in this case, the User
node). The ENTITY_EXTRACT_PROMPT
is passed as a parameter in KnowledgeGraphRAGRetriever
class.
In this case, we use the natural language conversion to openCypher query format (NL2GraphQuery) to increase the variety of retrieved information. We implemented prompt engineering on the input prompt to instruct the LLM on good practices of openCypher query language. The NL2CYPHER_PROMPT
is passed as a parameter in KnowledgeGraphRAGRetriever
class. By using NL2GraphQuery, we assume that the query generated by the LLM can have syntax or semantic errors. To increase the accuracy of the response, we set the response_mode
parameter as refine
for RetrieverQueryEngine
class. This means that the LLM will perform reasoning over both results (NL2GraphQuery and knowledge graph retrieval) independently and generate a single reasoning based on those results. This minimizes the impact of empty or incomplete results from NL2GraphQuery.
Set the retrieved sub-graph depth as three hops, which is the maximum number of hops for the knowledge graph used in this sample.
Interact with the knowledge graph
With everything set up, you can now interact with the Amazon Bedrock LLM that will use the retrieved knowledge graph information.
To test the application, we defined a prompt to perform a product recommendation for a given user based on user information retrieved from the knowledge graph. This means that by changing the user identification, the result from the LLM should be different and hyper-personalized.
The first test asks for a recommendation for a user named “Wallis Lamba” with the following sub-graph information.
Edge Type | Content |
By Device | Mozilla/5.0 (windows Nt 6.0) Apple Web Kit/534.24 (khtml, Like Gecko) Chrome/11.0.696.3 Safari/534.24 |
By Device | Mozilla/5.0 (x11; Net Bsd) Apple Web Kit/537.36 (khtml, Like Gecko) Chrome/27.0.1453.116 Safari/537.36 |
Linked To | B6def854 F605 4986 A364 Bd29cb5cc8be |
Linked To | 6a62012a 34a7 4b87 Bbe0 3a7919666fe1 |
Has Phone | 305 355 XXX |
Joined In | 3/18/2021 |
Has Email | Wlambaip@neptunedemos.com |
In City | Miami |
Has Address | 82 Westridge Park |
The response looks something like the following:
“Hello Wallis,
For your consideration, I would recommend the Microsoft Surface Pro 8 with an Intel Core i7 processor. This tablet runs Windows 11 and offers excellent portability, making it well-suited for the warm climate in Miami. With up to 16 hours of battery life and a vibrant 13″ PixelSense touchscreen display, the Surface Pro 8 is a versatile device for work and entertainment.
Another great option could be the Dell XPS 13 laptop. This sleek and lightweight laptop is available with Windows 10 or Ubuntu Linux and features a stunning 4K InfinityEdge display. The XPS 13 is powered by 11th Gen Intel Core processors and offers impressive performance in a compact form factor.
Please confirm if your contact information – wlambai@neptunedemos.com and 305-355-XXXX is correct. I’m happy to provide more details on these recommended models or explore other options based on your preferences. Let me know if you need an other assistance or have additional questions.”
The second test asks for a recommendation for a user named “Armand Aglione” with the following sub-graph information.
Edge Type | Content |
By Device | Mozilla/5.0 (x11; Open Bsd 1386) Apple Web Kit/537.36 (khtml, Like Gecko) Chrome/36.0.1985.125 Safari/537.36 |
By Device | Mozilla/5.0 (macintosh; Intel Mac Os X 10 6 8) Apple Web Kit/535.1 (khtml, Like Gecko) Chrome/13.0.782.24 Safari/535.1 |
Linked To | 47b43c86 De5d 4494 9ca8 428cbeb7d25e |
Linked To | E4098368 0c45 4672 8d10 4ee34b3a5740 |
Has Phone | 903 694 XXX |
Joined In | 2/15/2021 |
Has Email | Aaglione4u@neptunedemos.com |
In City | Tyler |
Has Address | 59919 Crest Line Center |
The response for Armand will be different than the response for Wallis:
“Hello Armand,
Since you seem to be using a Macintosh device with an Intel processor, I would recommend considering the latest MacBook models from Apple. The new M1 and M2 chip MacBooks offer excellent performance and battery life. For example, the MacBook Air M2 has an 8-core CPU, 8GB unified memory, and up to 18 hours of battery life.
Given your location in Tyler, the iPad lineup could be a great portable option for on-the-go use. The iPad Air or iPad Pro models would complement your MacBook nicely.
Please confirm if the email aaglione4u@neptunedemos.com and phone number 903-694-XXXX are the best ways to reach you. I’m happy to provide more details or recommendations tailored to your needs. Feel free to ask any questions you may have!”
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Conclusion
Implementing GraphRAG offers a powerful approach to using the strengths of both LLMs and structured knowledge bases. Integrating the natural language understanding capabilities of language models with the factual and contextual information contained within knowledge graphs, GraphRAG enables the generation of highly accurate and informative responses. You can use Amazon Bedrock and Amazon Neptune to facilitate the implementation of GraphRAG and increase the capabilities of generative artificial intelligence (AI)-powered applications.
Give it a try and let us know your feedback in the comments section.
About the author
Matheus Duarte Dias is a Data Architect at Amazon Web Services. He works with customers to deliver business results by implementing Analytics and AI/ML solutions.