Today I’d like to start my series of articles on using the LangChain open source tool-set.
LangChain is one of the most used frameworks to create AI agents with, if not THE most used. With nearly 90.000 stars and almost 14000 forks on GitHub at the time of this article, we can safely say it is popular.
Reason enough for me to start covering it. To kick things off with, let’s answer a few essential questions.
What we're covering today:
- Introduction
- How do I get started?
- How to create our first RAG AI with LangFlow
- Experiment and Test
- Conclusion
Introduction
What is a RAG AI Agent?
Retrieval Augmented Generation (RAG) is a technique to enhance the accuracy and reliability of AI with facts retrieved from other sources.
Originally the RAG name was coined in this paper, the authors stated:
RAG could be employed in a wide variety of scenarios with direct benefit to society, for example by endowing it with a medical index and asking it open-domain questions on that topic, or by helping people be more effective at their jobs
Essentially you can create your own set of sources that you have vetted for accuracy and fit for purpose. Creating applications with your specific needs in mind, and without potential bias or opinion from the original AI.
RAG’s are a great way to provide business solutions that can run locally with open source AI models such as Llama, or large cloud scale AI’s such as OpenAI.
What is LangChain and LangFlow?
LangChain is an open source Python library that can integrate with AI models using API’s and functions. With LangChain you can create natural language interactions with an AI using concepts such as Chains, and Prompts to weave together a custom RAG AI.
LangFlow is a GUI that can diagram a LangChain flow to experiment and prototype an AI solution with quickly. It offers drag and drop components and a chat box to immediately start interacting. This simplifies the initial development process of iteration and experimentation.
How do I get started?
To get started with LangFlow creating your AI agent there are 3 options you can choose from:
- SAAS Installation using Huggingface spaces:
-
Private: Huggingface account, then duplicate LangFlow Spaces , leave everything on default, click
duplicate space
.- This will take a bit of time (30+ minutes, not included in the 5 minutes 😜)
- In the mean time head over to the Spaces settings >
Variables and secrets
>New secret
- Name:
OPENAI_API_KEY
, Value: your OpenAI key we just copied.
- In the mean time head over to the Spaces settings >
- Go drink a coffee, walk outside, do other things while the Huggingface space is created.
- Then, you can skip to this chapter.
- This will take a bit of time (30+ minutes, not included in the 5 minutes 😜)
-
Public: access the Public LangFlow service, ready to go but everyone can read it!
- Do not use your OpenAI API keys here!
- Then, you can skip to this chapter.
-
Private: Huggingface account, then duplicate LangFlow Spaces , leave everything on default, click
-
A Google Cloud installation. If preferred, go here.
- Then you can skip to this chapter.
-
Or, run it on your own machine using VirtualBox.
- This is my preferred method of choice, it’s low cost and you have full control. Follow along in the next chapter to find out how to quickly set this up.
How to install LangFlow on your own machine
- Install Vagrant and VirtualBox:
- Download and install Vagrant.
- Download and install VirtualBox.
2) Install via my LangFlow repo:
git clone https://github.com/rpstreef/langflow-setup
- Within the cloned repo; execute;
vagrant up
to install the LangFlow VM with docker and docker-compose.- Type
make
for all the commands available.
- Type
-
Optionally:
- Run:
make vm
to get access to the Virtual Machine.- Note if you do not have VBoxManage on your command-line, this will not work.
- Sometimes you could get a message like this;
ssh: connect to host 192.168.1.39 port 22: No route to host
.- Retry the connection in that case.
- Run:
dry
to see all the containers running
- Run:
- open your browser and navigate to;
http://localhost:7860/flows
Now we can start creating a chat bot
To use the store, you need to register and get an API key here
How to create our first RAG AI with LangFlow
This is what we’re going to build today.
To start with, what is the aim of this particular RAG? What do we want it to do?
A chat bot that can answer detailed questions about any web-page we choose.
A perfect use case for this is article analysis via questions and answers. You can formulate the questions such that the bot can provide additional explanation on harder to understand concepts.
I’m sure there are other uses cases like this, let me know on Twitter what you would use it for.
Basically there are two parts to building this RAG chat-bot:
- We need to retrieve the information we want to ask questions about,
- then make that information available to the OpenAI chat bot.
Part 1: Processing the web-page data
To start of with, we need to store website text, as a vector, in a database such that we can use it later to ask questions about.
I’ve added links to the official LangChain documentation for each of the concepts / parts discussed.
- WebBaseLoader: Enter the Web Page we want to analyze.
-
OpenAIEmbeddings: This will “embed” the information read from the website. We use OpenAI’s
text-embedding-3-small
Model to do this. Which should be ample for most use-cases. This creates a vector representation of thedocuments
we’re about to create. The TikToken tokenizer to make it more accurate for OpenAI to split the text. -
CharacterTextSplitter: This part will cut up the text into
chunks
with a bit of overlap, and outputs these parts asdocuments
toFAISS
the vector database we’re using in this scenario. -
FAISS: Is the Facebook AI Similarity Search (FAISS) vector database that can store and search vectorized
documents
in memory.
Part 2: Let’s chat with your RAG
Now that we have the basic information retrieval and vector storage created. We can start adding a Chat AI and chaining the documents
we’ve created with a Retriever (Search via a question and retrieve documents
using a prompt via the chat box.
-
ChatOpenAI: We use the Chat feature offered by OpenAI and set the model to
gpt-3.5-turbo-0125
to save on cost. Additionally the temperature is set to 0.2 to inform the AI we need answers with high probability and not too much creativity (> 0.5 - 1.0) -
CombineDocsChain: We use chain type
stuff
, which basically means the context is the document. For efficiency you could change this tomap_reduce
, but it would mean we need to complicate the Prompt parts to combine the documents with. - RetrievalQAWithSourcesChain: Chains together and creates the Context from the user question, and the documents retrieved from the Vector database.
- Let’s chat: Now we can ask what our webpage is about:
Experiment and Test
This is just a starting point, and a working example of how quickly a RAG can be created for a specific purpose. A few things to consider that can optimize the solution;
- Experiment with the token sizes of the OpenAIEmbedding and ChatOpenAI.
- Changing the chain type of the CombineDocsChain, to
map_reduce
. - Improving the website text data quality by reducing the token size of the source text (lemmatization and stemming).
Data input quality has a big impact on RAG output quality.
Conclusion
In conclusion, let’s summarize what’s been covered and learned:
- Use LangFlow to quickly create a chat-bot that can answer questions on the content of your choice.
- LangFlow consists of many components of the LangChain framework. Understanding these components, can open up new possibilities to automate with LangFlow.
- LangFlow is a playground to experiment with AI. To prototype an idea quickly, then build it with LangChain.
- (bonus) Huggingface spaces host a variety of AI generative applications such as image generation with Stable diffusion or Midjourney, and GPT4o chat. Check it out!
For the next article I’d like to dive deeper into creating a RAG agent using LangGraph, and deploy that to a Docker container. Stay tuned if you’re interested.
For now, lets discuss in the comments below:
- What have you build?
- What can be improved in this example and why?
Let's continue the discussion on Twitter
Appreciate your time and till the next one!
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