LLM and Ollama: Difference between revisions
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I did like the streamlit ui version. | |||
Latest revision as of 01:18, 1 April 2025
Introduction
This is a page about ollama and you guest it LLM. I have downloaded several models and got a UI going over them locally. The plan is to build something like Claude desktop in Typescript to Golang. First some theory in Python from here. Here is the problem I am trying to solve.
Using the Remote Ollama
You can connect by setting the host with
export OLLAMA_HOST=192.blah.blah.blah
Now you can use with
ollama run llama3.2:latest
Taking lamma3.2b as an example
Model Info
- Architecture:llama Who made it
- Parameters:3.2B - Means 3.2 billion parameters (bigger requires more resources)
- Context Length:131072 - Number of tokens it can injest
- Embedding Length:3072 - Size of the vector for each token in the input text
- Quantization:Q4_K_M - Too complex to explain
You can customize the mode with a Modelfile and running create with ollama. For example
FROM llama3.2
# set the temperature where higher is more creative
PARAMETER temperature 0.3
SYSTEM """
You are Bill, a very smart assistant who answers questions succintly and informatively
"""Now we can create a copy with
ollama create bill -f ./ModelfileRest API Interaction
So we can send questions to llama using the the rest endpoint to 11434
curl http://192.blah.blah.blah:11434/api/generate -d '{
"model": "llama3.2",
"prompt": "Why is the sky blue?",
"stream": false
}'
We can chat by changing the endpoint and the format by adding format in the playload
curl http://192.blah.blah.blah:11434/api/chat -d '{
"model": "llama3.2",
"prompt": "Why is the sky blue?",
"stream": false,
"format": "json"
}'
All of the options are at here
UI Based Client Msty
Seems that Msty was a good choice. You specify a provide and you can then put in 192.blah.blah.blah:11434. It support deepseek and other provider too.
RAG Retrieval-Augmented Generation
This allows us to converse with out own documents/data and solves the bizarre statement LLMs produce
- LLM
- Document Corpus (Knowledge Base)
- Document Embeddings
- Vecto Store (Vector DB, Faiss, Pinecone, Chromadb)
- Retrieval Mechanism
LangChain is a tool to make this easier
- Loading and parsing documents
- Splitting documents
- Generating embeddings
- Provides a unified abstraction for working with LLMs and Apps
This is referred to as a simple RAG system. We shall see
This was a bit of strange experience. The code is at here but really the thing consisted of the boxes in the diagram.
## 1. Ingest PDF Files
# 2. Extract Text from PDF Files and split into small chunks
# 3. Send the chunks to the embedding model
# 4. Save the embeddings to a vector database
# 5. Perform similarity search on the vector database to find similar documents
# 6. retrieve the similar documents and present them to the user
## run pip install -r requirements.txt to install the required packages
from langchain_community.document_loaders import UnstructuredPDFLoader
from langchain_community.document_loaders import OnlinePDFLoader
doc_path = "./data/BOI.pdf"
model = "llama3.2"
# Local PDF file uploads
if doc_path:
loader = UnstructuredPDFLoader(file_path=doc_path)
data = loader.load()
print("done loading....")
else:
print("Upload a PDF file")
# Preview first page
content = data[0].page_content
# print(content[:100])
# ==== End of PDF Ingestion ====
# ==== Extract Text from PDF Files and Split into Small Chunks ====
from langchain_ollama import OllamaEmbeddings
from langchain_text_splitters import RecursiveCharacterTextSplitter
from langchain_community.vectorstores import Chroma
# Split and chunk
text_splitter = RecursiveCharacterTextSplitter(chunk_size=1200, chunk_overlap=300)
chunks = text_splitter.split_documents(data)
print("done splitting....")
# print(f"Number of chunks: {len(chunks)}")
# print(f"Example chunk: {chunks[0]}")
# ===== Add to vector database ===
import ollama
ollama.pull("nomic-embed-text")
vector_db = Chroma.from_documents(
documents=chunks,
embedding=OllamaEmbeddings(model="nomic-embed-text"),
collection_name="simple-rag",
)
print("done adding to vector database....")
## === Retrieval ===
from langchain.prompts import ChatPromptTemplate, PromptTemplate
from langchain_core.output_parsers import StrOutputParser
from langchain_ollama import ChatOllama
from langchain_core.runnables import RunnablePassthrough
from langchain.retrievers.multi_query import MultiQueryRetriever
# set up our model to use
llm = ChatOllama(model=model)
# a simple technique to generate multiple questions from a single question and then retrieve documents
# based on those questions, getting the best of both worlds.
QUERY_PROMPT = PromptTemplate(
input_variables=["question"],
template="""You are an AI language model assistant. Your task is to generate five
different versions of the given user question to retrieve relevant documents from
a vector database. By generating multiple perspectives on the user question, your
goal is to help the user overcome some of the limitations of the distance-based
similarity search. Provide these alternative questions separated by newlines.
Original question: {question}""",
)
retriever = MultiQueryRetriever.from_llm(
vector_db.as_retriever(), llm, prompt=QUERY_PROMPT
)
# RAG prompt
template = """Answer the question based ONLY on the following context:
{context}
Question: {question}
"""
prompt = ChatPromptTemplate.from_template(template)
chain = (
{"context": retriever, "question": RunnablePassthrough()}
| prompt
| llm
| StrOutputParser()
)
# res = chain.invoke(input=("what is the document about?",))
# res = chain.invoke(
# input=("what are the main points as a business owner I should be aware of?",)
# )
res = chain.invoke(input=("how to report BOI?",))
print(res)
I did like the streamlit ui version.