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semantic-chunking

Semantically create chunks from large texts. Useful for workflows involving large language models (LLMs).

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🍱 semantic-chunking

NPM Package for Semantically creating chunks from large texts. Useful for workflows involving large language models (LLMs).

Features

  • Semantic chunking based on sentence similarity
  • Dynamic similarity thresholds
  • Configurable chunk sizes
  • Multiple embedding model options
  • Quantized model support
  • Chunk prefix support for RAG workflows
  • Web UI for experimenting with settings

Semantic Chunking Workflow

how it works

  1. Sentence Splitting: The input text is split into an array of sentences.
  2. Embedding Generation: A vector is created for each sentence using the specified ONNX model.
  3. Similarity Calculation: Cosine similarity scores are calculated for each sentence pair.
  4. Chunk Formation: Sentences are grouped into chunks based on the similarity threshold and max token size.
  5. Chunk Rebalancing: Optionally, similar adjacent chunks are combined into larger ones up to the max token size.
  6. Output: The final chunks are returned as an array of objects, each containing the properties described above.

Installation

npm install semantic-chunking

Usage

Basic usage:

import { chunkit } from 'semantic-chunking';

const documents = [
    { document_name: "document1", document_text: "contents of document 1..." },
    { document_name: "document2", document_text: "contents of document 2..." },
    ...
];
const chunkitOptions = {};
const myChunks = await chunkit(documents, chunkitOptions);

NOTE 🚨 The Embedding model (onnxEmbeddingModel) will be downloaded to this package's cache directory the first it is run (file size will depend on the specified model; see the model's table ).

Parameters

chunkit accepts an array of document objects and an optional configuration object. Here are the details for each parameter:

  • documents: array of documents. each document is an object containing document_name and document_text.

    documents = [
      { document_name: "document1", document_text: "..." },
      { document_name: "document2", document_text: "..." },
      ...
    ]
    
  • Chunkit Options Object:

    • logging: Boolean (optional, default false) - Enables logging of detailed processing steps.
    • maxTokenSize: Integer (optional, default 500) - Maximum token size for each chunk.
    • similarityThreshold: Float (optional, default 0.5) - Threshold to determine if sentences are similar enough to be in the same chunk. A higher value demands higher similarity.
    • dynamicThresholdLowerBound: Float (optional, default 0.45) - Minimum possible dynamic similarity threshold.
    • dynamicThresholdUpperBound: Float (optional, default 0.75) - Maximum possible dynamic similarity threshold.
    • numSimilaritySentencesLookahead: Integer (optional, default 2) - Number of sentences to look ahead for calculating similarity.
    • combineChunks: Boolean (optional, default true) - Determines whether to reblance and combine chunks into larger ones up to the max token limit.
    • combineChunksSimilarityThreshold: Float (optional, default 0.5) - Threshold for combining chunks based on similarity during the rebalance and combining phase.
    • onnxEmbeddingModel: String (optional, default Xenova/all-MiniLM-L6-v2) - ONNX model used for creating embeddings.
    • onnxEmbeddingModelQuantized: Boolean (optional, default true) - Indicates whether to use a quantized version of the embedding model.
    • localModelPath: String (optional, default null) - Local path to save and load models (example: ./models).
    • modelCacheDir: String (optional, default null) - Directory to cache downloaded models (example: ./models).
    • returnEmbedding: Boolean (optional, default false) - If set to true, each chunk will include an embedding vector. This is useful for applications that require semantic understanding of the chunks. The embedding model will be the same as the one specified in onnxEmbeddingModel.
    • returnTokenLength: Boolean (optional, default false) - If set to true, each chunk will include the token length. This can be useful for understanding the size of each chunk in terms of tokens, which is important for token-based processing limits. The token length is calculated using the tokenizer specified in onnxEmbeddingModel.
    • chunkPrefix: String (optional, default null) - A prefix to add to each chunk (e.g., "search_document: "). This is particularly useful when using embedding models that are trained with specific task prefixes, like the nomic-embed-text-v1.5 model. The prefix is added before calculating embeddings or token lengths.
    • excludeChunkPrefixInResults: Boolean (optional, default false) - If set to true, the chunk prefix will be removed from the results. This is useful when you want to remove the prefix from the results while still maintaining the prefix for embedding calculations.

Output

The output is an array of chunks, each containing the following properties:

  • document_id: Integer - A unique identifier for the document (current timestamp in milliseconds).
  • document_name: String - The name of the document being chunked (if provided).
  • number_of_chunks: Integer - The total number of final chunks returned from the input text.
  • chunk_number: Integer - The number of the current chunk.
  • model_name: String - The name of the embedding model used.
  • is_model_quantized: Boolean - Indicates whether the embedding model is quantized.
  • text: String - The chunked text.
  • embedding: Array - The embedding vector (if returnEmbedding is true).
  • token_length: Integer - The token length (if returnTokenLength is true).

Examples

Example 1: Basic usage with custom similarity threshold:

import { chunkit } from 'semantic-chunking';
import fs from 'fs';

async function main() {
    const documents = [ 
        {
            document_name: "test document", 
            document_text: await fs.promises.readFile('./test.txt', 'utf8') 
        }
    ];
    let myChunks = await chunkit(documents, { similarityThreshold: 0.4 });

    myChunks.forEach((chunk, index) => {
        console.log(`\n-- Chunk ${index + 1} --`);
        console.log(chunk);
    });
}
main();

Example 2: Chunking with a small max token size:

import { chunkit } from 'semantic-chunking';

const frogText = "A frog hops into a deli and croaks to the cashier, \"I'll have a sandwich, please.\" The cashier, surprised, quickly makes the sandwich and hands it over. The frog takes a big bite, looks around, and then asks, \"Do you have any flies to go with this?\" The cashier, taken aback, replies, \"Sorry, we're all out of flies today.\" The frog shrugs and continues munching on its sandwich, clearly unfazed by the lack of fly toppings. Just another day in the life of a sandwich-loving amphibian! 🐸🥪";
const documents = [
    {
        document_name: "frog document",
        document_text: frogText
    }
];

async function main() {
    let myFrogChunks = await chunkit(documents, { maxTokenSize: 65 });
    console.log("myFrogChunks", myFrogChunks);
}
main();

Look at the example\example-chunkit.js file for a more complex example of using all the optional parameters.

Tuning

The behavior of the chunkit function can be finely tuned using several optional parameters in the options object. Understanding how each parameter affects the function can help you optimize the chunking process for your specific requirements.

logging

  • Type: Boolean
  • Default: false
  • Description: Enables detailed debug output during the chunking process. Turning this on can help in diagnosing how chunks are formed or why certain chunks are combined.

maxTokenSize

  • Type: Integer
  • Default: 500
  • Description: Sets the maximum number of tokens allowed in a single chunk. Smaller values result in smaller, more numerous chunks, while larger values can create fewer, larger chunks. It’s crucial for maintaining manageable chunk sizes when processing large texts.

similarityThreshold

  • Type: Float
  • Default: 0.456
  • Description: Determines the minimum cosine similarity required for two sentences to be included in the same chunk. Higher thresholds demand greater similarity, potentially leading to more but smaller chunks, whereas lower values might result in fewer, larger chunks.

dynamicThresholdLowerBound

  • Type: Float
  • Default: 0.2
  • Description: The minimum limit for dynamically adjusted similarity thresholds during chunk formation. This ensures that the dynamic threshold does not fall below a certain level, maintaining a baseline similarity among sentences in a chunk.

dynamicThresholdUpperBound

  • Type: Float
  • Default: 0.8
  • Description: The maximum limit for dynamically adjusted similarity thresholds. This cap prevents the threshold from becoming too lenient, which could otherwise lead to overly large chunks with low cohesion.

numSimilaritySentencesLookahead

  • Type: Integer
  • Default: 2
  • Description: Controls how many subsequent sentences are considered for calculating the maximum similarity to the current sentence during chunk formation. A higher value increases the chance of finding a suitable sentence to extend the current chunk but at the cost of increased computational overhead.

combineChunks

  • Type: Boolean
  • Default: true
  • Description: Determines whether to perform a second pass to combine smaller chunks into larger ones, based on their semantic similarity and the maxTokenSize. This can enhance the readability of the output by grouping closely related content more effectively.

combineChunksSimilarityThreshold

  • Type: Float
  • Default: 0.4
  • Description: Used in the second pass of chunk combination to decide if adjacent chunks should be merged, based on their similarity. Similar to similarityThreshold, but specifically for rebalancing existing chunks. Adjusting this parameter can help in fine-tuning the granularity of the final chunks.

onnxEmbeddingModel

  • Type: String
  • Default: Xenova/paraphrase-multilingual-MiniLM-L12-v2
  • Description: Specifies the model used to generate sentence embeddings. Different models may yield different qualities of embeddings, affecting the chunking quality, especially in multilingual contexts.
  • Resource Link: ONNX Embedding Models
    Link to a filtered list of embedding models converted to ONNX library format by Xenova.
    Refer to the Model table below for a list of suggested models and their sizes (choose a multilingual model if you need to chunk text other than English).

onnxEmbeddingModelQuantized

  • Type: Boolean
  • Default: true
  • Description: Indicates whether to use a quantized version of the specified model. Quantized models generally offer faster performance with a slight trade-off in accuracy, which can be beneficial when processing very large datasets.
Curated ONNX Embedding Models
ModelQuantizedLinkSize
nomic-ai/nomic-embed-text-v1.5truehttps://huggingface.co/nomic-ai/nomic-embed-text-v1.5138 MB
nomic-ai/nomic-embed-text-v1.5falsehttps://huggingface.co/nomic-ai/nomic-embed-text-v1.5548 MB
Xenova/all-MiniLM-L6-v2truehttps://huggingface.co/Xenova/all-MiniLM-L6-v223 MB
Xenova/all-MiniLM-L6-v2falsehttps://huggingface.co/Xenova/all-MiniLM-L6-v290.4 MB
Xenova/paraphrase-multilingual-MiniLM-L12-v2truehttps://huggingface.co/Xenova/paraphrase-multilingual-MiniLM-L12-v2118 MB
thenlper/gte-basefalsehttps://huggingface.co/thenlper/gte-base436 MB
Xenova/all-distilroberta-v1truehttps://huggingface.co/Xenova/all-distilroberta-v182.1 MB
Xenova/all-distilroberta-v1falsehttps://huggingface.co/Xenova/all-distilroberta-v1326 MB
BAAI/bge-base-en-v1.5falsehttps://huggingface.co/BAAI/bge-base-en-v1.5436 MB
BAAI/bge-small-en-v1.5falsehttps://huggingface.co/BAAI/bge-small-en-v1.5133 MB

Each of these parameters allows you to customize the chunkit function to better fit the text size, content complexity, and performance requirements of your application.


Semantic Chunking Web UI

The Semantic Chunking Web UI allows you to experiment with the chunking parameters and see the results in real-time. This tool provides a visual way to test and configure the semantic-chunking library's settings to get optimal results for your specific use case. Once you've found the best settings, you can generate code to implement them in your project.

  • Interactive controls for all chunking parameters
  • Real-time text processing and results display
  • Visual feedback for similarity thresholds
  • Model selection and configuration
  • Results download in JSON format
  • Code generation with your settings
  • Example texts for testing
  • Dark mode interface

Semantic Chunking Web UI


cramit - 🧼 The Quick & Dirty

There is an additional function you can import to just "cram" sentences together till they meet your target token size for when you just need quick, high desity chunks.

Basic usage:

import { cramit } from 'semantic-chunking';

let frogText = "A frog hops into a deli and croaks to the cashier, \"I'll have a sandwich, please.\" The cashier, surprised, quickly makes the sandwich and hands it over. The frog takes a big bite, looks around, and then asks, \"Do you have any flies to go with this?\" The cashier, taken aback, replies, \"Sorry, we're all out of flies today.\" The frog shrugs and continues munching on its sandwich, clearly unfazed by the lack of fly toppings. Just another day in the life of a sandwich-loving amphibian! 🐸🥪";

// initialize documents array and add the frog text to it
let documents = [];
documents.push({
    document_name: "frog document",
    document_text: frogText
});

// call the cramit function passing in the documents array and the options object
async function main() {
    let myFrogChunks = await cramit(documents, { maxTokenSize: 65 });
    console.log("myFrogChunks", myFrogChunks);
}
main();

Look at the example\example-cramit.js file in the root of this project for a more complex example of using all the optional parameters.

Tuning

The behavior of the chunkit function can be finely tuned using several optional parameters in the options object. Understanding how each parameter affects the function can help you optimize the chunking process for your specific requirements.

logging
  • Type: Boolean
  • Default: false
  • Description: Enables detailed debug output during the chunking process. Turning this on can help in diagnosing how chunks are formed or why certain chunks are combined.
maxTokenSize
  • Type: Integer
  • Default: 500
  • Description: Sets the maximum number of tokens allowed in a single chunk. Smaller values result in smaller, more numerous chunks, while larger values can create fewer, larger chunks. It’s crucial for maintaining manageable chunk sizes when processing large texts.
onnxEmbeddingModel
  • Type: String
  • Default: Xenova/paraphrase-multilingual-MiniLM-L12-v2
  • Description: Specifies the model used to generate sentence embeddings. Different models may yield different qualities of embeddings, affecting the chunking quality, especially in multilingual contexts.
  • Resource Link: ONNX Embedding Models
    Link to a filtered list of embedding models converted to ONNX library format by Xenova.
    Refer to the Model table below for a list of suggested models and their sizes (choose a multilingual model if you need to chunk text other than English).
onnxEmbeddingModelQuantized
  • Type: Boolean
  • Default: true
  • Description: Indicates whether to use a quantized version of the specified model. Quantized models generally offer faster performance with a slight trade-off in accuracy, which can be beneficial when processing very large datasets.

💾 Pre-Downloading Models

Fill out the tools/download-models.list.json file with a list of models you want pre-downloaded, and if they are quantized or not (See the Curated ONNX Embedding Models section above for a list of models to try)

IMAGE ALT TEXT HERE


🔍 RAG Tip!

If you are using this library for a RAG application, consider using the chunkPrefix option to add a prefix to each chunk. This can help improve the quality of the embeddings and reduce the amount of context needed to be passed to the LLM for embedding models that support task prefixes.

Chunk your large document like this:

const largeDocumentText = await fs.promises.readFile('./large-document.txt', 'utf8');
const documents = [ 
    {
        document_name: "large document",
        document_text: largeDocumentText
    }
];
const myDocumentChunks = await chunkit(documents, { chunkPrefix: "search_document" });

Get your search queries ready like this (use cramit for a quick large chunk):

const documents = [
    { document_text: "What is the capital of France?" } 
];
const mySearchQueryChunk = await chunkit(documents, { chunkPrefix: "search_query" });

Now you can use the myDocumentChunks and mySearchQueryChunk results in your RAG application, feed them to a vector database, or find the closest match using cosine similarity in memory. The possibilities are many!

Happy Chunking!


Appreciation

If you enjoy this library please consider sending me a tip to support my work 😀

🍵 tip me here

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Package last updated on 08 Nov 2024

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