Python building blocks to explore large language models in as little as 512MB of RAM
This package makes using large language models from Python as simple as possible. All inference is performed locally to keep your data private by default.
This package can be installed using the following command:
pip install languagemodels
Once installed, you should be able to interact with the package in Python as follows:
>>> import languagemodels as lm
>>> lm.do("What color is the sky?")
'The color of the sky is blue.'
This will require downloading a significant amount of data (~250MB) on the first run. Models will be cached for later use and subsequent calls should be quick.
Here are some usage examples as Python REPL sessions. This should work in the REPL, notebooks, or in traditional scripts and applications.
>>> import languagemodels as lm
>>> lm.do("Translate to English: Hola, mundo!")
'Hello, world!'
>>> lm.do("What is the capital of France?")
'Paris.'
Outputs can be restricted to a list of choices if desired:
>>> lm.do("Is Mars larger than Saturn?", choices=["Yes", "No"])
'No'
The base model should run quickly on any system with 512MB of memory, but this memory limit can be increased to select more powerful models that will consume more resources. Here's an example:
>>> import languagemodels as lm
>>> lm.do("If I have 7 apples then eat 5, how many apples do I have?")
'You have 8 apples.'
>>> lm.config["max_ram"] = "4gb"
4.0
>>> lm.do("If I have 7 apples then eat 5, how many apples do I have?")
'I have 2 apples left.'
If you have an NVIDIA GPU with CUDA available, you can opt in to using the GPU for inference:
>>> import languagemodels as lm
>>> lm.config["device"] = "auto"
>>> import languagemodels as lm
>>> lm.complete("She hid in her room until")
'she was sure she was safe'
Helper functions are provided to retrieve text from external sources that can be used to augment prompt context.
>>> import languagemodels as lm
>>> lm.get_wiki('Chemistry')
'Chemistry is the scientific study...
>>> lm.get_weather(41.8, -87.6)
'Partly cloudy with a chance of rain...
>>> lm.get_date()
'Friday, May 12, 2023 at 09:27AM'
Here's an example showing how this can be used (compare to previous chat example):
>>> lm.do(f"It is {lm.get_date()}. What time is it?")
'The time is 12:53PM.'
Semantic search is provided to retrieve documents that may provide helpful context from a document store.
>>> import languagemodels as lm
>>> lm.store_doc(lm.get_wiki("Python"), "Python")
>>> lm.store_doc(lm.get_wiki("C language"), "C")
>>> lm.store_doc(lm.get_wiki("Javascript"), "Javascript")
>>> lm.get_doc_context("What does it mean for batteries to be included in a language?")
'From Python document: It is often described as a "batteries included" language due to its comprehensive standard library.Guido van Rossum began working on Python in the late 1980s as a successor to the ABC programming language and first released it in 1991 as Python 0.9.
From C document: It was designed to be compiled to provide low-level access to memory and language constructs that map efficiently to machine instructions, all with minimal runtime support.'
This package currently outperforms Hugging Face transformers
for CPU inference thanks to int8 quantization and the CTranslate2 backend. The following table compares CPU inference performance on identical models using the best available quantization on a 20 question test set.
Backend | Inference Time | Memory Used |
---|---|---|
Hugging Face transformers | 22s | 1.77GB |
This package | 11s | 0.34GB |
Note that quantization does technically harm output quality slightly, but it should be negligible at this level.
Sensible default models are provided. The package should improve over time as stronger models become available. The basic models used are 1000x smaller than the largest models in use today. They are useful as learning tools, but perform far below the current state of the art.
Here are the current default models used by the package for a supplied max_ram
value:
max_ram | Model Name | Parameters (B) |
---|---|---|
0.5 | LaMini-Flan-T5-248M | 0.248 |
1.0 | LaMini-Flan-T5-783M | 0.783 |
2.0 | LaMini-Flan-T5-783M | 0.783 |
4.0 | flan-alpaca-gpt4-xl | 3.0 |
8.0 | openchat-3.5-0106 | 7.0 |
For code completions, the CodeT5+ series of models are used.
This package itself is licensed for commercial use, but the models used may not be compatible with commercial use. In order to use this package commercially, you can filter models by license type using the require_model_license
function.
>>> import languagemodels as lm
>>> lm.config['instruct_model']
'LaMini-Flan-T5-248M-ct2-int8'
>>> lm.require_model_license("apache|bsd|mit")
>>> lm.config['instruct_model']
'flan-t5-base-ct2-int8'
It is recommended to confirm that the models used meet the licensing requirements for your software.
One of the goals for this package is to be a straightforward tool for learners and educators exploring how large language models intersect with modern software development. It can be used to do the heavy lifting for a number of learning projects:
- CLI Chatbot (see examples/chat.py)
- Streamlit chatbot (see examples/streamlitchat.py)
- Chatbot with information retrieval
- Chatbot with access to real-time information
- Tool use
- Text classification
- Extractive question answering
- Semantic search over documents
- Document question answering
Several example programs and notebooks are included in the examples
directory.