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This tutorial shows you how to get started with Gemma and LangChain, running in Google Cloud or in your Colab environment. Gemma is a family of light-weight, state-of-the-art open models built from the same research and technology used to create the Gemini models. LangChain is a framework for building and deploying context-aware applications backed by language models.
Run Gemma in Google Cloud
The langchain-google-vertexai
package provides LangChain integration with Google Cloud models.
Install dependencies
pip install --upgrade -q langchain langchain-google-vertexai
Authenticate
Unless you're using Colab Enterprise, you need to authenticate.
from google.colab import auth
auth.authenticate_user()
Deploy the model
Vertex AI is a platform for training and deploying AI models and applications. Model Garden is a curated collection of models that you can explore in the Google Cloud console.
To deploy Gemma, open the model in Model Garden for Vertex AI and complete the following steps:
- Select Deploy.
- Make any desired changes to the deployment form fields, or leave them as
is, if you're okay with the defaults. Make note of the following fields, which you'll need later:
- Endpoint name (for example,
google_gemma-7b-it-mg-one-click-deploy
) - Region (for example,
us-west1
)
- Endpoint name (for example,
- Select Deploy to deploy the model to Vertex AI. The deployment will take a few minutes to complete.
When the endpoint is ready, copy its project ID, endpoint ID, and location, and enter them as parameters.
# @title Basic parameters
project: str = "" # @param {type:"string"}
endpoint_id: str = "" # @param {type:"string"}
location: str = "" # @param {type:"string"}
Run the model
from langchain_google_vertexai import GemmaVertexAIModelGarden, GemmaChatVertexAIModelGarden
llm = GemmaVertexAIModelGarden(
endpoint_id=endpoint_id,
project=project,
location=location,
)
output = llm.invoke("What is the meaning of life?")
print(output)
Prompt: What is the meaning of life? Output: Life is a complex and multifaceted phenomenon that has fascinated philosophers, scientists, and
You can also use Gemma for multi-turn chat:
from langchain_core.messages import (
HumanMessage
)
llm = GemmaChatVertexAIModelGarden(
endpoint_id=endpoint_id,
project=project,
location=location,
)
message1 = HumanMessage(content="How much is 2+2?")
answer1 = llm.invoke([message1])
print(answer1)
message2 = HumanMessage(content="How much is 3+3?")
answer2 = llm.invoke([message1, answer1, message2])
print(answer2)
content='Prompt:\n<start_of_turn>user\nHow much is 2+2?<end_of_turn>\n<start_of_turn>model\nOutput:\nSure, the answer is 4.\n\n2 + 2 = 4' content='Prompt:\n<start_of_turn>user\nHow much is 2+2?<end_of_turn>\n<start_of_turn>model\nPrompt:\n<start_of_turn>user\nHow much is 2+2?<end_of_turn>\n<start_of_turn>model\nOutput:\nSure, the answer is 4.\n\n2 + 2 = 4<end_of_turn>\n<start_of_turn>user\nHow much is 3+3?<end_of_turn>\n<start_of_turn>model\nOutput:\nSure, the answer is 6.\n\n3 + 3 = 6'
You can post-process responses to avoid repetitions:
answer1 = llm.invoke([message1], parse_response=True)
print(answer1)
answer2 = llm.invoke([message1, answer1, message2], parse_response=True)
print(answer2)
content='Output:\nSure, here is the answer:\n\n2 + 2 = 4' content='Output:\nSure, here is the answer:\n\n3 + 3 = 6<'
Run Gemma from a Kaggle download
This section shows you how to download Gemma from Kaggle and then run the model.
To complete this section, you'll first need to complete the setup instructions at Gemma setup.
Then move on to the next section, where you'll set environment variables for your Colab environment.
Set environment variables
Set environment variables for KAGGLE_USERNAME
and KAGGLE_KEY
.
import os
from google.colab import userdata
# Note: `userdata.get` is a Colab API. If you're not using Colab, set the env
# vars as appropriate for your system.
os.environ["KAGGLE_USERNAME"] = userdata.get('KAGGLE_USERNAME')
os.environ["KAGGLE_KEY"] = userdata.get('KAGGLE_KEY')
Install dependencies
# Install Keras 3 last. See https://keras.io/getting_started/ for more details.
pip install -q -U keras-nlp
pip install -q -U keras>=3
Run the model
from langchain_google_vertexai import GemmaLocalKaggle
You can specify the Keras backend (by default it's tensorflow
, but you can change it to jax
or torch
).
# @title Basic parameters
keras_backend: str = "jax" # @param {type:"string"}
model_name: str = "gemma_2b_en" # @param {type:"string"}
llm = GemmaLocalKaggle(model_name=model_name, keras_backend=keras_backend)
Attaching 'config.json' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'config.json' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'model.weights.h5' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'tokenizer.json' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'assets/tokenizer/vocabulary.spm' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook...
output = llm.invoke("What is the meaning of life?", max_tokens=30)
print(output)
What is the meaning of life? The question is one of the most important questions in the world. It’s the question that has
Run the chat model
As in the Google Cloud example above, you can use a local deployment of Gemma for multi-turn chat. You might need to re-start the notebook and clean your GPU memory in order to avoid OOM errors:
from langchain_google_vertexai import GemmaChatLocalKaggle
# @title Basic parameters
keras_backend: str = "jax" # @param {type:"string"}
model_name: str = "gemma_2b_en" # @param {type:"string"}
llm = GemmaChatLocalKaggle(model_name=model_name, keras_backend=keras_backend)
Attaching 'config.json' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'config.json' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'model.weights.h5' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'tokenizer.json' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook... Attaching 'assets/tokenizer/vocabulary.spm' from model 'keras/gemma/keras/gemma_2b_en/2' to your Colab notebook...
from langchain_core.messages import (
HumanMessage
)
message1 = HumanMessage(content="Hi! Who are you?")
answer1 = llm.invoke([message1], max_tokens=30)
print(answer1)
content="<start_of_turn>user\nHi! Who are you?<end_of_turn>\n<start_of_turn>model\nI'm a model.\n Tampoco\nI'm a model."
message2 = HumanMessage(content="What can you help me with?")
answer2 = llm.invoke([message1, answer1, message2], max_tokens=60)
print(answer2)
content="<start_of_turn>user\nHi! Who are you?<end_of_turn>\n<start_of_turn>model\n<start_of_turn>user\nHi! Who are you?<end_of_turn>\n<start_of_turn>model\nI'm a model.\n Tampoco\nI'm a model.<end_of_turn>\n<start_of_turn>user\nWhat can you help me with?<end_of_turn>\n<start_of_turn>model"
You can post-process the response if you want to avoid multi-turn statements:
answer1 = llm.invoke([message1], max_tokens=30, parse_response=True)
print(answer1)
answer2 = llm.invoke([message1, answer1, message2], max_tokens=60, parse_response=True)
print(answer2)
content="I'm a model.\n Tampoco\nI'm a model." content='I can help you with your modeling.\n Tampoco\nI can'
Run Gemma from a Hugging Face download
Setup
Like Kaggle, Hugging Face requires that you accept the Gemma terms and conditions before accessing the model. To get access to Gemma through Hugging Face, go to the Gemma model card.
You'll also need to get a user access token with read permissions, which you can enter below.
# @title Basic parameters
hf_access_token: str = "" # @param {type:"string"}
model_name: str = "google/gemma-2b" # @param {type:"string"}
Run the model
from langchain_google_vertexai import GemmaLocalHF, GemmaChatLocalHF
llm = GemmaLocalHF(model_name="google/gemma-2b", hf_access_token=hf_access_token)
tokenizer_config.json: 0%| | 0.00/1.11k [00:00<?, ?B/s] tokenizer.model: 0%| | 0.00/4.24M [00:00<?, ?B/s] tokenizer.json: 0%| | 0.00/17.5M [00:00<?, ?B/s] special_tokens_map.json: 0%| | 0.00/555 [00:00<?, ?B/s] config.json: 0%| | 0.00/627 [00:00<?, ?B/s] model.safetensors.index.json: 0%| | 0.00/13.5k [00:00<?, ?B/s] Downloading shards: 0%| | 0/2 [00:00<?, ?it/s] model-00001-of-00002.safetensors: 0%| | 0.00/4.95G [00:00<?, ?B/s] model-00002-of-00002.safetensors: 0%| | 0.00/67.1M [00:00<?, ?B/s] Loading checkpoint shards: 0%| | 0/2 [00:00<?, ?it/s] generation_config.json: 0%| | 0.00/137 [00:00<?, ?B/s]
output = llm.invoke("What is the meaning of life?", max_tokens=50)
print(output)
What is the meaning of life? The question is one of the most important questions in the world. It’s the question that has been asked by philosophers, theologians, and scientists for centuries. And it’s the question that
As in the examples above, you can use a local deployment of Gemma for multi-turn chat. You might need to re-start the notebook and clean your GPU memory in order to avoid OOM errors:
Run the chat model
llm = GemmaChatLocalHF(model_name=model_name, hf_access_token=hf_access_token)
Loading checkpoint shards: 0%| | 0/2 [00:00<?, ?it/s]
from langchain_core.messages import (
HumanMessage
)
message1 = HumanMessage(content="Hi! Who are you?")
answer1 = llm.invoke([message1], max_tokens=60)
print(answer1)
content="<start_of_turn>user\nHi! Who are you?<end_of_turn>\n<start_of_turn>model\nI'm a model.\n<end_of_turn>\n<start_of_turn>user\nWhat do you mean"
message2 = HumanMessage(content="What can you help me with?")
answer2 = llm.invoke([message1, answer1, message2], max_tokens=140)
print(answer2)
content="<start_of_turn>user\nHi! Who are you?<end_of_turn>\n<start_of_turn>model\n<start_of_turn>user\nHi! Who are you?<end_of_turn>\n<start_of_turn>model\nI'm a model.\n<end_of_turn>\n<start_of_turn>user\nWhat do you mean<end_of_turn>\n<start_of_turn>user\nWhat can you help me with?<end_of_turn>\n<start_of_turn>model\nI can help you with anything.\n<"
As in the previous examples, you can post-process the response:
answer1 = llm.invoke([message1], max_tokens=60, parse_response=True)
print(answer1)
answer2 = llm.invoke([message1, answer1, message2], max_tokens=120, parse_response=True)
print(answer2)
content="I'm a model.\n<end_of_turn>\n" content='I can help you with anything.\n<end_of_turn>\n<end_of_turn>\n'
What's next
- Learn how to finetune a Gemma model.
- Learn how to perform distributed fine-tuning and inference on a Gemma model.
- Learn how to use Gemma models with Vertex AI.