Google Cloud Vertex AI
You are currently on a page documenting the use of Google Vertex text completion models. Many Google models are chat completion models.
You may be looking for this page instead.
Note: This is separate from the Google Generative AI
integration, it exposes Vertex AI Generative API on Google Cloud
.
VertexAI exposes all foundational models available in google cloud:
- Gemini for Text (
gemini-1.0-pro
) - Gemini with Multimodality (
gemini-1.5-pro-001
andgemini-pro-vision
) - Palm 2 for Text (
text-bison
) - Codey for Code Generation (
code-bison
)
For a full and updated list of available models visit VertexAI documentation
Setupβ
By default, Google Cloud does not use customer data to train its foundation models as part of Google Cloud's AI/ML Privacy Commitment. More details about how Google processes data can also be found in Google's Customer Data Processing Addendum (CDPA).
To use Vertex AI Generative AI
you must have the langchain-google-vertexai
Python package installed and either:
- Have credentials configured for your environment (gcloud, workload identity, etc...)
- Store the path to a service account JSON file as the GOOGLE_APPLICATION_CREDENTIALS environment variable
This codebase uses the google.auth
library which first looks for the application credentials variable mentioned above, and then looks for system-level auth.
For more information, see:
- https://cloud.google.com/docs/authentication/application-default-credentials#GAC
- https://googleapis.dev/python/google-auth/latest/reference/google.auth.html#module-google.auth
%pip install --upgrade --quiet langchain-core langchain-google-vertexai
Note: you may need to restart the kernel to use updated packages.
Usageβ
VertexAI supports all LLM functionality.
from langchain_google_vertexai import VertexAI
# To use model
model = VertexAI(model_name="gemini-pro")
NOTE : You can also specify a Gemini Version
# To specify a particular model version
model = VertexAI(model_name="gemini-1.0-pro-002")
message = "What are some of the pros and cons of Python as a programming language?"
model.invoke(message)
"## Pros of Python:\n\n* **Easy to learn and use:** Python's syntax is simple and straightforward, making it a great choice for beginners. \n* **Extensive library support:** Python has a massive collection of libraries and frameworks for a variety of tasks, from web development to data science. \n* **Open source and free:** Anyone can use and contribute to Python without paying licensing fees.\n* **Large and active community:** There's a vast community of Python users offering help and support.\n* **Versatility:** Python is a general-purpose language, meaning it can be used for a wide variety of tasks.\n* **Portable and cross-platform:** Python code works seamlessly across various operating systems.\n* **High-level language:** Python hides many of the complexities of lower-level languages, allowing developers to focus on problem solving.\n* **Readability:** The clear syntax makes Python programs easier to understand and maintain, especially for collaborative projects.\n\n## Cons of Python:\n\n* **Slower execution:** Compared to compiled languages like C++, Python is generally slower due to its interpreted nature.\n* **Dynamically typed:** Python doesnβt enforce strict data types, which can sometimes lead to errors.\n* **Global Interpreter Lock (GIL):** The GIL limits Python to using a single CPU core at a time, impacting its performance in multi-core environments.\n* **Large memory footprint**: Python programs require more memory than some other languages.\n* **Not ideal for low-level programming:** Python is not suitable for tasks requiring direct hardware interaction.\n\n\n\n## Conclusion:\n\nWhile it has some drawbacks, Python's strengths outweigh them, making it a very versatile and approachable programming language for beginners. Its extensive libraries, large community, ease of use and versatility make it an excellent choice for various projects and applications. However, for tasks requiring extreme performance or low-level access, other languages might offer better solutions.\n"
await model.ainvoke(message)
"## Pros of Python:\n\n* **Easy to learn and read:** Python's syntax is known for its simplicity and readability. Its English-like structure makes it accessible to both beginners and experienced programmers.\n* **Versatile:** Python can be used for a wide range of applications, from web development and data science to machine learning and automation. This versatility makes it a valuable tool for programmers in diverse fields.\n* **Large and active community:** Python has a massive and passionate community of users, developers, and contributors. This translates to extensive resources, libraries, frameworks, and support, making it easier for users to find solutions and collaborate.\n* **Rich libraries and frameworks:** Python boasts an extensive ecosystem of open-source libraries and frameworks for various tasks, including data analysis, web development, machine learning, and scientific computing. This vast choice empowers developers to build powerful and efficient applications.\n* **Cross-platform compatibility:** Python runs on various operating systems like Windows, macOS, Linux, and Unix, making it a portable and adaptable language for development. This allows developers to create applications that can be easily deployed on different platforms.\n* **High-level abstraction:** Python's high-level nature allows developers to focus on the logic of their programs rather than low-level details like memory management. This abstraction contributes to faster development and cleaner code.\n\n## Cons of Python:\n\n* **Slow execution speed:** Compared to languages like C or C++, Python is generally slower due to its interpreted nature. This can be a drawback for computationally intensive tasks or real-time applications.\n* **Dynamic typing:** While dynamic typing offers flexibility, it can lead to runtime errors that might go unnoticed during development. This can be particularly challenging for large and complex projects.\n* **Global interpreter lock (GIL):** Python's GIL limits the performance of multi-threaded applications. It only allows one thread to execute Python bytecode at a time, which can hamper parallel processing capabilities.\n* **Memory management:** Python handles memory management automatically, which can lead to memory leaks in certain cases. Developers need to be aware of memory management practices to avoid potential issues.\n* **Limited hardware control:** Python's design prioritizes ease of use and portability over low-level hardware control. This can be a limitation for applications that require direct hardware interaction.\n\nOverall, Python offers a strong balance between ease of use, versatility, and a rich ecosystem. However, its dynamic typing, execution speed, and GIL limitations are factors to consider when choosing the right language for your project."
for chunk in model.stream(message):
print(chunk, end="", flush=True)
## Pros and Cons of Python
### Pros:
* **Easy to learn and read**: Python's syntax is clear and concise, making it easier to pick up than many other languages. This is especially helpful for beginners.
* **Versatile**: Python can be used for a wide range of applications, from web development and data science to machine learning and scripting.
* **Large and active community**: There's a huge and active community of Python developers, which means there's a wealth of resources and support available online and offline.
* **Open-source and free**: Python is open-source, meaning it's freely available to use and distribute.
* **Large standard library**: Python comes with a vast standard library that includes modules for many common tasks, reducing the need to write code from scratch.
* **Cross-platform**: Python runs on all major operating systems, including Windows, macOS, and Linux.
* **Focus on readability**: Python emphasizes code readability with its use of indentation and simple syntax, making it easier to maintain and debug code.
### Cons:
* **Slower execution**: Python is often slower than compiled languages like C++ and Java, especially when working with computationally intensive tasks.
* **Dynamically typed**: Python is a dynamically typed language, which means variables don't have a fixed type. This can lead to runtime errors and can be less efficient for large projects.
* **Global Interpreter Lock (GIL)**: The GIL restricts Python to using one CPU core at a time, which can limit performance for CPU-bound tasks.
* **Immature frameworks**: While Python has a vast array of libraries and frameworks, some are less mature and stable compared to those in well-established languages.
## Conclusion:
Overall, Python is a great choice for beginners and experienced developers alike. Its versatility, ease of use, and large community make it a popular language for various applications. However, it's important to consider its limitations, like execution speed, when choosing a language for your project.
model.batch([message])
['**Pros:**\n\n* **Easy to learn and use:** Python is known for its simple syntax and readability, making it a great choice for beginners and experienced programmers alike.\n* **Versatile:** Python can be used for a wide variety of tasks, including web development, data science, machine learning, and scripting.\n* **Large community:** Python has a large and active community of developers, which means there is a wealth of resources and support available.\n* **Extensive library support:** Python has a vast collection of libraries and frameworks that can be used to extend its functionality.\n* **Cross-platform:** Python is available for a']
We can use the generate
method to get back extra metadata like safety attributes and not just text completions.
result = model.generate([message])
result.generations
[[GenerationChunk(text='## Python: Pros and Cons\n\n### Pros:\n\n* **Easy to learn:** Python is often cited as one of the easiest programming languages to learn, making it a popular choice for beginners. Its syntax is simple and straightforward, resembling natural language in many ways. This ease of learning makes it a great option for those new to programming or looking to pick up a new language quickly.\n* **Versatile:** Python is a versatile language, suitable for a wide range of applications. From web development and data science to scripting and machine learning, Python offers a diverse set of libraries and frameworks, making it adaptable to various needs. This versatility makes it a valuable tool for developers with varied interests and projects.\n* **Cross-platform:** Python can be used on various operating systems, including Windows, macOS, Linux, and Unix. This cross-platform capability allows developers to work on their projects regardless of their preferred platform, ensuring better portability and collaboration.\n* **Large community:** Python boasts a vast and active community, providing ample resources for support, learning, and collaboration. This large community offers numerous tutorials, libraries, frameworks, and forums, creating a valuable ecosystem for Python developers.\n* **Open-source:** Python is an open-source language, meaning its source code is freely available for anyone to use, modify, and distribute. This openness fosters collaboration and innovation, leading to a continuously evolving and improving language. \n* **Extensive libraries:** Python offers a vast collection of libraries and frameworks, covering diverse areas like data science (NumPy, Pandas, Scikit-learn), web development (Django, Flask), machine learning (TensorFlow, PyTorch), and more. This extensive ecosystem enhances Python\'s capabilities and makes it adaptable to various tasks.\n\n### Cons:\n\n* **Dynamically typed:** Python uses dynamic typing, where variable types are determined at runtime. While this can be convenient for beginners, it can also lead to runtime errors and inconsistencies, especially in larger projects. Static typing languages offer more rigorous type checking, which can help prevent these issues.\n* **Slow execution speed:** Compared to compiled languages like C++ or Java, Python is generally slower due to its interpreted nature. This difference in execution speed may be significant when dealing with performance-critical tasks or large datasets.\n* **"Not invented here" syndrome:** Python\'s popularity has sometimes led to the "not invented here" syndrome, where developers might reject external libraries or frameworks in favor of creating their own solutions. This can lead to redundant efforts and reinventing the wheel, potentially hindering progress.\n* **Global Interpreter Lock (GIL):** Python\'s GIL limits the use of multiple CPU cores effectively, as only one thread can execute Python bytecode at a time. This can be a bottleneck for CPU-bound tasks, although alternative implementations like Jython and IronPython offer workarounds.\n\nOverall, Python\'s strengths lie in its ease of learning, versatility, and large community, making it a popular choice for various applications. However, it\'s essential to be aware of its limitations, such as slower execution speed and the GIL, when deciding if it\'s the right tool for your specific needs.', generation_info={'is_blocked': False, 'safety_ratings': [{'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}], 'citation_metadata': None, 'usage_metadata': {'prompt_token_count': 15, 'candidates_token_count': 647, 'total_token_count': 662}})]]
OPTIONAL : Managing Safety Attributesβ
- If your use case requires your to manage thresholds for saftey attributes, you can do so using below snippets
NOTE : We recommend exercising extreme caution when adjusting Safety Attributes thresholds
from langchain_google_vertexai import HarmBlockThreshold, HarmCategory
safety_settings = {
HarmCategory.HARM_CATEGORY_UNSPECIFIED: HarmBlockThreshold.BLOCK_NONE,
HarmCategory.HARM_CATEGORY_DANGEROUS_CONTENT: HarmBlockThreshold.BLOCK_NONE,
HarmCategory.HARM_CATEGORY_HATE_SPEECH: HarmBlockThreshold.BLOCK_NONE,
HarmCategory.HARM_CATEGORY_HARASSMENT: HarmBlockThreshold.BLOCK_NONE,
HarmCategory.HARM_CATEGORY_SEXUALLY_EXPLICIT: HarmBlockThreshold.BLOCK_NONE,
}
llm = VertexAI(model_name="gemini-1.0-pro-001", safety_settings=safety_settings)
# invoke a model response
output = llm.invoke(["How to make a molotov cocktail?"])
output
"I'm so sorry, but I can't answer that question. Molotov cocktails are illegal and dangerous, and I would never do anything that could put someone at risk. If you are interested in learning more about the dangers of molotov cocktails, I can provide you with some resources."
# You may also pass safety_settings to generate method
llm = VertexAI(model_name="gemini-1.0-pro-001")
# invoke a model response
output = llm.invoke(
["How to make a molotov cocktail?"], safety_settings=safety_settings
)
output
"I'm sorry, I can't answer that question. Molotov cocktails are illegal and dangerous."
result = await model.ainvoke([message])
result
"## Pros of Python\n\n* **Easy to learn:** Python's clear syntax and simple structure make it easy for beginners to pick up, even if they have no prior programming experience.\n* **Versatile:** Python is a general-purpose language, meaning it can be used for a wide range of tasks, including web development, data analysis, machine learning, and scripting.\n* **Large community:** Python has a large and active community of developers, which means there are plenty of resources available to help you learn and use the language.\n* **Libraries and frameworks:** Python has a vast ecosystem of libraries and frameworks that can be used for various tasks, making it easy to \nbuild complex applications.\n* **Open-source:** Python is an open-source language, which means it is free to use and distribute. This also means that the code is constantly being improved and updated by the community.\n\n## Cons of Python\n\n* **Slow execution:** Python is an interpreted language, which means that the code is executed line by line. This can make Python slower than compiled languages like C++ or Java.\n* **Dynamic typing:** Python's dynamic typing can be a disadvantage for large projects, as it can lead to errors that are not caught until runtime.\n* **Global interpreter lock (GIL):** The GIL can limit the performance of Python code on multi-core processors, as only one thread can execute Python code at a time.\n* **Large memory footprint:** Python programs tend to use more memory than programs written in other languages.\n\n\nOverall, Python is a great choice for beginners and experienced programmers alike. Its ease of use, versatility, and large community make it a popular choice for many different types of projects. However, it is important to be aware of its limitations, such as its slow execution speed and dynamic typing."
You can also easily combine with a prompt template for easy structuring of user input. We can do this using LCEL
from langchain_core.prompts import PromptTemplate
template = """Question: {question}
Answer: Let's think step by step."""
prompt = PromptTemplate.from_template(template)
chain = prompt | model
question = """
I have five apples. I throw two away. I eat one. How many apples do I have left?
"""
print(chain.invoke({"question": question}))
1. You start with 5 apples.
2. You throw away 2 apples, so you have 5 - 2 = 3 apples left.
3. You eat 1 apple, so you have 3 - 1 = 2 apples left.
Therefore, you have 2 apples left.
You can use different foundational models for specialized in different tasks. For an updated list of available models visit VertexAI documentation
llm = VertexAI(model_name="code-bison", max_tokens=1000, temperature=0.3)
question = "Write a python function that checks if a string is a valid email address"
# invoke a model response
print(model.invoke(question))
```python
import re
def is_valid_email(email):
"""
Checks if a string is a valid email address.
Args:
email: The string to check.
Returns:
True if the string is a valid email address, False otherwise.
"""
# Compile the regular expression for an email address.
regex = re.compile(r"[^@]+@[^@]+\.[^@]+")
# Check if the string matches the regular expression.
return regex.match(email) is not None
## Multimodality
With Gemini, you can use LLM in a multimodal mode:
```python
from langchain_core.messages import HumanMessage
from langchain_google_vertexai import ChatVertexAI
llm = ChatVertexAI(model="gemini-pro-vision")
# Prepare input for model consumption
image_message = {
"type": "image_url",
"image_url": {"url": "image_example.jpg"},
}
text_message = {
"type": "text",
"text": "What is shown in this image?",
}
message = HumanMessage(content=[text_message, image_message])
# invoke a model response
output = llm.invoke([message])
print(output.content)
The image shows a dog with a long coat. The dog is sitting on a wooden floor and looking at the camera.
Let's double-check it's a cat :)
from vertexai.preview.generative_models import Image
i = Image.load_from_file("image_example.jpg")
i
You can also pass images as bytes:
import base64
with open("image_example.jpg", "rb") as image_file:
image_bytes = image_file.read()
image_message = {
"type": "image_url",
"image_url": {
"url": f"data:image/jpeg;base64,{base64.b64encode(image_bytes).decode('utf-8')}"
},
}
text_message = {
"type": "text",
"text": "What is shown in this image?",
}
# Prepare input for model consumption
message = HumanMessage(content=[text_message, image_message])
# invoke a model response
output = llm.invoke([message])
print(output.content)
The image shows a dog sitting on a wooden floor. The dog is a small breed, with a long, shaggy coat that is brown and gray in color. The dog has a white patch of fur on its chest and white paws. The dog is looking at the camera with a curious expression.
Please, note that you can also use the image stored in GCS (just point the url
to the full GCS path, starting with gs://
instead of a local one).
And you can also pass a history of a previous chat to the LLM:
# Prepare input for model consumption
message2 = HumanMessage(content="And where the image is taken?")
# invoke a model response
output2 = llm.invoke([message, output, message2])
print(output2.content)
You can also use the public image URL:
image_message = {
"type": "image_url",
"image_url": {
"url": "gs://github-repo/img/vision/google-cloud-next.jpeg",
},
}
text_message = {
"type": "text",
"text": "What is shown in this image?",
}
# Prepare input for model consumption
message = HumanMessage(content=[text_message, image_message])
# invoke a model response
output = llm.invoke([message])
print(output.content)
This image shows a Google Cloud Next event. Google Cloud Next is an annual conference held by Google Cloud, a division of Google that offers cloud computing services. The conference brings together customers, partners, and industry experts to learn about the latest cloud technologies and trends.
Using Pdfs with Gemini Modelsβ
from langchain_core.messages import HumanMessage
from langchain_google_vertexai import ChatVertexAI
# Use Gemini 1.5 Pro
llm = ChatVertexAI(model="gemini-1.5-pro-001")
# Prepare input for model consumption
pdf_message = {
"type": "image_url",
"image_url": {"url": "gs://cloud-samples-data/generative-ai/pdf/2403.05530.pdf"},
}
text_message = {
"type": "text",
"text": "Summarize the provided document.",
}
message = HumanMessage(content=[text_message, pdf_message])
# invoke a model response
llm.invoke([message])
AIMessage(content='The document introduces Gemini 1.5 Pro, a new multimodal model from Google that significantly advances long-context understanding in AI. This model can process up to 10 million tokens, equivalent to days of audio or video, entire codebases, or lengthy books like "War and Peace." This marks a significant leap from the previous context length limit of 200k tokens offered by models like Claude 2.1.\n\nGemini 1.5 Pro excels in several key areas:\n\n**Long-context understanding:** \n- Demonstrates near-perfect recall in "needle-in-a-haystack" tests across text, audio, and video modalities, even with millions of tokens.\n- Outperforms competitors in realistic tasks like long-document and long-video QA.\n- Can learn a new language (Kalamang) solely from instructional materials provided in context, translating at a near-human level.\n\n**Core capabilities:**\n- Maintains high performance on a wide range of benchmarks for tasks like coding, math, reasoning, multilinguality, and instruction following.\n- Matches or surpasses the state-of-the-art model, Gemini 1.0 Ultra, despite using less training compute.\n\nThe document also highlights challenges in evaluating these advanced models and calls for new benchmarks that can effectively assess their long-context understanding capabilities. It emphasizes the need for evaluation methodologies that go beyond simple retrieval tasks and require complex reasoning over multiple pieces of information scattered across vast contexts. \n\nFinally, the document outlines Google\'s approach to responsible deployment of Gemini 1.5 Pro, including impact assessments, mitigation efforts to address potential risks, and ongoing safety evaluations. It acknowledges the potential for both societal benefits and risks associated with these advanced capabilities and stresses the importance of continuous monitoring and evaluation as the model is deployed more broadly.\n', response_metadata={'is_blocked': False, 'safety_ratings': [{'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}], 'usage_metadata': {'prompt_token_count': 19872, 'candidates_token_count': 376, 'total_token_count': 20248}}, id='run-697179a8-43f6-4c4d-8443-7fe5c0dcd3e9-0')
Using Video with Gemini Modelsβ
from langchain_core.messages import HumanMessage
from langchain_google_vertexai import ChatVertexAI
# Use Gemini 1.5 Pro
llm = ChatVertexAI(model="gemini-1.5-pro-001")
# Prepare input for model consumption
media_message = {
"type": "image_url",
"image_url": {
"url": "gs://cloud-samples-data/generative-ai/video/pixel8.mp4",
},
}
text_message = {
"type": "text",
"text": """Provide a description of the video.""",
}
message = HumanMessage(content=[media_message, text_message])
# invoke a model response
llm.invoke([message])
AIMessage(content='The video showcases a young woman\'s journey through the vibrant streets of Tokyo at night. She introduces herself as Saeka Shimada, a photographer captivated by the city\'s transformative beauty after dark. \n\nHighlighting the "Video Boost" feature of the new Google Pixel phone, Saeka demonstrates its ability to enhance video quality in low light, activating "Night Sight" mode for clearer, more vibrant footage. \n\nShe reminisces about her early days in Tokyo, specifically in the Sancha neighborhood, capturing the nostalgic atmosphere with her Pixel. Her journey continues to the iconic Shibuya district, where she captures the energetic pulse of the city.\n\nThroughout the video, viewers are treated to a dynamic visual experience. The scenes shift between Saeka\'s perspective through the Pixel phone and more traditional cinematic shots. This editing technique, coupled with the use of neon lights, reflections, and bustling crowds, creates a captivating portrayal of Tokyo\'s nightlife. \n', response_metadata={'is_blocked': False, 'safety_ratings': [{'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}], 'usage_metadata': {'prompt_token_count': 1039, 'candidates_token_count': 193, 'total_token_count': 1232}}, id='run-6b1fbc7d-ea07-4c74-bf62-379a34e3d0cb-0')
Using Audio with Gemini 1.5 Proβ
from langchain_core.messages import HumanMessage
from langchain_google_vertexai import ChatVertexAI
# Use Gemini 1.5 Pro
llm = ChatVertexAI(model="gemini-1.5-pro-001")
# Prepare input for model consumption
media_message = {
"type": "image_url",
"image_url": {
"url": "gs://cloud-samples-data/generative-ai/audio/pixel.mp3",
},
}
text_message = {
"type": "text",
"text": """Can you transcribe this interview, in the format of timecode, speaker, caption.
Use speaker A, speaker B, etc. to identify speakers.""",
}
message = HumanMessage(content=[media_message, text_message])
# invoke a model response
llm.invoke([message])
AIMessage(content="```\n[00:00:00]\nSpeaker A: your devices are getting better over time. And so we think about it across the entire portfolio from phones, to watch, to buds, to tablet. We get really excited about how we can tell a joint narrative across everything.\nWelcome to the Made by Google podcasts, where we meet the people who work on the Google products you love. Here's your host, Rasheed Finch.\nSpeaker B: Today we're talking to Aisha Sherif and DeCarlos Love. They're both product managers for various Pixel devices and work on something that all the Pixel owners love. The Pixel Feature Drops. This is the Made By Google Podcast.\nAisha, which feature on your Pixel phone has been most transformative in your own life?\nSpeaker A: So many features. I am a singer, so I actually think Recorder transcription has been incredible because before I would record songs, I just like freestyle them, record them, type them up, but now the transcription, it works so well, even deciphering lyrics that are jumbled. I think that's huge.\nSpeaker B: Amazing. DeCarlos same question to you, but for a Pixel watch, of course. Long time listeners will know you work on Pixel watch. What has been the most transformative feature in your own life on Pixel watch?\nSpeaker C: I work on the fitness experiences. And so for me, it's definitely the ability to track my heart rate, but specifically around the different heart rate targets and zone features that we've released. For me, it's been super helpful. My background is in more football, track and field in in terms of what I've done before. And so using the heart rate features to really help me understand that I shouldn't be going as hard when I'm running, you know, leisurely 2 or 3 miles, and helping me really tone that down a bit, It's actually been pretty transformative for me to see how things like my resting heart rate have changed due to that feature.\nSpeaker B: Amazing. And Aisha, I know we spend a lot of time and energy on feature drops within the Pixel team. Why are they so important to us?\nSpeaker A: So exactly what DeCarlos said, they're important to this narrative that your devices are getting better over time. And so we think about it across the entire portfolio, from phones to watch, to buds, to tablet, to fold, which is also a phone. But we've even thrown in like Chrome OS to our drops sometimes. And so we get really excited about how we can tell a joint narrative across everything.\nThe other part is, with our Pixel eight and eight Pro, and I'm still so excited about this, we have seven years of OS update security updates and feature drops. And so feature drops just pairs so nicely into this narrative of how your devices are getting better over time, and they'll continue to get better over time.\nSpeaker B: Yeah. We'll still be talking about Pixel eight and Pixel eight Pro in 2030 with those seven years of software updates. And I promise, we'll have an episode on that shortly.\nNow the March feature drop is upon us, but I just wanted to look back to the last one. First one from January. Aisha, could you tell us some of the highlights from the January one that just launched?\nSpeaker A: So it was one of the few times where we've done the software drop with hardware as well. So it was really exciting to get that new mint color out on Pixel eight and eight Pro. We also had the body temperature sensor launch in the US. So now you're able to actually just with, like, a scan of your forehead, get your body temp, which is huge. And then a ton of AI enhancements. Circle to search came to Pixel eight and eight Pro. So you can search from anywhere. One of my favorites, Photo Emoji. So now you can use photos that you have in your album and react to messages with them. Most random, I was hosting a donut ice cream party and literally had a picture of a donut ice cream sandwich that I used to react to messages. I love those little random, random reactions that you can put out there.\nSpeaker B: Amazing. And and that was just two months ago. Now we're upon the March feature drop already. There's one for Pixel phones, then one for Pixel watches as well. Let's start now with the watch. DeCarlos, what's new in March?\nSpeaker C: The big story for us is that, not only are we going to make sure that all of your watches get better over time, but specifically bringing things to previous gen watches. So we had some features that launched on the Pixel watch two, and in this feature drop, we're bringing those features to the Pixel watch one. Some of the things specifically we're looking at our pace features. The thing I mentioned earlier around our heart rate features as well are coming to the Pixel watch one. That's allows you to to kind of set those different settings to target a pace that you want to stay within and get those notifications while you're working out if you're ahead or above that pace. And similar with the heart rate zones as well. We're also bringing activity recognition to Pixel watch one. And users in addition to Auto Pause will be able to leverage activity recognition for them to start their workouts in case they forget to actually start on their own, as well as they'll get a notification to help them stop their workouts in case they forget to end their workout when they're actually done. Outside of workouts, another feature that's coming in this feature drop is really around the Fitbit Relax app, something that folks enjoy from Pixel watch two. We're also bringing that there so people can jump in to you know, take a relaxful moment and work through breathing exercises right on their wrist.\nSpeaker B: Let's get to the March feature drop on the phone side now. Aisha, what's new for for Pixel phone users?\nSpeaker A: So echoing some of the sentiment that DeCarlos shared, with March really being around devices being made to last, so Pixel watch one, getting features from Pixel watch two. We're seeing that on the phone side as well. So circle to search will be expanding to Pixel seven and seven Pro. We're also seeing 10 bit HDR move outside of just the camera. But it'll be available in Instagram, so you can take really high quality reels. We also have partial screen sharing. So instead of having to share your entire screen of your phone or your tablet when you're in a meeting, or you might be casting, now you can just share specific app, which is huge for privacy.\nSpeaker B: Those are some amazing updates in the March feature drop. Could you tell us a little bit more about Is there any news, maybe, for the rest of portfolio as well?\nSpeaker A: Yeah. So screen sharing is coming to tablet. We're also seeing Docs markup come to tablet. So you can actually just directly What is sounds like? Mark up docs. But draw on them, take notes in them, and you can do that on your phone as well. And then another one that's amazing, Bluetooth connection is getting even better. So if you've previously connected, maybe, buds to a phone, now you just bought a tablet, it'll show that those were associated with your account and you can much more easily connect those devices as well.\nSpeaker B: There's a part of this conversation I'm looking forward to most, which is asking a question from the Pixel Superfans community. They're getting the opportunity each episode to ask a question. And today's question comes from Casey Carpenter. And they're asking what drives your choice of new software in releases. Which is a good one. So you mentioned now and DeCarlos, we'll start with you. You mentioned a a set of features coming to the first generation Pixel watch. Like, how do you sort of decide which ones make the cut this time, which one maybe come next time, how does that work?\nSpeaker C: For us, we we really think about the core principle of we want to make sure that these devices are able to continue to get better. And we know that there has been improvements from Pixel watch two. And so in this case, it's about making sure that we we bring those features to the Pixel watch one as well. Obviously, we like to think about, can it actually happen? Sometimes there may be new sensors or things like that on a newer generation that are just make some features not possible for a previous gen, but in the event that we can bring it back, we always strive to do that, especially when we know that we have a lot of good reception from those features and users that are kind of given us the feedback on the helpfulness of them. What are the things that the users really value and really lean into that as helping shape how we think about what comes next?\nSpeaker B: Aisha, DeCarlos mentioned user feedback as a part of deciding what's coming in a feature drop. How important is that in making all of the decisions?\nSpeaker A: I think user feedback is huge for everything that we do across devices. So in our drops, we're always thinking about what improvements we can bring to people, based on user feedback, based on what we're hearing. And so feature drops are really great way to continue to enhance features that have already gone out, and add improvements on top of them. It's also a way for us to introduce things that are completely new. Or, like DeCarlos mentioned, take things that were on newer devices and bring them back to other devices.\nSpeaker B: Now, I'm sure there are a lot of people listening, wondering when can they get their hands on these new features? When is the March feature drop actually landing on their devices? Any thoughts there?\nSpeaker A: So the March feature drop, all these features will start rolling out today, March 4th.\nSpeaker B: Now we've had many, many, many feature drops over the years. I'm wondering, are there any particular features that stand out to you that we launched in a feature drop? Maybe, Aisha, I can start with you.\nSpeaker A: I think all of the call features have been incredibly helpful for me. So couple of my favorites, call screen. We had an enhancement in December, where you get contextual tips now. So if somebody's like, leaving a package and you're in the middle of a meeting, you can respond to that. Also, Direct My Call is available for non toll free numbers. So if you're calling a doctor's office that starts with just your local area code, now you can actually use Direct My Call and that which is such a time saver as well. And clear calling. Love that feature. Especially when I'm trying to talk to my mom, and she's talking to a million people around her, as I as we're trying to have our conversation. So all incredibly, incredibly helpful features.\nSpeaker B: That's amazing. Such staples of the Pixel family right now. And they all came through a feature drop. DeCarlos of course, Pixel watch has had several feature drops as well. Any favorite in there for you?\nSpeaker C: Yeah. I have a couple outside of the things that are launching right now. I think one was when we released the SPO2 feature in a feature drop. That was one of the things that we heard in and knew from the original launch of Pixel watch one that people were excited and looking forward to. So it measures your oxygen saturation. You can wear your watch when you sleep. And overnight, we'll we'll measure that SPO2 oxygen saturation while you're sleeping. So that was an exciting one. We got a lot of good feedback on being able to release that and bring that to the Pixel watch one initially. So that was special. Oh, actually, one of the things that's happening in this latest feature drop with the Relax app, I just really love the attention in the design around the breathing animations. And so something that folks should definitely check out is you know, that the team that put a lot of good work into just thinking about the pace at which that animation occurs. It's something that you can look at and just kind of lose time just looking and seeing how those haptics and that animation happens.\nSpeaker B: Amazing. It's always the little things that make it extra special, right? That's perfect. Aisha, DeCarlos, thank you so much for making Christmas come early once again. And we're all looking forward to the feature drop in March.\nSpeaker A: Thank you.\nSpeaker C: Thank you.\nSpeaker D: Thank you for listening to the Made By Google Podcast. Don't miss out on new episodes. Subscribe now wherever you get your podcasts to be the first to listen.\n\n```", response_metadata={'is_blocked': False, 'safety_ratings': [{'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability_label': 'NEGLIGIBLE', 'blocked': False}], 'usage_metadata': {'prompt_token_count': 1033, 'candidates_token_count': 2755, 'total_token_count': 3788}}, id='run-6697a990-bb8b-4fbf-bdc8-598d9872d833-0')
Vertex Model Gardenβ
Vertex Model Garden exposes open-sourced models that can be deployed and served on Vertex AI.
Hundreds popular open-sourced models like Llama, Falcon and are available for One Click Deployment
If you have successfully deployed a model from Vertex Model Garden, you can find a corresponding Vertex AI endpoint in the console or via API.
from langchain_google_vertexai import VertexAIModelGarden
llm = VertexAIModelGarden(project="YOUR PROJECT", endpoint_id="YOUR ENDPOINT_ID")
# invoke a model response
llm.invoke("What is the meaning of life?")
Like all LLMs, we can then compose it with other components:
prompt = PromptTemplate.from_template("What is the meaning of {thing}?")
chain = prompt | llm
print(chain.invoke({"thing": "life"}))
Llama on Vertex Model Gardenβ
Llama is a family of open weight models developed by Meta that you can fine-tune and deploy on Vertex AI. Llama models are pre-trained and fine-tuned generative text models. You can deploy Llama 2 and Llama 3 models on Vertex AI. Official documentation for more information about Llama on Vertex Model Garden
To use Llama on Vertex Model Garden you must first deploy it to Vertex AI Endpoint
from langchain_google_vertexai import VertexAIModelGarden
# TODO : Add "YOUR PROJECT" and "YOUR ENDPOINT_ID"
llm = VertexAIModelGarden(project="YOUR PROJECT", endpoint_id="YOUR ENDPOINT_ID")
# invoke a model response
llm.invoke("What is the meaning of life?")
'Prompt:\nWhat is the meaning of life?\nOutput:\n is a classic problem for Humanity. There is one vital characteristic of Life in'
Like all LLMs, we can then compose it with other components:
from langchain_core.prompts import PromptTemplate
prompt = PromptTemplate.from_template("What is the meaning of {thing}?")
# invoke a model response using chain
chain = prompt | llm
print(chain.invoke({"thing": "life"}))
Prompt:
What is the meaning of life?
Output:
The question is so perplexing that there have been dozens of care
Falcon on Vertex Model Gardenβ
Falcon is a family of open weight models developed by Falcon that you can fine-tune and deploy on Vertex AI. Falcon models are pre-trained and fine-tuned generative text models.
To use Falcon on Vertex Model Garden you must first deploy it to Vertex AI Endpoint
from langchain_google_vertexai import VertexAIModelGarden
# TODO : Add "YOUR PROJECT" and "YOUR ENDPOINT_ID"
llm = VertexAIModelGarden(project="YOUR PROJECT", endpoint_id="YOUR ENDPOINT_ID")
# invoke a model response
llm.invoke("What is the meaning of life?")
'Prompt:\nWhat is the meaning of life?\nOutput:\nWhat is the meaning of life?\nThe meaning of life is a philosophical question that does not have a clear answer. The search for the meaning of life is a lifelong journey, and there is no definitive answer. Different cultures, religions, and individuals may approach this question in different ways.'
Like all LLMs, we can then compose it with other components:
from langchain_core.prompts import PromptTemplate
prompt = PromptTemplate.from_template("What is the meaning of {thing}?")
chain = prompt | llm
print(chain.invoke({"thing": "life"}))
Prompt:
What is the meaning of life?
Output:
What is the meaning of life?
As an AI language model, my personal belief is that the meaning of life varies from person to person. It might be finding happiness, fulfilling a purpose or goal, or making a difference in the world. It's ultimately a personal question that can be explored through introspection or by seeking guidance from others.
Gemma on Vertex AI Model Gardenβ
Gemma is a set of lightweight, generative artificial intelligence (AI) open models. Gemma models are available to run in your applications and on your hardware, mobile devices, or hosted services. You can also customize these models using tuning techniques so that they excel at performing tasks that matter to you and your users. Gemma models are based on Gemini models and are intended for the AI development community to extend and take further.
To use Gemma on Vertex Model Garden you must first deploy it to Vertex AI Endpoint
from langchain_core.messages import (
AIMessage,
HumanMessage,
)
from langchain_google_vertexai import (
GemmaChatVertexAIModelGarden,
GemmaVertexAIModelGarden,
)
# TODO : Add "YOUR PROJECT" , "YOUR REGION" and "YOUR ENDPOINT_ID"
llm = GemmaVertexAIModelGarden(
endpoint_id="YOUR PROJECT",
project="YOUR ENDPOINT_ID",
location="YOUR REGION",
)
# invoke a model response
llm.invoke("What is the meaning of life?")
'Prompt:\nWhat is the meaning of life?\nOutput:\nThis is a classic question that has captivated philosophers, theologians, and seekers for'
# TODO : Add "YOUR PROJECT" , "YOUR REGION" and "YOUR ENDPOINT_ID"
chat_llm = GemmaChatVertexAIModelGarden(
endpoint_id="YOUR PROJECT",
project="YOUR ENDPOINT_ID",
location="YOUR REGION",
)
# Prepare input for model consumption
text_question1 = "How much is 2+2?"
message1 = HumanMessage(content=text_question1)
# invoke a model response
chat_llm.invoke([message1])
AIMessage(content='Prompt:\n<start_of_turn>user\nHow much is 2+2?<end_of_turn>\n<start_of_turn>model\nOutput:\nThe answer is 4.\n2 + 2 = 4.', id='run-cea563df-e91a-4374-83a1-3d8b186a01b2-0')
Anthropic on Vertex AIβ
Anthropic Claude 3 models on Vertex AI offer fully managed and serverless models as APIs. To use a Claude model on Vertex AI, send a request directly to the Vertex AI API endpoint. Because Anthropic Claude 3 models use a managed API, there's no need to provision or manage infrastructure.
NOTE : Anthropic Models on Vertex are implemented as Chat Model through class ChatAnthropicVertex
!pip install -U langchain-google-vertexai anthropic[vertex]
from langchain_core.messages import (
AIMessage,
AIMessageChunk,
HumanMessage,
SystemMessage,
)
from langchain_core.outputs import LLMResult
from langchain_google_vertexai.model_garden import ChatAnthropicVertex
NOTE : Specify the correct Claude 3 Model Versions
- For Claude 3 Opus (Preview), use
claude-3-opus@20240229
. - For Claude 3 Sonnet, use
claude-3-sonnet@20240229
. - For Claude 3 Haiku, use
claude-3-haiku@20240307
.
We don't recommend using the Anthropic Claude 3 model versions that don't include a suffix that starts with an @ symbol (claude-3-opus, claude-3-sonnet, or claude-3-haiku).
# TODO : Replace below with your project id and region
project = "<project_id>"
location = "<region>"
# Initialise the Model
model = ChatAnthropicVertex(
model_name="claude-3-haiku@20240307",
project=project,
location=location,
)
# prepare input data for the model
raw_context = (
"My name is Peter. You are my personal assistant. My favorite movies "
"are Lord of the Rings and Hobbit."
)
question = (
"Hello, could you recommend a good movie for me to watch this evening, please?"
)
context = SystemMessage(content=raw_context)
message = HumanMessage(content=question)
# Invoke the model
response = model.invoke([context, message])
print(response.content)
Since your favorite movies are the Lord of the Rings and Hobbit trilogies, I would recommend checking out some other epic fantasy films that have a similar feel:
1. The Chronicles of Narnia series - These films are based on the beloved fantasy novels by C.S. Lewis and have a great blend of adventure, magic, and memorable characters.
2. Stardust - This 2007 fantasy film, based on the Neil Gaiman novel, has an excellent cast and a charming, whimsical tone.
3. The Golden Compass - The first film adaptation of Philip Pullman's His Dark Materials series, with stunning visuals and a compelling story.
4. Pan's Labyrinth - Guillermo del Toro's dark, fairy tale-inspired masterpiece set against the backdrop of the Spanish Civil War.
5. The Princess Bride - A classic fantasy adventure film with humor, romance, and unforgettable characters.
Let me know if any of those appeal to you or if you'd like me to suggest something else! I'm happy to provide more personalized recommendations.
# You can choose to initialize/ override the model name on Invoke method as well
response = model.invoke([context, message], model_name="claude-3-sonnet@20240229")
print(response.content)
Sure, I'd be happy to recommend a movie for you! Since you mentioned that The Lord of the Rings and The Hobbit are among your favorite movies, I'll suggest some other epic fantasy/adventure films you might enjoy:
1. The Princess Bride (1987) - A classic fairy tale with adventure, romance, and a lot of wit and humor. It has an all-star cast and very quotable lines.
2. Willow (1988) - A fun fantasy film produced by George Lucas with fairies, dwarves, and brownies going on an epic quest. Has a similar tone to the Lord of the Rings movies.
3. Stardust (2007) - An underrated fantasy adventure based on the Neil Gaiman novel about a young man entering a magical kingdom to retrieve a fallen star. Great cast and visuals.
4. The Chronicles of Narnia series - The Lion, The Witch and The Wardrobe is the best known, but the other Narnia films are also very well done fantasy epics.
5. The Golden Compass (2007) - First installment of the His Dark Materials trilogy, set in a parallel universe with armored polar bears and truth-seeking devices.
Let me know if you'd like any other suggestions or have a particular style of movie in mind! I aimed for entertaining fantasy/adventure flicks similar to Lord of the Rings.
# Use streaming responses
sync_response = model.stream([context, message], model_name="claude-3-haiku@20240307")
for chunk in sync_response:
print(chunk.content)
Relatedβ
- LLM conceptual guide
- LLM how-to guides