Preparing for your Professional Data Engineer Journey
Earned Jun 19, 2024 EDT
Encoder-Decoder Architecture
Earned May 31, 2023 EDT
Create Image Captioning Models
Earned May 18, 2023 EDT
Introduction to Image Generation
Earned May 17, 2023 EDT
Transformer Models and BERT Model
Earned May 17, 2023 EDT
Attention Mechanism
Earned May 17, 2023 EDT
Introduction to Large Language Models
Earned May 17, 2023 EDT
Introduction to Generative AI
Earned May 17, 2023 EDT
How Google Does Machine Learning
Earned Jun 20, 2022 EDT
Serverless Data Processing with Dataflow: Foundations
Earned Mar 29, 2022 EDT
Smart Analytics, Machine Learning, and AI on Google Cloud
Earned Mar 29, 2022 EDT
Build Streaming Data Pipelines on Google Cloud
Earned Mar 27, 2022 EDT
Build Data Lakes and Data Warehouses on Google Cloud
Earned Mar 18, 2022 EDT
Google Cloud Big Data and Machine Learning Fundamentals
Earned Mar 14, 2022 EDT
This course helps learners create a study plan for the PDE (Professional Data Engineer) certification exam. Learners explore the breadth and scope of the domains covered in the exam. Learners assess their exam readiness and create their individual study plan.
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This course gives you a synopsis of the encoder-decoder architecture, which is a powerful and prevalent machine learning architecture for sequence-to-sequence tasks such as machine translation, text summarization, and question answering. You learn about the main components of the encoder-decoder architecture and how to train and serve these models. In the corresponding lab walkthrough, you’ll code in TensorFlow a simple implementation of the encoder-decoder architecture for poetry generation from the beginning.
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This course teaches you how to create an image captioning model by using deep learning. You learn about the different components of an image captioning model, such as the encoder and decoder, and how to train and evaluate your model. By the end of this course, you will be able to create your own image captioning models and use them to generate captions for images
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This course introduces diffusion models, a family of machine learning models that recently showed promise in the image generation space. Diffusion models draw inspiration from physics, specifically thermodynamics. Within the last few years, diffusion models became popular in both research and industry. Diffusion models underpin many state-of-the-art image generation models and tools on Google Cloud. This course introduces you to the theory behind diffusion models and how to train and deploy them on Vertex AI.
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This course introduces you to the Transformer architecture and the Bidirectional Encoder Representations from Transformers (BERT) model. You learn about the main components of the Transformer architecture, such as the self-attention mechanism, and how it is used to build the BERT model. You also learn about the different tasks that BERT can be used for, such as text classification, question answering, and natural language inference.This course is estimated to take approximately 45 minutes to complete.
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This course will introduce you to the attention mechanism, a powerful technique that allows neural networks to focus on specific parts of an input sequence. You will learn how attention works, and how it can be used to improve the performance of a variety of machine learning tasks, including machine translation, text summarization, and question answering. This course is estimated to take approximately 45 minutes to complete.
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This is an introductory level micro-learning course that explores what large language models (LLM) are, the use cases where they can be utilized, and how you can use prompt tuning to enhance LLM performance. It also covers Google tools to help you develop your own Gen AI apps.
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This is an introductory level microlearning course aimed at explaining what Generative AI is, how it is used, and how it differs from traditional machine learning methods. It also covers Google Tools to help you develop your own Gen AI apps.
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This course explores what ML is and what problems it can solve. The course also discusses best practices for implementing machine learning. You’re introduced to Vertex AI, a unified platform to quickly build, train, and deploy AutoML machine learning models.
The course discusses the five phases of converting a candidate use case to be driven by machine learning, and why it’s important to not skip them. The course ends with recognizing the biases that ML can amplify and how to recognize them.
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This course is part 1 of a 3-course series on Serverless Data Processing with Dataflow. In this first course, we start with a refresher of what Apache Beam is and its relationship with Dataflow. Next, we talk about the Apache Beam vision and the benefits of the Beam Portability framework. The Beam Portability framework achieves the vision that a developer can use their favorite programming language with their preferred execution backend. We then show you how Dataflow allows you to separate compute and storage while saving money, and how identity, access, and management tools interact with your Dataflow pipelines. Lastly, we look at how to implement the right security model for your use case on Dataflow.
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Incorporating machine learning into data pipelines increases the ability to extract insights from data. This course covers ways machine learning can be included in data pipelines on Google Cloud. For little to no customization, this course covers AutoML. For more tailored machine learning capabilities, this course introduces Notebooks and BigQuery machine learning (BigQuery ML). Also, this course covers how to productionalize machine learning solutions by using Vertex AI.
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In this course you will get hands-on in order to work through real-world challenges faced when building streaming data pipelines. The primary focus is on managing continuous, unbounded data with Google Cloud products.
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While the traditional approaches of using data lakes and data warehouses can be effective, they have shortcomings, particularly in large enterprise environments. This course introduces the concept of a data lakehouse and the Google Cloud products used to create one. A lakehouse architecture uses open-standard data sources and combines the best features of data lakes and data warehouses, which addresses many of their shortcomings.
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This course introduces the Google Cloud big data and machine learning products and services that support the data-to-AI lifecycle. It explores the processes, challenges, and benefits of building a big data pipeline and machine learning models with Vertex AI on Google Cloud.
Preparing for your Professional Data Engineer Journey
Earned Jun 19, 2024 EDT
Encoder-Decoder Architecture
Earned May 31, 2023 EDT
Create Image Captioning Models
Earned May 18, 2023 EDT
Introduction to Image Generation
Earned May 17, 2023 EDT
Transformer Models and BERT Model
Earned May 17, 2023 EDT
Attention Mechanism
Earned May 17, 2023 EDT
Introduction to Large Language Models
Earned May 17, 2023 EDT
Introduction to Generative AI
Earned May 17, 2023 EDT
How Google Does Machine Learning
Earned Jun 20, 2022 EDT
Serverless Data Processing with Dataflow: Foundations
Earned Mar 29, 2022 EDT
Smart Analytics, Machine Learning, and AI on Google Cloud
Earned Mar 29, 2022 EDT
Build Streaming Data Pipelines on Google Cloud
Earned Mar 27, 2022 EDT
Build Data Lakes and Data Warehouses on Google Cloud
Earned Mar 18, 2022 EDT
Google Cloud Big Data and Machine Learning Fundamentals
Earned Mar 14, 2022 EDT