List of the Top 6 Machine Learning Software for Vertex AI Notebooks in 2025

Vertex AI empowers organizations to leverage data-centric models for informed decision-making and process automation. Offering an extensive selection of algorithms, tools, and models, it enables businesses to tackle various issues, including forecasting, classification, and anomaly detection. The platform simplifies the creation, training, and deployment of machine learning models on a large scale. New users are welcomed with $300 in complimentary credits to explore machine learning capabilities and experiment with models tailored to their specific needs. By incorporating machine learning into their operations, companies can fully utilize their data and achieve improved results.

BigQuery provides robust machine learning functionalities through BigQuery ML, empowering users to create, train, and deploy machine learning models right within the platform. This integration simplifies the process for organizations, eliminating the need to navigate through various tools or environments. BigQuery ML works smoothly with SQL, allowing data analysts and scientists to utilize machine learning models with tools they already know. New users can take advantage of $300 in free credits to explore BigQuery’s machine learning capabilities, enabling them to harness AI for predictive analytics and informed decision-making. The platform accommodates a wide range of machine learning algorithms, making it a flexible solution for diverse applications.

TensorFlow serves as a comprehensive, open-source platform for machine learning, guiding users through every stage from development to deployment. This platform features a diverse and flexible ecosystem that includes a wide array of tools, libraries, and community contributions, which help researchers make significant advancements in machine learning while simplifying the creation and deployment of ML applications for developers. With user-friendly high-level APIs such as Keras and the ability to execute operations eagerly, building and fine-tuning machine learning models becomes a seamless process, promoting rapid iterations and easing debugging efforts. The adaptability of TensorFlow enables users to train and deploy their models effortlessly across different environments, be it in the cloud, on local servers, within web browsers, or directly on hardware devices, irrespective of the programming language in use. Additionally, its clear and flexible architecture is designed to convert innovative concepts into implementable code quickly, paving the way for the swift release of sophisticated models. This robust framework not only fosters experimentation but also significantly accelerates the machine learning workflow, making it an invaluable resource for practitioners in the field. Ultimately, TensorFlow stands out as a vital tool that enhances productivity and innovation in machine learning endeavors.

Seamlessly transition between eager and graph modes with TorchScript, while expediting your production journey using TorchServe. The torch-distributed backend supports scalable distributed training, boosting performance optimization in both research and production contexts. A diverse array of tools and libraries enhances the PyTorch ecosystem, facilitating development across various domains, including computer vision and natural language processing. Furthermore, PyTorch's compatibility with major cloud platforms streamlines the development workflow and allows for effortless scaling. Users can easily select their preferences and run the installation command with minimal hassle. The stable version represents the latest thoroughly tested and approved iteration of PyTorch, generally suitable for a wide audience. For those desiring the latest features, a preview is available, showcasing the newest nightly builds of version 1.10, though these may lack full testing and support. It's important to ensure that all prerequisites are met, including having numpy installed, depending on your chosen package manager. Anaconda is strongly suggested as the preferred package manager, as it proficiently installs all required dependencies, guaranteeing a seamless installation experience for users. This all-encompassing strategy not only boosts productivity but also lays a solid groundwork for development, ultimately leading to more successful projects. Additionally, leveraging community support and documentation can further enhance your experience with PyTorch.

Streamline your MLOps pipelines with ZenML, which enables you to efficiently manage, deploy, and scale any infrastructure. This open-source and free tool can be effortlessly set up in just a few minutes, allowing you to leverage your existing tools with ease. With only two straightforward commands, you can experience the impressive capabilities of ZenML. Its user-friendly interfaces ensure that all your tools work together harmoniously. You can gradually scale your MLOps stack by adjusting components as your training or deployment requirements evolve. Stay abreast of the latest trends in the MLOps landscape and integrate new developments effortlessly. ZenML helps you define concise and clear ML workflows, saving you time by eliminating repetitive boilerplate code and unnecessary infrastructure tooling. Transitioning from experiments to production takes mere seconds with ZenML's portable ML codes. Furthermore, its plug-and-play integrations enable you to manage all your preferred MLOps software within a single platform, preventing vendor lock-in by allowing you to write extensible, tooling-agnostic, and infrastructure-agnostic code. In doing so, ZenML empowers you to create a flexible and efficient MLOps environment tailored to your specific needs.

The Kubeflow project is designed to streamline the deployment of machine learning workflows on Kubernetes, making them both scalable and easily portable. Instead of replicating existing services, we concentrate on providing a user-friendly platform for deploying leading open-source ML frameworks across diverse infrastructures. Kubeflow is built to function effortlessly in any environment that supports Kubernetes. One of its standout features is a dedicated operator for TensorFlow training jobs, which greatly enhances the training of machine learning models, especially in handling distributed TensorFlow tasks. Users have the flexibility to adjust the training controller to leverage either CPUs or GPUs, catering to various cluster setups. Furthermore, Kubeflow enables users to create and manage interactive Jupyter notebooks, which allows for customized deployments and resource management tailored to specific data science projects. Before moving workflows to a cloud setting, users can test and refine their processes locally, ensuring a smoother transition. This adaptability not only speeds up the iteration process for data scientists but also guarantees that the models developed are both resilient and production-ready, ultimately enhancing the overall efficiency of machine learning projects. Additionally, the integration of these features into a single platform significantly reduces the complexity associated with managing multiple tools.