List of the Top 6 ML Model Deployment Tools for Kedro in 2025

Vertex AI's ML Model Deployment equips companies with the resources necessary to effortlessly launch machine learning models into live settings. After successfully training and refining a model, businesses can take advantage of user-friendly deployment features that facilitate the integration of these models into their applications, allowing for the provision of AI-enhanced services on a large scale. Whether opting for batch processing or real-time deployment, Vertex AI gives organizations the flexibility to select the most suitable method for their specific requirements. Additionally, new users are granted $300 in complimentary credits to explore various deployment strategies and enhance their operational workflows. With these tools at their disposal, organizations can rapidly scale their AI initiatives and create significant value for their customers.

Docker simplifies complex configuration tasks and is employed throughout the entire software development lifecycle, enabling rapid, straightforward, and portable application development on desktop and cloud environments. This comprehensive platform offers various features, including user interfaces, command-line utilities, application programming interfaces, and integrated security, which all work harmoniously to enhance the application delivery process. You can kickstart your programming projects by leveraging Docker images to create unique applications compatible with both Windows and Mac operating systems. With the capabilities of Docker Compose, constructing multi-container applications becomes a breeze. In addition, Docker seamlessly integrates with familiar tools in your development toolkit, such as Visual Studio Code, CircleCI, and GitHub, enhancing your workflow. You can easily package your applications into portable container images, guaranteeing consistent performance across diverse environments, whether on on-premises Kubernetes or cloud services like AWS ECS, Azure ACI, or Google GKE. Furthermore, Docker provides access to a rich repository of trusted assets, including official images and those from verified vendors, ensuring that your application development is both reliable and high-quality. Its adaptability and integration capabilities position Docker as an essential tool for developers striving to boost their productivity and streamline their processes, making it indispensable in modern software development. This ensures that developers can focus more on innovation and less on configuration management.

Amazon SageMaker is a robust platform designed to help developers efficiently build, train, and deploy machine learning models. It unites a wide range of tools in a single, integrated environment that accelerates the creation and deployment of both traditional machine learning models and generative AI applications. SageMaker enables seamless data access from diverse sources like Amazon S3 data lakes, Redshift data warehouses, and third-party databases, while offering secure, real-time data processing. The platform provides specialized features for AI use cases, including generative AI, and tools for model training, fine-tuning, and deployment at scale. It also supports enterprise-level security with fine-grained access controls, ensuring compliance and transparency throughout the AI lifecycle. By offering a unified studio for collaboration, SageMaker improves teamwork and productivity. Its comprehensive approach to governance, data management, and model monitoring gives users full confidence in their AI projects.

Optimize the complete machine learning process from inception to execution. Empower developers and data scientists with a variety of efficient tools to quickly build, train, and deploy machine learning models. Accelerate time-to-market and improve team collaboration through superior MLOps that function similarly to DevOps but focus specifically on machine learning. Encourage innovation on a secure platform that emphasizes responsible machine learning principles. Address the needs of all experience levels by providing both code-centric methods and intuitive drag-and-drop interfaces, in addition to automated machine learning solutions. Utilize robust MLOps features that integrate smoothly with existing DevOps practices, ensuring a comprehensive management of the entire ML lifecycle. Promote responsible practices by guaranteeing model interpretability and fairness, protecting data with differential privacy and confidential computing, while also maintaining a structured oversight of the ML lifecycle through audit trails and datasheets. Moreover, extend exceptional support for a wide range of open-source frameworks and programming languages, such as MLflow, Kubeflow, ONNX, PyTorch, TensorFlow, Python, and R, facilitating the adoption of best practices in machine learning initiatives. By harnessing these capabilities, organizations can significantly boost their operational efficiency and foster innovation more effectively. This not only enhances productivity but also ensures that teams can navigate the complexities of machine learning with confidence.

MLflow is a comprehensive open-source platform aimed at managing the entire machine learning lifecycle, which includes experimentation, reproducibility, deployment, and a centralized model registry. This suite consists of four core components that streamline various functions: tracking and analyzing experiments related to code, data, configurations, and results; packaging data science code to maintain consistency across different environments; deploying machine learning models in diverse serving scenarios; and maintaining a centralized repository for storing, annotating, discovering, and managing models. Notably, the MLflow Tracking component offers both an API and a user interface for recording critical elements such as parameters, code versions, metrics, and output files generated during machine learning execution, which facilitates subsequent result visualization. It supports logging and querying experiments through multiple interfaces, including Python, REST, R API, and Java API. In addition, an MLflow Project provides a systematic approach to organizing data science code, ensuring it can be effortlessly reused and reproduced while adhering to established conventions. The Projects component is further enhanced with an API and command-line tools tailored for the efficient execution of these projects. As a whole, MLflow significantly simplifies the management of machine learning workflows, fostering enhanced collaboration and iteration among teams working on their models. This streamlined approach not only boosts productivity but also encourages innovation in machine learning practices.

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.