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Docker for Data Science
Docker for Data Science: Building Scalable and Extensible Data Infrastructure Around the Jupyter Notebook Server
The typical data scientist consistently has a series of extremely complicated problems on their mind beyond considerations stemming from their system infrastructure. Still, it is inevitable that infrastructure issues will present themselves. To oversimplify, we might draw a distinction between the “modeling problem” and the “engineering problem.” The data scientist is uniquely qualified to solve the former, but can often come up short in solving the latter.
Docker has been widely adopted by the system administrator and DevOps community as a modern solution to the challenges presented in high availability and high-performance computing.1 Docker is being used for the following: transitioning legacy applications to a more modern “microservice”-based approach, facilitating continuous integration and continuous deployment for the integration of new code, and optimizing infrastructure usage.
In this book, I discuss Docker as a tool for the data scientist, in particular in conjunction with the popular interactive programming platform Jupyter. Using Docker and Jupyter, the data scientist can easily take ownership of their system configuration and maintenance, prototype easily deployable and scalable data solutions, and trivially clone entire systems with an eye toward replicability and communication. In short, I propose that skill with Docker is just enough knowledge of systems operations to make the data scientist dangerous. Having done this, I propose that Docker can add high performance and availability tools to the data scientist’s toolbelt and fundamentally change the way that models are developed, prototyped, and scaled.