Google cloud next-2017 - The largest Google developer and IT gathering in Amsterdam to explore the latest developments in cloud technology. A chance to engage with the foremost minds leading the cloud revolution and learn how the modern enterprise is benefiting from the latest in cloud technology in unprecedented ways. As usual for us one more way to keep up with technology. We saw some very interesting new innovations (spanner and app maker to name two) and how they relate to application development in the cloud. Given below are the other highlights of the technologies talked about during the event: 1) Microservices & Kubernetes: Microservices - is an architectural style that structures an application as a collection of loosely coupled services, which implement business capabilities. It enables the continuous delivery/deployment of large, complex applications and enables an organization to evolve its technology stack and can develop and deploy faster. It’s an evolution of software development and deployment that embraces DevOps and containers and breaks applications down to smaller individual components. The emerging combination of micro-service architectures, Docker containers, programmable infrastructure, cloud, and modern Continuous Delivery (CD) techniques have enabled a true paradigm shift for delivering business value through software development. The combination of microservices and containers promotes a totally different vision of how services change application development. Kubernetes - is an open-source system for automating deployment, scaling and management of containerized applications that was originally designed by Google and donated to the cloud native computing foundation. It aims to provide a "platform for automating deployment, scaling, and operations of application containers across clusters of hosts". It supports a range of container tools, including Docker. 2) Choosing the right compute option in a cloud project: a decision tree To understand the trade-offs and decide which models are the best fit for your systems as well as how the models map to Cloud services —Compute Engine, Container Engine, App Engine, cloud functions. Compute Engine is an Infrastructure-as-a-Service. The developer has to create and configure their own virtual machine instances. It gives them more flexibility and generally costs much less than App Engine. The drawback is that the developer has to manage their app and virtual machines yourself. Container Engine is another level above Compute Engine, i.e. it's cluster of several Compute Engine instances which can be centrally managed. App Engine is a Platform-as-a-Service. It means that the developer can simply deploy their code, and the platform does everything else for them. Cloud Functions is a serverless computing service, the next level up from App Engine in terms of abstraction. It allows developers to deploy bite-size pieces of code that execute in response to different events, which may include HTTP requests, changes in Cloud Storage, etc. 3) Big data - Big data refers to data that would typically be too expensive to store, manage, and analyse using traditional (relational and/or monolithic) database systems. Usually, such systems are cost-inefficient because of their inflexibility for storing unstructured data (such as images, text, and video), accommodating “high-velocity” (real-time) data, or scaling to support very large (petabyte-scale) data volumes. There are new approaches to managing and processing big data, including Apache Hadoop and NoSQL database systems. However, those options often prove to be complex to deploy, manage, and use in an on-premise situation. Cloud computing offers access to data storage, processing, and analytics on a more scalable, flexible, cost-effective, and even secure basis than can be achieved with an on-premise deployment.
This page has no comments.