Soft Introduction to Google's framework for taming containers in the cloud. For devs and architects that they just enter the world of cloud, microservices and containers
Soft Introduction to Google's framework for taming containers in the cloud. For devs and architects that they just enter the world of cloud, microservices and containers
Orchestrating Docker Containers with Google Kubernetes on OpenStackTrevor Roberts Jr.
Kubernetes, Docker, CoreOS, and OpenStack for container workload management.
No audio, but there are annotations to follow along with the workload.
A video accompanies a Microservices Meetup talk that I presented on February 18, 2015 at https://www.youtube.com/watch?v=RfyIYhOzyPY
Acknowledgements to Kelsey Hightower for the workflow that I used, and Google for the example application shown.
A Software Architect's View On Diagrammingmeghantaylor
Diagramming is an important tool to have in one’s repertoire but how can one go about learning to do it effectively? This presentation will shed some light on some use cases plus share some research.
Learn about different types of software diagrams, the different diagramming tools available, and Visio tips & tricks to make your diagrams pretty.
Traditional virtualization technologies have been used by cloud infrastructure providers for many years in providing isolated environments for hosting applications. These technologies make use of full-blown operating system images for creating virtual machines (VMs). According to this architecture, each VM needs its own guest operating system to run application processes. More recently, with the introduction of the Docker project, the Linux Container (LXC) virtualization technology became popular and attracted the attention. Unlike VMs, containers do not need a dedicated guest operating system for providing OS-level isolation, rather they can provide the same level of isolation on top of a single operating system instance.
An enterprise application may need to run a server cluster to handle high request volumes. Running an entire server cluster on Docker containers, on a single Docker host could introduce the risk of single point of failure. Google started a project called Kubernetes to solve this problem. Kubernetes provides a cluster of Docker hosts for managing Docker containers in a clustered environment. It provides an API on top of Docker API for managing docker containers on multiple Docker hosts with many more features.
KubeCon EU 2017 Berlin
Helm is not just for simple applications running in simple environments. In this talk, we delve into the depths of Helm, focusing on lifecycle management and continuous delivery (CI/CD) of Kubernetes-native applications in different environments. We show how to extend Helm’s capabilities with plugins and add-ons. We'll also see how sophisticated charts like OpenStack and Deis Workflow use these capabilities to model more complex deployments.
How to Become a Thought Leader in Your NicheLeslie Samuel
Are bloggers thought leaders? Here are some tips on how you can become one. Provide great value, put awesome content out there on a regular basis, and help others.
Orchestrating Docker Containers with Google Kubernetes on OpenStackTrevor Roberts Jr.
Kubernetes, Docker, CoreOS, and OpenStack for container workload management.
No audio, but there are annotations to follow along with the workload.
A video accompanies a Microservices Meetup talk that I presented on February 18, 2015 at https://www.youtube.com/watch?v=RfyIYhOzyPY
Acknowledgements to Kelsey Hightower for the workflow that I used, and Google for the example application shown.
A Software Architect's View On Diagrammingmeghantaylor
Diagramming is an important tool to have in one’s repertoire but how can one go about learning to do it effectively? This presentation will shed some light on some use cases plus share some research.
Learn about different types of software diagrams, the different diagramming tools available, and Visio tips & tricks to make your diagrams pretty.
Traditional virtualization technologies have been used by cloud infrastructure providers for many years in providing isolated environments for hosting applications. These technologies make use of full-blown operating system images for creating virtual machines (VMs). According to this architecture, each VM needs its own guest operating system to run application processes. More recently, with the introduction of the Docker project, the Linux Container (LXC) virtualization technology became popular and attracted the attention. Unlike VMs, containers do not need a dedicated guest operating system for providing OS-level isolation, rather they can provide the same level of isolation on top of a single operating system instance.
An enterprise application may need to run a server cluster to handle high request volumes. Running an entire server cluster on Docker containers, on a single Docker host could introduce the risk of single point of failure. Google started a project called Kubernetes to solve this problem. Kubernetes provides a cluster of Docker hosts for managing Docker containers in a clustered environment. It provides an API on top of Docker API for managing docker containers on multiple Docker hosts with many more features.
KubeCon EU 2017 Berlin
Helm is not just for simple applications running in simple environments. In this talk, we delve into the depths of Helm, focusing on lifecycle management and continuous delivery (CI/CD) of Kubernetes-native applications in different environments. We show how to extend Helm’s capabilities with plugins and add-ons. We'll also see how sophisticated charts like OpenStack and Deis Workflow use these capabilities to model more complex deployments.
How to Become a Thought Leader in Your NicheLeslie Samuel
Are bloggers thought leaders? Here are some tips on how you can become one. Provide great value, put awesome content out there on a regular basis, and help others.