Course Name |
Hours |
List Price |
Content |
OS100: OpenStack Essentials |
7.00 |
$800.00 |
|
Description: Are you looking at moving your legacy infrastructure and applications to the Cloud? Which Cloud software do you use? Do you need a Public Cloud or a Private Cloud? Perhaps, a Hybrid Cloud. This course will help you answer those questions and more using OpenStack as your Cloud platform. OpenStack uses a modularized architecture. You can start with a core set of services for IaaS and then expand to include other services as you grow. For example, when you are ready to containerize your legacy applications, you can add OpenStack components to build manage your container orchestration engine (COE) cluster, as well as the containers and pods. Other components discussed deploy bare metal machines, provide cloud billing rating, and more. All Mirantis OpenStack courses are vendor agnostic. Tasks are performed in an OpenStack environment without any vendor add-ons that might change the way OpenStack works. Reference implementations are utilized, such as Logical Volume Manager (LVM) for Block Storage, Open vSwitch (OVS) for L2 networking, or KVM/QEMU for the hypervisor.
Skills Gained
Course Introduction
Introduction to Cloud
Introduction to OpenStack:
High-level overview of OpenStack
History
OpenStack Foundation
Most commonly used components
Other additional components for containers, bare metal, workflows, monitoring, cloud costing, and more
OpenStack Ecosystem Marketplace
|
OS220: OpenStack Administration Operations |
21.00 |
$3,600.00 |
|
Description: The OpenStack Administration and Operations course is a 3 day class designed to provide you with a complete experience with administering and operating the most common OpenStack components to implement Infrastructure as a Service (IaaS) in a private cloud; from image management to instance creation to network plugins and more. At the end of this course, you have the skills required to pass the COA exam. All Mirantis OpenStack courses are vendor agnostic. Tasks are performed in an OpenStack environment without any vendor add-ons that might change the way OpenStack works. Reference implementations are utilized, such as Logical Volume Manager (LVM) for Block Storage, Open vSwitch (OVS) for L2 networking, or KVM/QEMU for the hypervisor.
Skills Gained
Keystone (Identity service): Authenticating with Keystone, managing tokens, RBAC policies, the purpose of the Service Catalog
Glance (Image service): Creating managing images, options to build an image, the purpose of cloud-init
Neutron (Network service): Understand what networks OpenStack uses, such as, the management network. Neutron architecture, including plugins, namespaces, layer 2 protocols, layer 3 routing, Neutron security groups, and more.
Nova (Compute service): Using Nova to deploy virtual machine (VM) instances control where the instances are deployed. Deploying instances with SSH keys for better security. Understanding the supported hypervisors. Lastly, implementing resource quotas.
Heat (Orchestration service): Discusses Heat templates, their syntax, and MANY practical day-to-day examples of Heat templates, including examples of installing and configuring software on your instances at boot.Heat (Orchestration service): Discusses Heat templates, their syntax, and MANY practical day-to-day examples of Heat templates, including examples of installing and configuring software on your instances at boot.
Octavia (LBaaS): Use the CLI to create manage a load balancer and load balancer resources
Ceilometer / Aodh (Telemetry services): Discuss the role architecture of each component. Review a sample application with load balancing and autoscaling
|
OS250: OpenStack Administration Bootcamp |
28.00 |
$4,000.00 |
|
Description: The OpenStack Administration Bootcamp course is a 4 day class designed to introduce you to OpenStack and its components (day 1) and then provide you with a complete experience with administering and operating the most common OpenStack components to implement Infrastructure as a Service (IaaS) in a private cloud; from image management to instance creation to network plugins and more (days 2-4). At the end of OS250, you have the skills required to pass the COA exam. All Mirantis OpenStack courses are vendor agnostic. Tasks are performed in an OpenStack environment without any vendor add-ons that might change the way OpenStack works. Reference implementations are utilized, such as Logical Volume Manager (LVM) for Block Storage, Open vSwitch (OVS) for L2 networking, or KVM/QEMU for the hypervisor.
Skills Gained
An introduction to OpenStack, including its architecture, history, the OpenStack Foundation, plus an overview of the most commonly used components with discussion of additional components for containers, bare metal, workflows, monitoring, cloud costing, and more.
Keystone (Identity service): Authenticating with Keystone, managing tokens, RBAC policies, the purpose of the Service Catalog
Glance (Image service): Creating managing images, options to build an image, the purpose of cloud-init
Neutron (Network service): Understand what networks OpenStack uses, such as, the management network. Neutron architecture, including plugins, namespaces, layer 2 protocols, layer 3 routing, Neutron security groups, and more.
Nova (Compute service): Using Nova to deploy virtual machine (VM) instances control where the instances are deployed. Deploying instances with SSH keys for better security. Understanding the supported hypervisors. Lastly, implementing resource quotas.
Heat (Orchestration service): Discusses Heat templates, their syntax, and MANY practical day-to-day examples of Heat templates, including examples of installing and configuring software on your instances at boot.Heat (Orchestration service): Discusses Heat templates, their syntax, and MANY practical day-to-day examples of Heat templates, including examples of installing and configuring software on your instances at boot.
Octavia (LBaaS): Use the CLI to create manage a load balancer and load balancer resources
Ceilometer / Aodh (Telemetry services): Discuss the role architecture of each component. Review a sample application with load balancing and autoscaling
|