Reliable Cloud Infrastructure: Design and Process

Start Date: 07/05/2020

Course Type: Common Course

Course Link:

Explore 1600+ online courses from top universities. Join Coursera today to learn data science, programming, business strategy, and more.

About Course

This online course equips students to build highly reliable and efficient solutions on Google Cloud Platform, using proven design patterns and principles derived from Google Site Reliability Engineering (SRE). It is a continuation of the Architecting with Google Compute Engine Specialization and assumes hands-on experience with the technologies covered in the other courses in the specialization. Through a combination of presentations, challenges, and hands-on labs, participants learn to design GCP deployments that are highly reliable and secure; and how to operate GCP deployments in a highly available and cost-effective manner. This course teaches participants the following skills: ● Design for high availability, scalability, and maintainability. ● Assess tradeoffs and make sound choices among Google Cloud Platform products.. ● Integrate on-premises and cloud resources. ● Identify ways to optimize resources and minimize cost. ● Implement processes that minimize downtime, such as monitoring and alarming, unit and integration testing, production resilience testing, and incident post-mortem analysis. ● Implement policies that minimize security risks, such as auditing, separation of duties and least privilege. ● Implement technologies and processes that assure business continuity in the event of a disaster. Prerequisites ● Completion of prior courses in the Architecting with Google Cloud Platform Specialization or equivalent experience ● Basic proficiency with command-line tools and Linux operating system environments ● Systems Operations experience including deploying and managing applications, either on-premises or in a public cloud environment

Deep Learning Specialization on Coursera

Course Introduction

Reliable Cloud Infrastructure: Design and Process In this course, you will learn how to design and build reliable, stable and scalable infrastructure for your cloud infrastructure. You will learn about the different components of a reliable infrastructure, and how to ensure their proper configuration and management. You will learn about the principles of good infrastructure design, and how to ensure that their design is consistent with the requirements of your infrastructure. You will also learn how to build and manage the infrastructure using the common tools and techniques that you are used to in IT. You will also learn how to ensure that the design of the infrastructure is consistent with the requirements of your infrastructure, and that there are no conflicts or situations that would cause problems. This is the third course in the Data Center Linux specialization. The course focuses on planning requirements, and how to plan for a data center, not on how to build the infrastructure itself. The course also focuses on designing networking, printers, and other basic infrastructure that supports your cloud infrastructure. You will learn by doing: Planning a data center Building and managing the infrastructure for your cloud IT solution Putting these pieces of infrastructure together will require that you learn the principles and techniques that you will need to use in planning and in building the infrastructure itself. This is where Cloud Foundry comes in. Cloud Foundry is a small, fast-paced class that covers most of the topics that we cover in this specialization. We'll start by teaching you how to use the command line, which

Course Tag

Disaster Recovery Site Reliability Engineering Google Cloud Platform Cloud Computing

Related Wiki Topic

Article Example
Cloud-based design and manufacturing Cloud-based design and manufacturing includes two aspects: cloud-based design and cloud-based manufacturing. Another related concept is cloud manufacturing that is more general and popular.
IBM Cloud and Smarter Infrastructure IBM Cloud and Smarter Infrastructure group is an umbrella of solutions from IBM that includes storage management, enterprise asset management and IT Service Management. In April 2013, IBM renamed its former Software Group division “Tivoli Software” to “Cloud & Smarter Infrastructure”.
Cloud Infrastructure Management Interface CIMI's goal is to enable users to manage cloud infrastructure in a simple way by standardizing interactions between cloud environments to achieve interoperable cloud infrastructure management between service providers and their consumers and developers.
Cloud Infrastructure Management Interface Cloud Infrastructure Management Interface (CIMI) is an open standard API specification for managing cloud infrastructure.
Cloud-based design and manufacturing Cloud-Based Design (CBD) refers to a networked design model that leverages cloud computing, service-oriented architecture (SOA), Web 2.0 (e.g., social network sites), and semantic web technologies to support cloud-based engineering design services in distributed and collaborative environments.
IBM Cloud and Smarter Infrastructure Cloud & Smarter Infrastructure group consists of a range of IT operations and Systems Management technology including the following IBM portfolio:
HP Cloud HP Public Cloud was a public cloud service from Hewlett-Packard (HP) that offered compute, storage, and platform services that were accessible via the public Internet to developers, independent software vendors (ISVs), SMBs, and enterprises of all sizes (including public sector). HP built its cloud infrastructure using OpenStack technology, an open source cloud infrastructure project, and planned to deliver end-to-end, converged cloud capabilities that let users manage their cloud deployments across hybrid, private, managed private, and public cloud delivery models with HP Public Cloud offering an open, interoperable, intuitive, and reliable public cloud option.
Cloud-based design and manufacturing The enabling technologies for Cloud-Based Design and Manufacturing include cloud computing, Web 2.0, Internet of Things (IoT), and service-oriented architecture (SOA).
Cloud-based design and manufacturing Cloud-based design and manufacturing (CBDM) refers to a service-oriented networked product development model in which service consumers are able to configure products or services and reconfigure manufacturing systems through Infrastructure-as-a-Service (IaaS), Platform-as-a-Service (PaaS), Hardware-as-a-Service (HaaS), and Software-as-a-Service (SaaS).
Cloud-based design and manufacturing Adapted from the original cloud computing paradigm and introduced into the realm of computer-aided product development, Cloud-Based Design and Manufacturing is gaining significant momentum and attention from both academia and industry.
Container terminal design process The design process involves both conceptual design and detailed design.
Cloud-based design and manufacturing CBDM differs from traditional collaborative and distributed design and manufacturing systems such as web-based systems and agent-based systems from a number of perspectives, including (1) computing architecture, (2) data storage, (3) sourcing process, (4) information and communication technology infrastructure, (5) business model, (6) programming model, and (7) communication.
Process design In chemical engineering, process design is the design of processes for desired physical and/or chemical transformation of materials. Process design is central to chemical engineering, and it can be considered to be the summit of that field, bringing together all of the field's components.
Process design Process design can be the design of new facilities or it can be the modification or expansion of existing facilities. The design starts at a conceptual level and ultimately ends in the form of fabrication and construction plans.
Design process (computing) ICONIX provides a complete software development process which incorporates a design process. Pure design methodologies can be plugged "into" software development processes like extreme programming and Rational Unified Process. A design process is usually followed by an implementation process which provides a concrete solution based on the design.
Process design Process design documents serve to define the design and they ensure that the design components fit together. They are useful in communicating ideas and plans to other engineers involved with the design, to external regulatory agencies, to equipment vendors and to construction contractors.
Process design In order of increasing detail, process design documents include:
Process design Process design is distinct from equipment design, which is closer in spirit to the design of unit operations. Processes often include many unit operations.
Aircraft design process The aircraft design process is the engineering design process by which aircraft are designed. These depend on many factors such as customer and manufacturer demand, safety protocols, physical and economic constraints etc. For some types of aircraft the design process is regulated by national airworthiness authorities. This article deals with powered aircraft such as airplanes and helicopter designs.
Cloud testing Cloud Testing uses cloud infrastructure for software testing.