The document is a presentation on introducing OpenStack. It discusses how cloud computing came into existence, defines what OpenStack is, lists the companies and people involved in OpenStack, explains why OpenStack was created, outlines the main OpenStack components, demonstrates the OpenStack horizon interface, and provides options for trying OpenStack yourself. The presenter is Vinoth Kumar Selvaraj, an OpenStack engineer who works with CD CloudEnablers and contributes to OpenStack communities.
The document is a presentation on introducing OpenStack. It discusses how cloud computing came into existence, defines what OpenStack is, lists the companies and people involved in OpenStack, explains why OpenStack was created, outlines the main OpenStack components, demonstrates the OpenStack horizon interface, and provides options for trying OpenStack yourself. The presenter is Vinoth Kumar Selvaraj, an OpenStack engineer who works with CD CloudEnablers and contributes to OpenStack communities.
You design to inspire, to evoke emotion, and to create unmatched experiences. Vectorworks 2017 presents a purpose-built set of tools to realise those visions. It’s in tune with the designer’s eye. For further details and to learn vectorworks 2017 visit:http://www.see-it-3d.co.uk/vectorworks2017/vectorworks-training/
9 Sketchup Tips for beter 3d modeling workflowRonen Bekerman
The document provides tips for improving 3D modeling workflow in SketchUp, including using shortcuts to maximize efficiency, leveraging guides and toggles like color by axis and x-ray mode, properly separating geometry using groups and layers, regularly checking for helpful scripts, and taking care with planning model topology and hierarchies. It also recommends best practices like using templates, auto-saving, and cleaning up unused files and components.
Running OpenStack on Amazon AWS: In this talk we will demonstrate how to create an exact replica of an on-premises OpenStack configuration in the public cloud (AWS/EC-2, GCE or HP Cloud) and spin multiple copies of this environment in a matter of minutes. We will technically elaborate how we use our own high performance nested hypervisor HVX, and software defined networking - to run OpenStack guests with KVM acceleration on top of any public cloud.
This document provides an overview of OpenStack, including what it is, the main OpenStack services, and how to perform single node and multinode installations using DevStack and PackStack. OpenStack is an open-source cloud computing platform that provides infrastructure as a service. It consists of interrelated components to control hardware resources like processing, storage, and networking. The document describes the main OpenStack services like Dashboard, Compute, Networking, Object Storage, Block Storage, Image Service, Telemetry, and Orchestration. It then covers how to do a single node installation on Ubuntu, the networking requirements for multinode, and how to install and configure DevStack and PackStack for OpenStack deployment.
This document compares OpenStack and Amazon Web Services (AWS) cloud platforms. It discusses the key services each provides such as compute, storage, networking, orchestration, and user interfaces. The document also examines the business characteristics of each like service level agreements (SLAs), data ownership, ecosystems, and pricing models. It provides examples of use cases for each platform and discusses how to manage an open hybrid cloud that utilizes both OpenStack and AWS together through a cloud management platform.
This document provides an introduction to OpenStack, an open-source cloud operating system. It begins by defining OpenStack as a set of tools for building public or private clouds, then describes its key components like compute, storage, networking, and identity services. The document compares OpenStack to AWS, noting similarities and differences in their virtual machine, storage, networking, security, and orchestration services. It also outlines when OpenStack may be better suited than AWS, such as for organizations with specific hardware requirements. Finally, it briefly introduces DevOps tools like Chef, Puppet, and Ansible that can be used to automate operations on OpenStack clouds.
Presentation of OpenStack survey to Internet Research Lab at National Taiwan University, Taiwan. OpenStack framework and architecture overview. (ppt slide for download.) Materials collected from various resources, not originally produced by the author.
Briefly explained Nova, Swift, Glance, Keystone, and Quantum.
This document provides a conceptual overview of the OpenStack architecture in 3 sentences or less:
OpenStack is an open source cloud operating system that consists of a set of interrelated services that are written in Python and provide APIs to interact with components like compute, networking, storage and identity. The core components include compute (Nova), object storage (Swift), block storage (Cinder), image service (Glance), identity (Keystone), networking (Quantum), and dashboard (Horizon), which provides a web-based user interface. Each component communicates with others via APIs to provide infrastructure as a service capabilities.
OpenStack is an open source cloud project and community with broad commercial and developer support. OpenStack is currently developing two interrelated technologies: OpenStack Compute and OpenStack Object Storage. OpenStack Compute is the internal fabric of the cloud creating and managing large groups of virtual private servers and OpenStack Object Storage is software for creating redundant, scalable object storage using clusters of commodity servers to store terabytes or even petabytes of data. In this tutorial, Bret Piatt will explain how to deploy OpenStack Compute and Object Storage, including an overview of the architecture and technology requirements.
OpenStack is an open source cloud computing platform that consists of a series of related projects that control large pools of compute, storage, and networking resources throughout a datacenter, all managed through a dashboard that gives administrators control while empowering their users to provision resources through a web interface. It is developed as an open source project by an international community of developers and corporate sponsors and supports both private and public cloud deployments. Major components include compute (Nova), object storage (Swift), image service (Glance), networking (Quantum), and an identity service (Keystone).