This session will explore concepts to help design a large cloud infrastructure using Red Hat CloudForms and Red Hat Enterprise Linux OpenStack Platform. You’ll learn how to horizontally scale OpenStack components and how to deploy a control tier that is both highly available and load balanced.
The session will provide general architecture design and concepts, but won’t get too deep into the technical details of the implementation. If you’ve considered building an OpenStack cluster, this session will provide many key concepts to help you make the decisions necessary for deployment.
OpenStack provides a platform for fault-tolerant, scale-out workloads—those that scale-out rather than scale-up. Due to the nature of these workloads, the application carries the burden of application availability rather than the underlying platform, and the SLA is upheld by multiple instances and has fault-tolerance built in. While this works for the applications themselves, the availability of underlying OpenStack services is still a concern for both end users and systems administrators. How do we guarantee OpenStack service availability, load-balance requests over multiple machines, and manage our single points of failure?
In this session, you’ll learn about the options available to maximize OpenStack uptime and mitigate the risks using Red Hat Enterprise Linux OpenStack and its associated tools.
Dell and Red Hat have partnered for more than 14 years to bring customers value by collaborating on Red Hat solutions across Dell’s enterprise offerings. Now, Dell and Red Hat are co-engineering OpenStack cloud solutions for enterprise customers and service providers. These solutions are designed to remove complexity, stabilize OpenStack and its operating environment, and provide a risk-free way to effectively deploy private cloud computing–in any organization.
Join this session to learn how Dell and Red Hat are strengthening their long-standing collaboration and commitment to help you confidently embrace open cloud computing technologies. You’ll also learn how you can not only benefit from the co-engineered solutions, but also from the companies’ combined cloud expertise, enterprise innovation, and dedicated support and portfolio of services.
This session will begin with a high-level overview of where OpenStack Compute (Nova) fits into the overall OpenStack architecture, as demonstrated in Red Hat Enterprise Linux OpenStack Platform. You’ll learn how OpenStack Compute interacts with other OpenStack components and complementary solutions such as Red Hat Storage Server.
The session will also provide a grounding in some common Compute terminology and a deep-dive look into key areas of OpenStack Compute, including the:
- Compute APIs.
- Compute Scheduler.
- Compute Conductor.
- Compute Service.
- Compute Instance lifecycle.
Intertwined with the architectural information will be details on horizontally scaling and dividing compute resources as well as customization of the Compute scheduler. You’ll also learn valuable insights into key OpenStack Compute features present in Red Hat Enterprise Linux OpenStack Platform.
Attendees will leave this session with an intermediate to high-level understanding of the OpenStack Compute architecture and an understanding of some of the key issues facing typical Compute deployments.
Network virtualization is becoming increasingly significant as other forms of virtualization constantly evolve. It allows network aggregation and provisioning, combining different physical networks into a single virtual network, or breaking a physical network into multiple virtual networks that are isolated from each other.
In this session, you’ll learn about Red Hat’s network virtualization offering with Red Hat Cloud Infrastructure, which includes Red Hat Enterprise Virtualization and Red Hat Enterprise Linux OpenStack Platform. The session will cover:
- Traditional VLAN-based solutions and the move toward network overlays.
- Linux Bridge and Open vSwitch.
- Neutron, the OpenStack project focused on delivering networking as a service.
- How to scale out networking in the cloud.
Software-defined Networking (SDN) is an emerging architecture that is dynamic, manageable, cost-effective, and adaptable, making it ideal for the high-bandwidth, dynamic nature of today’s applications. This architecture decouples the network control and forwarding functions enabling the network control to become directly programmable and the underlying infrastructure to be abstracted for applications and network services.
In this session, you’ll learn:
- About the integration between SDN, OpenFlow, and OpenStack.
- How SDN is essential for cloud networking and how OpenStack utilizes it.
- Various components of SDN and how they interact with each other.
This session provides an architecture deep dive of Red Hat’s OpenStack Scale Lab, a multi-purpose, 220-node deployment recently designed and built for internal and external OpenStack, Hadoop, and Red Hat Enterprise Virtualization development, continuous integration, and scale testing.
You’ll learn about the design, deployment, and automation aspects using Red Hat Linux Enterprise OpenStack Platform, Foreman, Red Hat Storage Server, Puppet, and other open source tools and APIs to deliver a full-featured, flexible cloud environment that services multiple use cases backed by re-usable, elastic resources. You’ll also hear experiences and lessons learned from conception, design, deployment, and current usage.
One of Cisco’s key contributions within OpenStack has been the evolution and development of Neutron, the OpenStack Networking Service. Using Neutron’s plug-in model, Cisco has integrated both its Network Function Virtualization, Unified Fabric, and Application-Centric Infrastructure (ACI) products to simplify the deployment of highly scalable, manageable, and secure networks.
This session will show how the addition of Cisco networking solutions can help orchestrate Red Hat’s entire OpenStack deployment, including networking, compute, and storage.
In this session, you’ll learn how:
- To increase the networking scalability of OpenStack with both hardware and software products including Nexus 3k/5k/6k/7k/9k, Cisco Application Centric Infrastructure, and Cisco N1Kv, CSR1Kv, AVS on Kernel-based Virtual Machine (KVM) technology.
- How UCS Manager makes it easy to configure a bare-metal node for OpenStack pilot and production deployments with both blade and rack mount servers.
- How Cisco’s ACI architecture can be deployed and integrated with OpenStack.