Flex. Pod Datacenter with Net. App All Flash FAS, Cisco Application Centric Infrastructure, and VMware v. Sphere Design Guide. Industry trends indicate a vast data center transformation toward shared infrastructure and cloud computing. Por favor, espera durante el cargamiento del template gratuito. Acerca de nosotros Derechos de uso Libro de oro. Download the imagescrollinggallery. Our templates include the latest jQuery, CSS3 and HTML5, bootstrap, responsive website templates. These awesome website templates include cool features like drop down. Online tests and testing for certification, practice tests, test making tools, medical testing and more. Flash Xml Portfolio Templates' title='Flash Xml Portfolio Templates' />Business agility requires application agility, so IT teams need to provision applications in hours instead of months. Resources need to scale up or down in minutes, not hours. To simplify the evolution to a shared cloud infrastructure based on an application driven policy model, Cisco and Net. App have developed the solution called VMware v. Sphere on Flex. Pod with Cisco Application Centric Infrastructure ACI. Flash Xml Portfolio Templates' title='Flash Xml Portfolio Templates' />Cisco ACI in the data center is a holistic architecture with centralized automation and policy driven application profiles that delivers software flexibility with hardware performance. The audience for this document includes, but is not limited to sales engineers, field consultants, professional services, IT managers, partner engineers, and customers who want to take advantage of an infrastructure built to deliver IT efficiency and enable IT innovation. The following design elements distinguish this version of Flex. Pod from previous models Validation of the Cisco ACI with a Net. Storia Della Sardegna here. App All Flash FAS storage array Validation of Cisco ACI on Cisco Nexus 9. Series Switches Support for the Cisco UCS 2. Cisco UCS B2. 00 M4 servers Support for the latest release of Net. Free CSS has 2645 free website templates, all templates are free CSS templates, open source templates or creative commons templates. Modelos de sites. Modelos de site Modelos de site flash Modelos de site css Animaes flash Modelos pagos Suporte Contato. We are a young software development team specialized in creating XML customizable Flash components, galleries and templates. FlashStack Virtual Server Infrastructure Design Guide for VMware vSphere 6. U2. NOTE Works with documents Advanced Properties First Published property. Adobe products, services, and technologies are subject to import, export, and other trade regulations under the laws of the United States and other national governments. Flash Xml Portfolio Templates' title='Flash Xml Portfolio Templates' />App Data ONTAP 8. An IP based storage design supporting both NAS datastores and i. SCSI based SAN LUNs. Support for direct attached Fiber Chanel storage access for boot LUNs Application design guidance for multi tiered applications using Cisco ACI application profiles and policies. Cisco and Net. App have carefully validated and verified the Flex. Pod solution architecture and its many use cases while creating a portfolio of detailed documentation, information, and references to assist customers in transforming their data centers to this shared infrastructure model. This portfolio includes, but is not limited to the following items Best practice architectural design Workload sizing and scaling guidance Implementation and deployment instructions Technical specifications rules for what is a Flex. Pod configuration Frequently asked questions and answers FAQs Cisco Validated Designs CVDs and Net. App Validated Architectures NVAs covering a variety of use cases. Cisco and Net. App have also built a robust and experienced support team focused on Flex. Pod solutions, from customer account and technical sales representatives to professional services and technical support engineers. The support alliance between Net. App and Cisco gives customers and channel services partners direct access to technical experts who collaborate with cross vendors and have access to shared lab resources to resolve potential issues. Flex. Pod supports tight integration with virtualized and cloud infrastructures, making it the logical choice for long term investment. Flex. Pod also provides a uniform approach to IT architecture, offering a well characterized and documented shared pool of resources for application workloads. Flex. Pod delivers operational efficiency and consistency with the versatility to meet a variety of SLAs and IT initiatives, including Application rollouts or application migrations Business continuity and disaster recovery Desktop virtualization Cloud delivery models public, private, hybrid and service models Iaa. Revu Serial. S, Paa. S, Saa. S Asset consolidation and virtualization. Flex. Pod is a best practice datacenter architecture that includes three components Cisco Unified Computing System Cisco UCS Cisco Nexus switches Net. App fabric attached storage FAS systems. Figure 1 Flex. Pod Component Families. These components are connected and configured according to best practices of both Cisco and Net. App and provide the ideal platform for running a variety of enterprise workloads with confidence. Flex. Pod can scale up for greater performance and capacity adding compute, network, or storage resources individually as needed, or it can scale out for environments that require multiple consistent deployments rolling out additional Flex. Pod stacks. The reference architecture covered in this document leverages the Cisco Nexus 9. One of the key benefits of Flex. Pod is the ability to maintain consistency at scale. Each of the component families shown Cisco UCS, Cisco Nexus, and Net. App FAS offers platform and resource options to scale the infrastructure up or down, while supporting the same features and functionality that are required under the configuration and connectivity best practices of Flex. Pod. Flex. Pod addresses four primary design principles scalability, flexibility, availability, and manageability. These architecture goals are as follows Application availability. Makes sure that services are accessible and ready to use. Scalability. Addresses increasing demands with appropriate resources. Flexibility. Provides new services or recovers resources without requiring infrastructure modification. Manageability. Facilitates efficient infrastructure operations through open standards and APIs. Note Performance is a key design criterion that is not directly addressed in this document. It has been addressed in other collateral, benchmarking, and solution testing efforts this design guide validates the functionality. The Cisco Nexus 9. Nx. OS standalone mode and Application Centric Infrastructure ACI fabric mode. In standalone mode, the switch performs as a typical Nexus switch with increased port density, low latency and 4. G connectivity. In fabric mode, the administrator can take advantage of Cisco ACI. Cisco Nexus 9. 00. Flex. Pod design with Cisco ACI consists of Cisco Nexus 9. Application Policy Infrastructure Controllers APICs. Cisco ACI delivers a resilient fabric to satisfy todays dynamic applications. ACI leverages a network fabric that employs industry proven protocols coupled with innovative technologies to create a flexible, scalable, and highly available architecture of low latency, high bandwidth links. This fabric delivers application instantiations using profiles that house the requisite characteristics to enable end to end connectivity. The ACI fabric is designed to support the industry trends of management automation, programmatic policies, and dynamic workload provisioning. The ACI fabric accomplishes this with a combination of hardware, policy based control systems, and closely coupled software to provide advantages not possible in other architectures. The Cisco ACI fabric consists of three major components The Application Policy Infrastructure Controller APIC Spine switches Leaf switches. The ACI switching architecture is presented in a leaf and spine topology where every leaf connects to every spine using 4. G Ethernet interfaces. The ACI Fabric Architecture is outlined in Figure 2. The software controller, APIC, is delivered as an appliance and three or more such appliances form a cluster for high availability and enhanced performance.