Flex. Pod Datacenter with VMware v. Sphere 6. 0 and Fibre Channel Design Guide. Industry trends indicate a vast data center transformation toward shared infrastructure and cloud computing. 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. Cisco and Net. App have developed the solution called Flex. Pod Datacenter with Fibre channel SAN, VMware v. Sphere 6. 0 and Net. ESXi and vCenter Server 5 Documentation VMware vSphere ESXi and vCenter Server 5 Documentation VMware vSphere Basics VMware vSphere and Virtualizing the IT. Esxi 5 Installer Boot Options On Windows' title='Esxi 5 Installer Boot Options On Windows' />App ONTAP to simplify application deployments and accelerate productivity. The Cisco UCS Unified Software release is not a product, but a term to describe the 3. Cisco UCS form factors. This Flex. Pod eliminates complexity making room for better, faster IT service, increased productivity and innovation across the business. New to this design is the addition of Cisco MDS to Flex. Microsoft Word 2000 Gratis Italiano Vero. Pod, providing fibre channel switching capability when using the Nexus 9. SAN connectivity is needed. 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          Addition of Cisco MDS to Flex. Pod         Support for the Cisco UCS 3. Cisco UCS B2. 00 M4 servers, and Cisco UCS C2. M4 servers in environments with both the 6. Fibre channel and NFS storage design          VMware v. Sphere 6. 0 U2         Net. App ONTAP 9 provides many features focused on the performance and storage efficiency of ONTAP with SSD disk drives. 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. 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         Cisco MDS switches         Net. App All Flash FAS AFF systems. Figure 1       Flex. Pod Component Families. These components are connected and configured according to best practices of both Cisco and Net. App to 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 AFF 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 availability, scalability, flexibility, and manageability. These architecture goals are as follows          Availability. Makes sure that services are accessible and ready to use for the applications. 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. Flex. Pod Datacenter with Fibre channel SAN, VMware v. Sphere 6. 0, and Net. App ONTAP 9 is designed to be fully redundant in the compute, network, and storage layers. Esxi 5 Installer Boot Options On Windows' title='Esxi 5 Installer Boot Options On Windows' />VMware Workstation 11 does now support EFI boot configuration in the GUI which enables you to boot from an USB disk without workarounds. You do not have to edit vmx. See Disclaimer below, to help you understand the prerequisites. Im working hard on the full recipe for success, to build up your vSphere 6. The focus of. ESXi and vCenter Server 5. Timber Cruise Excel Programs. Documentation VMware vSphere ESXi and vCenter Server 5. Documentation vSphere Installation and Setup Updated Information. How to auto deploy you stateless vSphere 5 ESXi host. Updated on 14 November 2017. ESXi 6. 5 ISO Build 4564106. Center Server 6. 5 ISO Build 4602587. Center Server Appliance 6. NOV. I have a centos 5. Im working on that has a old version of openvmtools installed. How can I remove itThere is no single point of failure from a device or traffic path perspective. Figure 2 illustrates the Flex. Pod topology using the Cisco MDS 9. S and Cisco UCS 6. Fabric Interconnect top of rack model while Figure 3 shows the same network and storage elements paired with the Cisco UCS 6. Fabric Interconnects. The Cisco UCS 6. 30. Fabric Interconnect Flex. Pod Datacenter model enables a high performance, low latency and lossless fabric supporting applications with these elevated requirements. The 4. 0Gb. E compute and network fabric with 481. G FC support increase the overall capacity of the system while maintaining the uniform and resilient design of the Flex. Pod solution.  The MDS provides 481. G FC switching capability both for SAN boot of the Cisco UCS servers and for mapping of FC application data disks. FC storage connects to the MDS at 1. Gbs. with Cisco UCS 6. UP Fabric Interconnects and Cisco MDS SANThe Cisco UCS 6. Fabric Interconnect Flex. Pod Datacenter model enables a high performance, low latency and lossless fabric supporting applications with these elevated requirements. Kak-ustanovit-zagruzochnyiy-PXE-server-dlya-ustanovki-Windows-Linux-ESXI-5.5-17.png' alt='Esxi 5 Installer Boot Options On Windows' title='Esxi 5 Installer Boot Options On Windows' />The 1. Gb. E compute and network fabric with 48. G FC support increase the overall capacity of the system while maintaining the uniform and resilient design of the Flex. Pod solution. The MDS provides 481. G FC switching capability both for SAN boot of the Cisco UCS servers and for mapping of FC application data disks. FC storage connects to the MDS at 1. Gbs. Cisco UCS 6. Fabric Interconnects and Cisco MDS SANThe Cisco UCS 6. Fabric Interconnect Direct Connect Flex. Pod Datacenter model enables a high performance, low latency and lossless fabric supporting applications with these elevated requirements. Get Started with ESXi with VMware vSphere 5. Hypervisor Get some practice with bare metal hypervisors using our tips for the free edition of VMwares vSphere. New ESXi Install. Since this is a new installation of ESXi, select Install in the following screen. Accept VMware EULA. Read and accept the EULA by. VMware vCenter Server pools ESXi host resources to provide a rich feature set delivering high availability and fault tolerance to virtual machines. The vCenter Server. Cisco Virtualization Solution for EMC VSPEX with VMware v. Sphere 5. 0 for 5. Virtual Machines. Table Of Contents. About the Authors. Acknowledgements. About Cisco Validated Design CVD Program. Cisco Solution for EMC VSPEX VMware v. Sphere 5. 0 Architectures. Executive Summary. Introduction. Target Audience. Purpose of this Guide. Business Needs. Solution Overview. Technology Overview. Cisco Unified Computing System. Cisco C2. 20 M3 Rack Mount Servers. IO Adapters Cisco Nexus 5. UP Switch. Cisco Nexus 3. Switch. Cisco Nexus 1. Virtual Switch. VMware v. Sphere 5. 0. EMC Storage Technologies and Benefits. Software Suites Software Packs. EMC Avamar. Architectural Overview. Memory Configuration Guidelines. ESXiESXi Memory Management Concepts. Virtual Machine Memory Concepts. Allocating Memory to Virtual Machines. Storage Guidelines. Virtual Server Configuration. Storage Best Practices. VSPEX VMware Memory Virtualization. Memory Compression Virtual Networking Virtual Networking Best Practices. VMware v. Sphere Performance. Physical and Virtual CPUs Virtual SMP Overcommitment. Hyper Threading. Non Uniform Memory Access NUMAVSPEX VMware Storage Virtualization. Storage Layout Storage Virtualization. Architecture for 5. VMware Virtual Machines. Architecture for 1. VMware Virtual Machines. Architecture for 1. VMware Virtual Machines. Sizing Guidelines. Defining the Reference Workload. Applying the Reference Workload. Summary of Example. VSPEX Configuration Guidelines. Pre Deployment Tasks. Customer Configuration Data. Preparing Servers. Configure Management IP Address for CIMC Connectivity. Enabling Virtualization Technology in BIOSConfiguring RAIDPreparing Switches, Connecting Network, and Configuring Switches. Topology Diagram for 5. Virtual Machines. Topology Diagram for 1. Virtual Machines. Topology Diagram for Hundred and Twenty Five Virtual Machines. Configuring Cisco Nexus Switches. Preparing and Configuring EMC Storage Array. Configuring VNXe. VNX Configuration. Installing VMware ESXi Servers and v. Center Infrastructure. Configure ESXi Networking. Installing and Configuring Microsoft SQL Server Database. Deploying VMware v. Center Server. Configuring Cluster, HA and DRS on the VMware v. Center. Template Based Deployments for Rapid Provisioning. Installing and Configuring Cisco Nexus 1. Installing Cisco Nexus 1. VSM VMConnecting Cisco Nexus 1. VSM to VMware v. Center. Configuring Port Profile in VSM and Migrate v. Center Networking to v. DSConfiguring Jumbo Frame at the CIMC Interface. Validating Cisco Solution for EMC VSPEX VMware Architectures. Post Install Checklist. Cisco Validation Test Profile. Bill of Materials. Customer Configuration Data Sheet. References. Cisco Solution for EMC VSPEX VMware v. Sphere 5. 0 Architectures. Design for 5. 0, 1. Virtual Machines. Last Updated October 2. Building Architectures to Solve Business Problems About the Authors. Mehul Bhatt, Virtualization Architect, Server Access Virtualization Business Unit, Cisco Systems. Mehul Bhatt has over 1. Experience in virtually all layers of computer networking. His focus area includes Unified Compute Systems, network and server virtualization design. Prior to joining Cisco Technical Marketing team, Mehul was Technical Lead at Cisco, Nuova systems and Bluecoat systems. Mehul holds a Masters degree in computer systems engineering and holds various Cisco career certifications. Hardik Patel, Virtualization System Engineer, Server Access Virtualization Business Unit, Cisco Systems. Hardik Patel has over 9 years of experience with server virtualization and core application in the virtual environment with area of focus in design and implementation of systems and virtualization, manage and administration, UCS, storage and network configurations. Hardik holds Masters degree in Computer Science with various career oriented certification in virtualization, network and Microsoft. Vijay. Kumar D, Technical Marketing Engineer, Server Access Virtualization Business Unit, Cisco Systems Vijay. Kumar has over 1. UCS, network, storage and server virtualization design. Vijay has worked on performance and benchmarking on Cisco UCS and has delivered benchmark results on SPEC CPU2. SPECj ENT 2. 01. 0. Vijay holds certification in VMware Certified Professional and Cisco Unified Computing systems Design specialist Acknowledgements For their support and contribution to the design, validation, and creation of the Cisco Validated Design, we would like to thank Vadiraja Bhatt Cisco Bathu Krishnan Cisco Sindhu Sudhir Cisco Kevin Phillips EMC John Moran EMC Kathy Sharp EMC About Cisco Validated Design CVD Program The CVD program consists of systems and solutions designed, tested, and documented to facilitate faster, more reliable, and more predictable customer deployments. For more information visit www. ALL DESIGNS, SPECIFICATIONS, STATEMENTS, INFORMATION, AND RECOMMENDATIONS COLLECTIVELY, DESIGNS IN THIS MANUAL ARE PRESENTED AS IS, WITH ALL FAULTS. CISCO AND ITS SUPPLIERS DISCLAIM ALL WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OR ARISING FROM A COURSE OF DEALING, USAGE, OR TRADE PRACTICE. 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