Oracle DBCA templates for database creation. Oracle Database Tips by Burleson Consulting.Flex. Pod Data Center with Oracle RAC on Oracle Linux. Data powers essentially every operation in a modern enterprise, from keeping the supply chain operating efficiently to managing relationships with customers. Database administrators and their IT departments face many challenges that demand needs for a simplified deployment and operation model providing high performance, availability and lower TCO. The current industry trend in data center design is towards shared infrastructures featuring multitenant workload deployments. By moving away from application silos and toward shared infrastructure that can be quickly deployed, customers increase agility and reduce costs. This CVD describes how Cisco UCS can be used in conjunction with Net. App FAS storage systems to implement an Oracle Real Application Clusters (RAC) 1. Oracle Certified Configuration. The intended audience for this document includes, but is not limited to, sales engineers, field consultants, professional services, IT managers, partner engineering, and customers who want to deploy Oracle RAC1. Flex. Pod architecture with Net. App clustered Data ONTAP. Readers of this document need to have experience installing and configuring the solution components used to deploy the Flex. 7/19 2 Installing Oracle Database and Creating a Database. This chapter describes how to install Oracle Database software and create a database. If you are using an earlier release of Oracle Database and want to install a. Database Specialists offers expertise in Oracle remote DBA. Oracle certified and Gold Partner. Installing Oracle Software and Building the Database Purpose. This tutorial shows you how to use the Oracle Universal Installer (OUI) to install your Oracle database software and create a starter database. Using DBCA to Create and Configure a Database. During installation, you can direct the installer to create and configure a new database. If you have already done so, you can skip to the next chapter. However, if you install. Pod Datacenter solution. This Flex. Pod CVD demonstrates how enterprises can apply best practices to deploy Oracle RAC 1. Database using Cisco Unified Computing System, Cisco Nexus family switches, and Net. App FAS storage systems. This validation effort exercised typical Online transaction processing (OLTP) and Decision- support systems (DSS) workloads to ensure expected stability, performance and resiliency design as demanded by mission critical data center deployments. 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: . 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: . 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. Database Configuration Assistant (DBCA) provides a graphical interface for database creation and database configuration. This document will detail the creation of a database using the Database Configuration Assistant. Introduction; Run Oracle Universal Installer; Database Configuration Assistant; Enterprise Manager Configuration Assistant; Apply Latest Patchset; Introduction. I recently installed Oracle 9i on Windows Server 2003. One of the key benefits of Flex. Pod is the ability to maintain consistency at scale. Each of the component families shown in (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. The Flex. Pod Data Center with Oracle RAC on Oracle Linux solution provides an end- to- end architecture with Cisco UCS, Oracle, and Net. App technologies and demonstrates the Flex. Pod configuration benefits for running Oracle Database 1. RAC with Cisco VICs (Virtual Interface Cards) and Oracle Direct NFS Client. The following infrastructure and software components are used for this solution. Makes sure that application services are accessible, easy to configure, and ready to use once configured. Addresses increasing demands with appropriate resources. Provides new services or recovers resources without requiring infrastructure modification. Facilitates efficient infrastructure operations through open standards and APIs. Eliminates all single points of failure in the solution. Seamless failover and protection against common hardware/cable failures.
This section provides a technical overview of products used in this solution. Figure 2 Cisco UCS Components. Cisco UCS is a next- generation solution for blade and rack server computing. The system integrates a low- latency, lossless 1. Gigabit Ethernet (1. Gb. E) unified network fabric with enterprise- class, x. The system is an integrated, scalable, multi- chassis platform in which all resources participate in a unified management domain. Cisco UCS accelerates the delivery of new services simply, reliably, and securely through end- to- end provisioning and migration support for both virtualized and non- virtualized systems. The system is based on an entirely new class of computing system that incorporates rack mount and blade servers based on Intel Xeon 2. Series Processors. The system is integrated onto a low- latency, lossless, 1. Gbps unified network fabric. This network foundation consolidates LANs, SANs, and high- performance computing networks which are separate networks today. The unified fabric lowers costs by reducing the number of network adapters, switches, and cables, and by decreasing the power and cooling requirements. The system unleashes the full potential of virtualization by enhancing the scalability, performance, and operational control of virtual environments. Cisco security, policy enforcement, and diagnostic features are now extended into virtualized environments to better support changing business and IT requirements. The system provides consolidated access to both SAN storage and network- attached storage (NAS) over the unified fabric. By unifying the storage access, Cisco UCS can access storage over Ethernet (SMB 3. SCSI), Fibre Channel (FC), and FCo. E. This provides customers with storage choices and investment protection. In addition, the server administrators can preassign storage- access policies to storage resources, for simplified storage connectivity and management leading to increased productivity. The system uniquely integrates all system components to enable the entire solution to be managed as a single entity by the Cisco UCS Manager. The Cisco UCS Manager has an intuitive graphical user interface (GUI), a command- line interface (CLI), and a powerful scripting library module for Microsoft Power. Shell built on a robust application programming interface (API) to manage all system configuration and operations. Cisco UCS B- Series Blade Servers increase performance, efficiency, versatility and productivity with these Intel- based blade servers. For detailed information, refer to: http: //www. Cisco UCS C- Series Rack- Mount Servers delivers unified computing in an industry- standard form factor to reduce total cost of ownership and increase agility. For detailed information, refer to: http: //www. Cisco UCS Adapters with wire- once architecture, offers a range of options to converge the fabric, optimize virtualization, and simplify management. For detailed information, refer to: http: //www. Cisco UCS Manager provides unified, embedded management of all software and hardware components in Cisco UCS. Cisco UCS fuses access layer networking and servers. This high- performance, next- generation server system provides a data center with a high degree of workload agility and scalability. For detailed information, refer to: http: //www. Typically deployed as an active- active pair, the system’s fabric interconnects integrate all components into a single, highly- available management domain controlled by Cisco UCS Manager. The fabric interconnects manage all I/OS efficiently and securely at a single point, resulting in deterministic I/O latency regardless of a server or virtual machine’s topological location in the system. Cisco UCS 6. 20. 0 Series Fabric Interconnects support the system’s 8. Gbps unified fabric with low- latency, lossless, cut- through switching that supports IP, storage, and management traffic using a single set of cables. The fabric interconnects feature virtual interfaces that terminate both physical and virtual connections equivalently, establishing a virtualization- aware environment in which blade, rack servers, and virtual machines are interconnected using the same mechanisms. The Cisco UCS 6. 24. UP is a 1- RU Fabric Interconnect that features up to 4. Gb. E, FCo. E, or native FC connectivity. Cisco UCS 6. 20. 0 Series Fabric Interconnects is a family of line- rate, low- latency, lossless, 1. Gbps Ethernet and Fibre Channel over Ethernet (FCo. E) interconnect switches providing the management and communication backbone for Cisco UCS. For detailed information, refer to: http: //www. Figure 3 Cisco UCS 6. Fabric Interconnect. Figure 4 Cisco UCS 6. Series Fabric Interconnects. The Cisco UCS 5. 10. Series Blade Server Chassis is a crucial building block of the Cisco UCS, delivering a scalable and flexible blade server chassis. The Cisco UCS 5. 10. Blade Server Chassis is six rack units (6. RUs) high and can mount in an industry- standard 1. A single chassis can house up to eight half- width Cisco UCS B- Series Blade Servers and can accommodate both half- width and full- width blade form factors. Four single- phase, hot- swappable power supplies are accessible from the front of the chassis. These power supplies are 9. N+ 1 redundant and grid- redundant configurations. The rear of the chassis contains eight hot- swappable fans, four power connectors (one per power supply), and two I/O bays for Cisco UCS 2. XP Fabric Extenders. A passive mid- plane provides up to 4. Gbps of I/O bandwidth per server slot and up to 8. Gbps of I/O bandwidth for two slots. The chassis is capable of supporting future 8. Gigabit Ethernet standards.
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