Twenty-five years ago, Larry Ellison saw an opportunity other companies missed when he came across a description of a working prototype for a relational database and discovered that no company had committed to commercializing the technology. Ellison and his co-founders, Bob Miner and Ed Oates, realized there was tremendous business potential in the relational database model — but they may not have realized that they would change the face of business computing forever. Today Oracle (Nasdaq: OR CL) is still at the head of the pack. Oracle technology can be found in nearly every industry around the world and in the offices of 98 of the Fortune 100 companies. Oracle is the first software company to develop and deploy 100% internet-enabled enterprise software across its entire product line: database, business applications, and application development and decision support tools. Oracle is the world’s leading supplier of software for information management, and the world’s second largest independent software company.
Oracle has always been an innovative company. It was one of the first companies to make its business applications available through the internet — today, that idea is pervasive. Now Oracle is committed to making sure that all of its software is designed to work together — the suite approach — and other companies, analysts, and the press are beginning to acknowledge that Oracle is right. What’s in store for tomorrow? We will continue to innovate and to lead the industry — while always making sure that we ” re focused on solving the problems of the customers who rely on our software (web) We will first look at the hardware and software platforms to see how they measure up, and what, if any, special requirements are needed, as well as the costs that are associated with them. Next, we will look at the deployment of the application and what it takes to roll out a production system. Once the application is up and running, performance becomes the top priority of the data center.
The Essay on Determining Operating Systems and Software Applications
Determining Operating Systems and Software Applications Business Information Systems BIS320 Determining Operating Systems and Software Applications Since 1955 the McDonald’s Corporation has become the largest and best known fast food franchise in the world. Employing over 1.8 million employees, with over 34,000 restaurants and 5000 franchises worldwide, McDonald’s Corporation serves over 69 ...
We can first note that the hardware and software requirements are similar. The abstraction to the application is also the same with both solutions – it gives an illusion of a single database and there is no need to modify the SQL code. The differences are in ease of deployment, performance and manageability. Both databases have similar cluster hardware requirements.
A cluster is a group of independent servers that collaborate as a single system. The primary cluster components are processor nodes, a cluster interconnect (private network), and a disk subsystem. The clusters share disk access and resources that manage the data, but each distinct hardware cluster nodes do not share memory. Each node has its own dedicated system memory as well as its own operating system, database instance. Clusters can provide improved fault resilience and modular incremental system growth over single symmetric multi-processors systems.
In the event of subsystem failures, clustering ensures high availability. Redundant hardware components, such as additional nodes, interconnect, and shared disks, provide higher availability. Such redundant hardware architectures avoid single points of-failure and provide exceptional fault resilience. From a conceptual view, the cluster requirements for RAC and DB 2 are similar, especially when high availability (HA) is a basic requirement. In a cluster, CPU and memory requirements for each node are similar to single systems requirements and leave no differentiation for this discussion. However, there has been a lot of debate on the other cluster components requirements, especially around performance and costs.
The Term Paper on Software Requirements Specification On E-Library
1. Introduction The following subsections of the Software Requirements Specifications (SRS) document should provide an overview of the entire SRS. The thing to keep in mind as you write this document is that you are telling what the system must do – so that designers can ultimately build it. Do not use this document for design!!! 1.1 Purpose Identify the purpose of this SRS and its intended ...
The two relevant requirements are: ! P Cluster Interconnect! P Shared disk vs. shared-nothing storage Cluster Interconnect Each node in a cluster needs to keep other nodes in that cluster informed of its health and configuration. This is done periodically by broadcasting a network message, called a heartbeat, across a network. The heartbeat signal is usually sent over a private network, the cluster interconnect, which is used for internode communications.
This cluster interconnect is built by installing network cards in each node and connecting them by an appropriate network cable and configuring a software protocol to run across the wire. This interconnect can be a low cost Ethernet card running TCP/IP or UDP or a high-speed proprietary interconnect like Compaq! |s Memory Channel running Reliable Data Gram (RDG) or Hewlett- Packard! |s Hyper fabric/2 with Hyper Messaging Protocol (HMP) depending on where you want to be on the price-performance curve. A low latency / high speed interconnect is best for the performance of RAC because of the cache transfer requirements in OLTP applications and for parallel query communication in DSS applications. DB 2 also needs a fast interconnect for the best performance of its coordinator to worker process communication in OLTP and DSS applications. Shared disk vs. shared-nothing storage This is probably one of the biggest differences between RAC and DB 2 EEE.
There have been a lot of papers written about these two database architectures and yet there still seems to be a lot of confusion. It is important that we understand both the concepts and how they have been implemented because this will severely influence the Total Cost of Ownership (TCO) when you deploy your application. RAC and DB 2 EEE rely on a cluster manager to provide cluster membership services. On some platforms (Windows and Linux), Oracle provides the cluster manager software. Therefore, it is not tied to any limitations in the vendor’s cluster software on these platforms.
For example, on Windows 2000, DB 2 EEE is limited to four or eight nodes (depending on the Windows 2000 edition) in a single cluster and cannot use raw devices with Microsoft Cluster Service (MSCS) for database files. It is possible, however, for a single DB 2 EEE database to run across more than eight machines even on Windows 2000. The limitation is that a partition cannot be failed over across machines in different groups. RAC, on the other hand can run on more than 64 nodes today.
The Term Paper on Enterprise Application Integration Middle Ware
EAI - What is it? EAI - Enterprise Application Integration. Currently the toast of the consulting classes, replacement to ERP, the new universal IT panacea. As with everything else there is a glint of gold in this but you do have to dig hard to find it. There are a wide variety of so called EAI solutions. As with all IT, the only way that an EAI solution will work for you, is if your IT system ...
This allows you to use more less expensive and smaller nodes to do the same work as fewer but more expensive larger nodes and it extends the ceiling for scaling out to larger, more powerful clusters. This document has shown that there are numerous drawbacks in deployment and performance when using DB 2 EEE as compared to RAC. It is clear that RAC is usable in a broader range of applications and scenarios. Although the hardware and system software requirements are similar, DB 2 EEE shifts a lot of the burden over to the users while implementing their shared-nothing solution. RAC! |s shared-cache architecture provides many key benefits to enterprise e business application deployments:” hfnfnFlexible and effortless scalability for all types of applications; application users can log onto a single virtual high performance cluster server. Adding nodes to the database is easy and manual intervention is not required to partition data when processor nodes are added or when business requirements change.
Cluster scalability for all applications out-of-the box! X without modification.” hfnfnA higher availability solution than traditional cluster database architectures; this architecture provides customers near continuous access to data with minimal interruption by hardware and software component failures. The system is resilient to multiple node failures and component failures are masked from end-users.” hfnfnA single management entity; a single system image is preserved across the cluster for all management operations. DBAs perform installation, configuration, backup, upgrade, and monitoring functions once. Oracle then automatically distributes the management functions to the appropriate nodes. This means the DBA manages one virtual server.” hfnfnA lower Total Cost of Ownership; unlike its shared nothing competitor that requires a great deal of expensive manual intervention and creates significant difficulties in capacity planning, performance tuning and availability, RAC! |s shared-cache architecture enables a smooth, unlimited growth with near-linear scalability, to handle the most demanding real world workloads.
The Essay on Fundamentals Of Application Architecture
1. What are the different types of application architectures? There are three different fundamental application architectures. In host-based networks, the server performs virtually all of the work. In client-based networks, the client computer does most of the work; the server is used only for data storage. In client-server networks, the work is shared between the servers and clients. The client ...