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Write 6 pages with APA style on Enterprise Information Architecture. This paper tells that as an IT Architect, the maturity level of a capability model is important because it represents the process t
Write 6 pages with APA style on Enterprise Information Architecture. This paper tells that as an IT Architect, the maturity level of a capability model is important because it represents the process through which software is improved. The relative maturity of the capabilities will thus determine how efficient or appropriate the capabilities are from the organization’s improvement priorities. From this, it would be easy to develop capabilities consistency with the specific improvement being sought. The relative maturity intricately affects my architecture and deliverables as it determines how well the objectives of the enterprise architecture are achieved. Secondly, in terms of quality, the level of maturity and its flexibility to improvement also dictates the quality of the deliverables as planned by the developer (Lankhorst, Marc. 2009). Key Performance Indicators (KPI), help in an overhead analysis of the performance of the architectural design. KPIs measure the impact of the IT infrastructure, such as how much automation is achieved and the impact that automation is having. Through these parameters, the deliverables are gauged to determine the streamline of the technological process and save on resources. This enables the architect to keep an eye on the bigger picture. For a business set up, the Key Performance Indicators are a guideline for the delivery of the benefits of the service. The TWPs that can reflect on the KPIs include cost reduction which entails the cutting the costs of the current reduction with the implementation of the IT architecture. . Another TWP that would be measured by KPI is the revenue increase as this comes with the target of the enterprise architecture. Since the introduction of new products is architecture’s IT deliverable, its success has to be reflected through the KPIs. Cloud Computing systems have a wide range of capabilities relevant to business organizations. One is standardization of the services. Cloud computing services are standardized in that they can be offered to individuals, firms and corporate companies with tailoring to fit the need for which they are used. In line with this, they are self-service kind of services that can be accessed easily at the click of a button. Cloud computing is also capable of virtualization of services and use of the internet. Cloud computing creates a virtual environment for computing, storage of data and information as well as communication offering sustainable solutions to internet risks. Cloud automation is developed to allow system configurations for the performance of specific tasks. Once the software is programmed through cloud technology, the computer systems use the codes to handle complex operations saving on the time and input required to manage the systems. A logical operation model describes a model entity individually and then how the entities relate to each other. The operational model helps to develop solution topology within the entities of the system. Besides this, logical operational models show the unique attributes of an entity or combination of unique attributes by the use of a primary key. The physical operational model is very detailed in describing the model entities. The physical operational model describes the entity details and goes a step further to give information about how the entity would be implemented in the model. This model maps an entity based solutions tracing back to the system hardware (Barros, Alistair, et al., 65). Therefore, the actual products involved in the solution are outlined while the placement of the physical nodes is accomplished in the physical operational model. Between the two, the logical operational model is would be completed first because it is the basis from which the physical operational model works. Also, all the model components have to be understood from the logical operational model for the physical operational model to be employed (Barros, Alistair, et al., 65).