Which of the following security architectures defines how to integrate widely disparate applications
for a world that is Web-based and uses multiple implementation platforms?
A.
Sherwood Applied Business Security Architecture
B.
Enterprise architecture
C.
Service-oriented architecture
D.
Service-oriented modeling and architecture
Explanation:
In computing, a service-oriented architecture (SOA) is a flexible set of design
principles used during the phases of systems development and integration. A deployed SOA-based architecture will provide a loosely-integrated suite of services that can be used within
multiple business domains. SOA also generally provides a way for consumers of services, such as
web-based applications, to be aware of available SOA-based services. For example, several
disparate departments within a company may develop and deploy SOA services in different
implementation languages; their respective clients will benefit from a well understood, well defined
interface to access them. XML is commonly used for interfacing with SOA services, though this is
not required. SOA defines how to integrate widely disparate applications for a world that is Web-based and uses multiple implementation platforms. Rather than defining an API, SOA defines the
interface in terms of protocols and functionality. An endpoint is the entry point for such an SOA implementation.Applied Business Security Architecture) is a framework and methodology for Enterprise Security
Architecture and Service Management. SABSA is a model and a methodology for developing risk-driven enterprise information security architectures and for delivering security infrastructure
solutions that support critical business initiatives. The primary characteristic of the SABSA model
is that everything must be derived from an analysis of the business requirements for security,
especially those in which security has an enabling function through which new business
modeling and architecture (SOMA) includes an analysis and design method that extends
traditional object-oriented and component-based analysis and design methods to include concerns
terminology, the composition of subsystems, and their relationships with the external environment,and the guiding principles for the design and evolution of an enterprise.