![]() General features Requirements management UML validation can be run against the model. The core aspects supported by Enterprise Architect include: profiles, patterns, MOF, OCL, MDA transforms, and CORBA IDL. Underlying UML modeling are the key aspects that most modeling tools support. UnifiedPOS managed by Association for Retail Technology Standards (ARTS).UN/CEFACT's Modeling Methodology for UN/CEFACT.BRIDG Biomedical Research Integrated Domain Group.caBIG Cancer Biomedical Informatics Grid.HL7 – international standard for transferring data between Hospital information systems Health Level 7 EHR-S FIM.Smartgrid Common Information Model (electricity) (IEC CIM).International Defence Enterprise Architecture Specification IDEAS Group.Geospatial Interoperability Specification ISO/TC 211.Datex II specifications for exchanging traffic information Datex2.TRAK Transport framework for systems engineers based on MODAF.GENIVI Alliance automotive industry alliance involved in developing in-vehicle infotainment (IVI).AUTomotive Open System ARchitecture AUTOSAR.Telecommunications framework Business Process Framework (eTOM) and TAM.International Air Transport Association IATA.Aeronautical Information Exchange Model ( AIXM), Flight Information Exchange Model (FIXM), ICAO Weather Information Exchange Model (IWXXM).The following are the core standards supported: Originally designed as a UML modeling tool for modeling UML 1.1, the product has evolved to include other OMG UML specifications 1.3, 2.0, 2.1, 2.3, 2.4.1 and 2.5.Įnterprise Architect supports a range of open industry standards for designing and modeling software and business systems. Sparx Systems initially released Enterprise Architect in 2000. The user base ranges from programmers and business analysts through to enterprise architects, in organizations ranging from small developer companies, multi-national corporations and government organizations through to international industry standards bodies. Īlong with system modeling, Enterprise Architect covers the core aspects of the application development life-cycle, from requirements management through to design, construction, testing and maintenance phases, with support for traceability, project management and change control of these processes, as well as, facilities for model driven development of application code using an internal integrated-development platform. The aspects that can be covered by this type of modeling range from laying out organizational or systems architectures, business process reengineering, business analysis, and service-oriented architectures and web modeling, through to application and database design and re-engineering, and development of embedded systems. Systems modeling using UML provides a basis for modeling all aspects of organizational architecture, along with the ability to provide a foundation for designing and implementing new systems or changing existing systems.
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