Use analysis-based tools to document and predict system dependability and gain assurance of mission-critical properties or go/no-go criteria. Reduce cost and risk in the development of embedded and real-time systems with model-based engineering tools, tra
Today, products that rely on software are expected to do more and be more secure, and many are made to be portable or used in network environments. And, system engineers are called on to deliver increasingly complex software systems for these products that provide more functionality while consuming less power and costing less to develop and operate.
Unfortunately, these products are often plagued by high-risk integration, unacceptably expensive upgrades, and maintenance issues that lead to a shorter-than-anticipated life span. And, system engineers do not have insight into critical system characteristics—such as
Using traditional means, system integration becomes high risk, and system evolution (life-cycle support) becomes expensive and results in rapidly outdated components. Through its work, the SEI is developing a better way to assure the dependability and performance of your system, particularly when software is a key contributor.
Improved systems engineering practice is architecture-centric and model-based. Well-defined software system architecture provides a framework to which system components are designed and integrated.
System models that precisely capture this architecture provide the basis for predictable system engineering by
For predicting the dependability and performance of software-reliant systems at all scales—from multi-core processors to systems of systems—we focus on conducting research and applying tools and practices in analysis-based assurance and model-based engineering.
Spotlight on Performance & Dependability