Transportation platforms such as automobiles and aircraft are largely defined by their electrical/electronic systems, including embedded software. But implementation decisions, such as choosing the best processing resource for a software component, are hard to optimize because cross-discipline impacts are difficult to assess. For example, re-locating a software component may affect not only processor characteristics but also databus communications and wiring implementations. Given the scale of electrical/electronic content in modern vehicles, poor decisions can have significant impacts.
The problem can be solved by focusing on vehicle functions that will later be implemented as software, hardware, data communications, or electrical interconnect, and then assessing the impact of alternative implementations. The Capital Systems tools support functional connectivity capture, platform-level integration of those functions, and instant measurement of consequential impacts. Together they provide a complete environment to guide engineers to optimum decisions.
Luciano Lavagno, Professor of Electronics at Politechnico di Torino (Polytechnic University of Turin), who has a special research interest in hardware/software co-design, commented, "These tools are unique because they capture all high-level functionality aspects at a single abstraction level. This information is projected onto a representation of the host platform, which could be a car, an aircraft, or indeed a distributed system-of-systems. Real-time metrics immediately show engineers the effect of their decisions, allowing rapid optimization. No complex internal data mappings are needed, so the tools are ideal for fast adoption by staff responsible for system implementation decisions."
In practice new designs almost always build on data derived from previous projects. Moreover, the data describing implementation architectures must flow directly to detailed design processes within the various disciplines. For this reason the Capital Systems products provide extensive data connectivity. Martin O'Brien, general manager of Mentor's Integrated Electrical Systems Division, said, "These tools are seamlessly integrated with Mentor's Capital electrical and Volcano network/embedded software design flows. They also support data exchange with other vendors' tools, including adjacencies such as SysML systems modeling and 3D mechanical modeling."
The Capital Systems tools are part of the successful Capital® suite, an advanced software suite for the electrical systems and wire harness domain. Used by leading automotive and aerospace OEMs and suppliers worldwide, the Capital tool is built to support the complex demands of integrated processes from initial product definition through electrical system design, harness manufacture and vehicle maintenance.
About Mentor Graphics
Mentor Graphics Corporation (NASDAQ: MENT) is a world leader in electronic hardware and software design solutions, providing products, consulting services and award-winning support for the world's most successful electronics and semiconductor companies. Established in 1981, the company reported revenues over the last 12 months in excess of $1.24 billion. Corporate headquarters are located at 8005 S.W. Boeckman Road, Wilsonville, Oregon 97070-7777. World Wide Web site: http://www.mentor.com/.
Mentor Graphics, Mentor, and Capital are registered trademarks and Capital Systems, Volcano, and VSA are trademarks of Mentor Graphics Corporation. All other company or product names are the registered trademarks or trademarks of their respective owner.
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SOURCE Mentor Graphics Corporation
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