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Precise configuration complexity data can be calculated to quantify how marketing and engineering decisions interact. This allows decisions to be examined and optimized, and helps quantify the impact of give-away choices. Final target configurations can be validated against the product plan eliminating the risk of mis -builds on the production line.
Electrical systems are increasingly complex in modern platforms and errors impact program schedules and cost. Electrical load analysis (ELA) is an important part of the electrical system design to ensure the safe and correct operation of aircraft and vehicles. Capital uses the electrical digital twin, generated from the overall power system and subsystems design, to predict electrical loads. A correct-by-construction designs supports built-in, constraint-based design guides to enable engineers to design for functional safety and regulatory compliance from the very beginning. Improve design quality with a topology aware environment. Design data from the digital twin supports accurate and complete verification of the electrical system and sub-systems. Simulate power system efficiency for each operating condition, for example each flight phase and load shedding for emergency conditions. Capital rigorously tests all possible circuit states, identifies component and wire sizing problems, and recommends upgraded specifications for wires, fuses, etc to suit worst-case conditions. Capital automatically extracts all electrical load analysis data into the user’s own reporting template for easy and efficient report generation. This technology pulls data directly from the digital twin so the user can see the impact of design changes at any time and at any stage of the design process.
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