Automotive vehicle and tractor gage panels must meet many requirements - such functional characteristics as appropriate stress levels under loads, eigenfrequencies, stiffnesses, weight, accuracy etc. and last but not least they must be with minimal environmental pollution during life time. The 3D geometrical models of the gage panel are elaborated by SolidWorks (SW). Static and dynamic responses of the gage panel are calculated by SW Simulation and impacts to environment are evaluated by SW Sustainability that include such indices as total energy consumed, carbon footprint, air acidification and water eutrophication. The stationary and transient behaviors of the gage panel under dynamic excitation as well as stress distribution under static loading are investigated. Due to complexity of the gage panel FEM models the appropriate metamodels are elaborated based on design of experiments. These metamodels are used for multiobjective optimization by global search procedure. Partial objectives are aggregated in the complex objective function for optimization purposes. Dynamic behavior of the gage panel is then verified by solution of the full FEM models in case of random vibrations.