Performing Random Vibration Analysis To perform random vibration analysis: Create a linear dynamic study. Right-click the top icon in the Simulation study tree and select Study. You can define a solid, shell, or mixed mesh study. Select Linear Dynamic, and under Options, click Random Vibration . Define the frequency and dynamic properties of the study. Define material for each solid and shell. To define a material for a solid or shell right-click its icon in the Simulation study tree and select Apply/Edit Material. Define restraints. Right-click the Fixtures icon in the Simulation study tree and select from the options. You can also apply spring connectors to link components. Define damping. Right-click the Damping folder in the Simulation study tree and select Edit/Define. You can define modal, composite modal or Rayleigh damping. Define loads. You can define psd curves of force, pressure, uniform and selected base excitations. Define Result Options. Right-click the Result Options folder in the Simulation study tree and select Edit/Define. Mesh the model and run the study. View the results: Double-click an icon in the Results folder to display the associated plot. To define a new plot, right-click the Results folder and select the desired option. You can plot psd of displacements, accelerations, velocities, stresses, strains, and deformations for a specified solution step or extreme values across all solution steps. To define a psd response plot at a specified node, right-click the Results folder and select Define Response Graph. You can plot psd of stresses, displacements, velocities, and accelerations. To list results, right-click the Results folder and select the desired option. You can list , natural frequencies, mass participation factors, stresses, displacements, accelerations, velocities, strains, and reaction forces. Click here for more result viewing options. Parent topicPerforming Linear Dynamic Analysis Copy to New Dynamic Study Performing Modal Time History Analysis Performing Harmonic Analysis