Provides a formalized and systematic solution to manage all aspects of product quality, reliability, and risk using methods that are fully integrated into the product development lifecycle.
FMEA (Failure Mode and Effects Analysis) or FMECA provides a structured and systematic methodology to identify the failure modes of a system, analyze their effects and introduce controls to improve product quality.
Reliability Prediction is used to analyze and predict the failure rate of a system over time and under various operating conditions. Windchill Prediction uses extensive industry sources, known as reliability prediction standards, to calculate the failure rate of a system from the failure rates of its component parts.
Offers intuitive graphical representations and powerful analytical tools. Assess the risk and reliability of complex systems through visualization and analysis.
Combines intuitive and easy-to-use reliability block diagramming tools with powerful optimization and simulation calculations to analyze the performance and lifetime costs of complex, real-world systems.
Provides robust state transition diagramming tools. You can create graphical representations of complex system states, along with the connections between them. From each diagram, it is then possible to calculate system performance metrics, including capacity, reliability and availability for different states.
Provides the life data analysis tools necessary to predict failure behavior from gathered field data, considering the whole product lifecycle.
Provides the powerful statistical techniques necessary to analyze data from accelerated life testing methodologies and to extrapolate these results under normal operating conditions.
Offers cost breakdown analysis tools, along with a flexible equation editor supporting a range of variables and functions. By combining customizable cost breakdown structures with user-defined equations, you will get a flexible tool to meet the unique cost analysis needs to your organization or industry.
Provides a systematic method to define system repair properties, using global standards as a framework. You can analyze repair metrics of any system to predict repair times, minimize downtime, and increase availability.
Offers a systematic, step-by-step methodology to identify and schedule reliability-centered maintenance tasks in accordance with the MSG-3 standard.