The semiconductor industry continually pushes the boundaries of device performance through advanced process modelling and epitaxial growth techniques. In this context, sophisticated simulation methods ...

Semiconductor process engineers would love to develop successful process recipes without the guesswork of repeated wafer testing. Unfortunately, developing a successful process can’t be done without ...

First order process modeling can help tremendously with process setup and integration challenges that occur in a semiconductor fabrication flow, by visualizing process variation problems “virtually” ...

Model-predictive design is applied to solid-dosage processes. Model-predictive design—used to define, predict, and control a process—is well established in many industries and is beginning to take ...

Models of biopharmaceutical production processes are more accurate and predictive if all downstream steps are considered together rather than individually. At least that’s according to researchers at ...

Use of modeling software can help improve process understanding, and can be used in open- or closed-loop control. Process modeling is becoming established as a method to design and optimize ...

In biopharmaceutical manufacturing the interactions between cells, nutrients, and reagents in culture determine product quality. The big challenge for process developers is modeling these complex ...

We propose an approach for modeling and analyzing the operational risks in a financial institution based on its business process model. This approach is complementary to the widely used loss-event ...

Vocabularies, ontologies, and business rules are key components of a model-driven approach to enterprise computing in a networked economy. Enterprise vocabularies, ontologies, and business rules do ...