Semiconductor process simulation

It is a branch of electronic design automation, and part of a sub-field known as technology CAD (TCAD).

Because of the detailed physical modeling involved, process simulation is almost exclusively used to aid in the development of single devices whether discrete or as a part of an integrated circuit.

There are no similar tools available for accurate high resolution measurement of dopant or stress profiles.

For example, back end manufacturing may cause stress in the transistor region changing device performance.

Many of the models were conceived by researchers long before they were needed, but sometimes new effects are only recognized and understood once process engineers discover a problem and experiments are performed.

SUPREM was the resulting software from research by Stanford professor Robert Dutton (engineer).

One other process simulator PROPHET was created around 1994 at Bell labs which later became Agere, but has not been sold commercially.

Synopsys combined the features of Taurus and TSUPREM4, into the FLOOPS platform and called it Sentaurus Process.

[3] In 2013, Coventor released SEMulator3D, an advanced process simulator based upon voxel modeling and surface evolution.

The accuracy of the profile strongly depends on maintaining a proper density of mesh points at any time during the simulation.

It is important to manage the mesh changes in such a way to avoid accuracy degradation due to interpolation error.

Process simulation tools so far have had limited success in completely automating mesh adaptation such that no user intervention is required.

To include the effects device shape along the depth or to investigate implant shadowing, 3D simulations must be performed.