COMPutational ASsessment Suite
COMPutational ASsessment Suite offers numerical modelling expertise in the Aerospace and Education sector
The codes of the COMPutational ASsessment Suite
COMPutational ASsessment Suite offers numerical modelling expertise in the Aerospace and Education sector. It comprises of the following proprietary codes, although the list will increase with time. A Finite Element code for linear static analysis. An analytical code for penetration / perforation analysis at extreme velocity impacts. An analytical code for stress analysis of shell structures. The Finite Element code has also extra modules for modal analysis and random vibration analysis but at a later date.
More codes shall be added in the future relating to specific topics, eg. a material model calibration code for metallic structures which will offer the creation of model specific input from minimal experimental data for a quick evaluation of the strength of a structure.
STRATOFEM™
At the centre of the COMPutational ASsessment Suite: a Finite Element Code for the linear elastic analysis of structures. The current version is available free-of-charge.
PROFILE
An analytical code dealing with the penetration / perforation of objects by ballistic impact or in the hypervelocity range.

Where is the MH370?
The quest for deciphering the last seconds of the aircraft from the available debris information.
A scientific analysis of the various information available, regarding the very limited discovered debris items, to eventually arrive to a meaningful proposition for the most likely “end” of the MH370 flight…
About us
The project’s holder of COMPutational·ASsessment·Suite is Dr Argiris KAMOULAKOS CEng FRAeS AFAIAA, retired Scientific Director of ESI Group, 40 years industrial experience in Numerical Analysis and Simulation in Aerospace…
- STRATOFEM is now European TrademarkWe are pleased to announce that as of the 30th April 2025, our Aeronautical Structural Analysis Software STRATOFEM is registered as a European Trademark. We shall now embark in updating it, enhancing it and linking it with extra modules in due coarse.