Our mission is to contribute with
state-of-the-art engineering computational tools to high performance
engineering design that includes real-life uncertainties and by this to
increase the U.S. technology competitiveness on the global
international industry market.
GP Technologies has accumulated an
engineering experience of more than fifty years in the area of
computational mechanics, statistical modeling and structural risk
prediction.
Most of the GP Technologies research projects are related to
engineering projects on the application of advanced computational
modeling using innovative stochastic mechanics and reliability-based
optimization techniques to aircraft, ground vehicle and nuclear
facility systems analysis and design applications. GP Technologies
staff has an extensive engineering experience for performing seismic
structural-soil interaction analysis, safety margin evaluation and
probabilistic risk assessment reviews for nuclear facilities.
Our main engineering application areas include aerospace, automotive
and nuclear power industries.
We developed unique engineering capabilities
for predicting reliability for aircraft structures and engine
systems.Our in-house software provides quick and accurate solutions for
both design and maintenance problems.
A special focus of our advanced engineering group has been the
development of efficient computational tool for accurate forced
response of forced response in jet engine bladed-disks.
Under continuous funding support from the Government, and in collaboration with various universities we developed a novel reliability prediction technology basedon efficient high-performance computing algorithms and state-of-the-artstochastic mechanics tools.
Our lead engineering group has extensive engineering experience in nuclear structural engineering applications with emphasis on seismic structural design and probabilistic risk assessment. Our seismic soil-structure interaction software offers unique engineering analysis capabilities to nuclear industry.