Empowering innovators, engineers, and scientists through rigorous modeling, high-fidelity simulation, and deployable computational solutions.
We advance advanced numerical methods, multiscale porous-media transport, fluid mechanics & stability, computational imaging & inverse problems, and high-performance computing—serving academia, industry, startups, and government partners.
ITECCS is a premier research and education institute advancing applied mathematics, artificial intelligence, engineering, and scientific computing. We provide high-quality education and advanced professional training, and collaborate globally with universities, industry, and government partners to address complex scientific and technological challenges. Through rigorous mathematical modeling, high-performance computing, and intelligent computational methods, ITECCS empowers researchers, engineers, and institutions to translate scientific insight into deployable technologies and real-world impact. Our institute serves as a trusted platform for innovation, enabling organizations to strengthen their scientific capabilities, accelerate engineering development, and lead technological advancement in an increasingly computational world.
ITECCS is a premier research and education institute advancing applied mathematics, artificial intelligence, engineering, and scientific computing.
We provide high-quality education, professional training, and advanced research programs, and collaborate globally with universities, industry, and government partners to address complex scientific and technological challenges.
Through rigorous mathematical modeling, high-performance computing, and intelligent computational methods, ITECCS empowers researchers, engineers, students, and institutions to translate scientific insight into deployable technologies and real-world impact.
Our institute serves as a collaborative platform for innovation, enabling organizations to develop advanced computational capabilities, accelerate discovery, and strengthen technological leadership across diverse domains.
ITECCS operates at the intersection of rigorous theory and real-world impact—building computational capabilities, training the next generation, and partnering with organizations to solve high-consequence scientific and engineering challenges.
Flagship initiatives and core programs spanning numerical methods, inverse modeling, porous media, fluid mechanics, AI-enhanced scientific computing, and scalable HPC platforms.
Courses, certificates, workshops, and continuing professional education (CPE) designed for students, educators, and professionals—online, hybrid, or on-site.
Research-to-deployment partnerships: modeling, simulation, algorithm design, validation, and secure cloud/HPC implementation—delivering measurable engineering value.
High-impact areas where rigorous mathematics, scalable computation, and engineering deployment meet.
High-order discretizations, stability, error control, and robust solvers for complex multiphysics PDEs.
Computational imaging, parameter identification, and data assimilation for science and engineering.
Multiscale flow, swelling porous media, reactive transport, and real-material modeling frameworks.
Complex fluids, turbulence, stability analysis, and predictive simulation for advanced flows.
Physics-informed ML, surrogate models, and hybrid AI-PDE pipelines for speed + fidelity.
Parallelization strategies, GPU acceleration, scalable pipelines, and secure compute deployment.
ITECCS supports collaborations spanning academia, national priorities, and industry R&D initiatives.
ITECCS is guided by a rigorous research philosophy: combine mathematical theory, scalable computation, and deployable engineering to solve complex challenges in science, technology, and industry.
ITECCS leads focuses on rigorous modeling, high-fidelity modeling, AI-enhanced scientific computing, etc. and advanced STEM education—bridging academia, industry, and public-sector priorities.
“ITECCS brought clarity and technical depth to a complex modeling problem—delivering results we could deploy.”
— Partner, Engineering & R&D“Excellent training and mentorship—highly structured, rigorous, and directly applicable to our workflows.”
— Program Lead, Scientific Computing