I want to state a principle that I abide by:
βItβs not just about the supercomputers available but about how smartly one designs and optimizes the code to efficiently use the available resources.β
I am a Research scholar in computational mechanics. Since January 2019, I have been working in the Computational Mechanics Lab, focusing on the phase field method.
My main goal is to develop a computationally efficient method for solving phase-field fracture problems, enabling us to tackle more realistic and practical challenges. To achieve this, I focus on space adaptivity and parallelizing the code, ensuring that we can accurately capture the details of the fracture process and solve large problems faster using high-performance computing.
Beyond fracture mechanics, I also work on the topology optimization of large-scale practical problems. This involves finding the best material distribution within a design space for optimal performance. Currently, I am working on implementing phase field methods for large-scale topology optimization problems, aiming to create efficient solutions for real-world applications.
In addition to my research, I am the co-founder of EigenPlus, a platform dedicated to sharing the knowledge and practical skills I have gained throughout my career. One of my passions is helping others by imparting what I have learned, and I firmly believe in Steve Jobsβs quote: βThe only way to do great work is to love what you do.β β€οΈ When you love what you do, you put your heart and soul into it, resulting in outstanding work. Through EigenPlus, I strive to inspire others to achieve greatness by loving what they do.
- π± Learning in public on umeenukrishnan.github.io
- π Interactive teaching on EigenPlus
- πΌ Sharing updates on LinkedIn
- πΈ Following my journey on Instagram
- π Academic contributions on Google Scholar
- π¬ Research publications on ResearchGate
- π» My projects on GitHub