We're a team of computational scientists, nanotech researchers, bioengineers, and biologists who have been working together for years in the junction between computing and life sciences. We design and build High Performance Computing (HPC) architecture, install and validate computational and AI tools, prepare relevant data, run simulations and virtual screenings, and analyze results and validation. Members of our team are well regarded in the scientific community and are responsible for designing and building Ecuador's first and only supercomputer. 

We combine advanced computing with innovative materials to address complex health challenges. Our work focuses on creating tools that improve medical treatments, making them safer and more effective. Our international team, with members from Ecuador, Spain, India, and the United States, brings near comprehensive expertise in computational sciences, HPC, biotechnology, nanotechnology, and bioinformatics. We aim to deliver solutions that serve everyone equally, driven by ethical practices and global collaboration.

Our team's research is often engaged with computational modeling and simulations, using techniques like Density Functional Theory (DFT) and tools such as GROMACS, SIESTA, and CASTEP to probe molecular interactions and material behaviors at the nanoscale. We've advanced sciences in nanotechnology and material science, leveraging software like Materials Studio and LAMMPS to design and analyze semiconductors like SiC and TiO2 for energy-efficient systems and bactericidal applications. Our team's contributions to bioinformatics and biomedical applications have utilized tools like CRISPR for gene editing explorations and bioinformatics platforms such as Blast, PyMOL, and Autodock Vina to identify natural compounds for antiviral therapies and optimize protein-ligand interactions. We've also made strides in our efforts to employ high-performance computing environments, incorporating Spack and MPI for large-scale simulations that support sustainable energy innovations and precision medicine. These integrated efforts across computational, material, and biological domains drive solutions for global challenges in health and sustainability.

We value innovation, science, cooperation, and integrity in all our efforts. Our vision is a future where science improves lives worldwide, without barriers. Our aims are big and we're ready to drive big impact.