I supported verification of the ElectraSyn 2.0 platform, working across embedded firmware and analog circuitry to validate system behavior and reliability. This included hardware/software integration testing, reproducing edge cases, and debugging inconsistencies between expected and measured performance. Early on, much of my work involved hands-on tasks—assembling prototype PCBs, running tests, and learning how to diagnose issues in physical systems. Under the mentorship of Jose, I developed a more structured approach to debugging and validation that carried forward into later work. I later took on a lead intern role within the R&D group, where I was responsible for developing a new magnetic stir plate concept. The design focused on a motorless, low-profile architecture capable of driving multiple samples simultaneously. The resulting prototype was able to drive up to 25 small vials or 4 larger vials at speeds up to ~1500 RPM. Achieving consistent and stable operation required iterative refinement, particularly in maintaining uniform performance across positions. The project was ultimately presented internally and moved forward for further development and iteration.