Designed and executed experimental simulations on SRAM arrays for the IBM zSystems to evaluate circuit performance across process corners, identifying potential risks, and suggesting design changes
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Owned the analysis and simulation of array settings, built upon a scripting flow to automate manual SRAM simulation processes to reduce time to complete analysis
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Responsible for the logic, timing, noise, EM, and thermal analysis of 3 SRAM designs using EDA tools
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Won “People’s Choice Award” for new hire project centered around creating a centralized and streamlined platform to test the z machines
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Co-author on patent application submitted to USPTO for novel voltage regulator - cache system for microprocessor applications
Alimtas assists Princeton University Professors who have developed innovative life science technologies develop a business model to commercialize and distribute their technology.
Designed schematic and built layout for a 2-layer flexible PCB board and 4-layer rigid PCB board to serve as a medical sensor for immune dynamics in wounds as part of senior thesis research
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Implemented SPI communication protocol in Verilog between on-board Sigma-Delta ADC and FPGA to digitize measurements reading, and showcased device’s ability to reconstruct various low-frequency signals
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Sourced 30+ unique components for the boards from electronics manufacturers and worked with PCB manufacturer for board fabrication
Working under Ani Liu, a Princeton Arts Fellow, I am working at the intersection of technology and visual arts, utilizing software and hardware to investigate, visualize, and identify various societal phenomena
