Gabriel Ganzer

Technical Lead at Kryptus

Gabriel Ganzer has three years of professional experience in software and hardware engineering. In 2021, they began working as a Software Developer at Kryptus EED SA, where they are responsible for firmware development for the MSP430 and SAME70 microcontroller families used in avionic systems mainly in C. Gabriel also designs and tests software applications to communicate with the VxWorks real-time operating system (RTOS) and researches models for machine learning operations in computing systems with limited resources. In 2020, they worked as a Research Collaborator at Laboratório de Sistemas Embarcados e Microeletrônica (LSEM), where they researched RISC-V architectures, formal verification and optimization techniques for energy-efficient RTL designs. Gabriel also fully developed and verified an ASIC chip for testing purposes using Intel Quartus and Cadence System Design. In 2018, they worked as a Thesis Student at the Software/Hardware Integration Lab, where they designed and published a mechanism for packet delivery measurement in a Network-on-Chip (NoC) used to interconnect processing units running multimedia applications with variable-bit-rate, mainly using VHDL and SystemC. Gabriel also experimented with post-synthesis circuit optimization for leakage power minimization through gate resizing and dynamic voltage scaling (DVS) and verified and validated IP cores using Xilinx Vivado.

Gabriel Ganzer has an education history that includes a Bachelor's degree in Computer Engineering from Universidade Federal de Santa Catarina (2012-2018), a Master's degree in Computer Engineering from Politecnico di Torino (2019-2020), and a Master of Business Administration - MBA in Data Science and Analytics from USP - Universidade de São Paulo (2022-2024). Gabriel also has seven certifications from IEEE Educational Activities and Cisco, which include Designing PCBs 5x Faster Despite the Pandemic (2021), Dell Solutions for Engineering Businesses to Thrive During Remote Work (2020), Nonlinear Magnetic Materials Modeling (2020), 3D Cable Modeling in COMSOL Multiphysics (2020), Multiphysics Modeling of Piezoelectric Sensors and Actuators (2020), CISCO CCNA Exploration: Network Fundamentals (2011), and CISCO IT Essentials: PC Hardware and Software (2011).

Links


Org chart

Sign up to view 0 direct reports

Get started