Dan Mc Mahill
About Dan Mc Mahill
Dan Mc Mahill is a Principal IC Designer at Butterfly Network, Inc. with extensive experience in analog and mixed-signal IC design, parasitic extraction, and modeling, and has a strong background in Electrical Engineering and MedTech.
Current Position at Butterfly Network, Inc.
Dan Mc Mahill is currently working at Butterfly Network, Inc. as a Principal IC Designer. In this role, he is responsible for developing chips that power next-generation ultrasound devices. His work focuses on analog and mixed-signal IC design, specifically in the healthcare technology and MedTech sectors.
Previous Experience at Maxim Integrated Products
Dan Mc Mahill served as a Senior Principal Member Technical Staff at Maxim Integrated Products from 2001 to 2016. During his 15-year tenure, he honed his skills in RF VCO and PLL design, including both integer-N and fractional-N synthesizers. His expertise in Verilog-A and Verilog-AMS modeling contributed significantly to simulation speed-up and control.
Industry Experience and Technical Skills
Dan Mc Mahill has extensive experience in analog and mixed-signal IC design. He utilizes systemVerilog real number modeling (RNM) for designing amplifiers, filters, equalizers, and PLLs. He is proficient in SKILL programming, parasitic extraction, and modeling using Calibre and EMX. Notable tools in his repertoire include Virtuoso Layout, Virtuoso Schematic, and tools for collaborative development such as cvs, svn, and git.
Educational Background
Dan Mc Mahill completed his education at the Massachusetts Institute of Technology. He achieved a Doctor of Philosophy (Ph.D.) in Electrical Engineering from 1996 to 2001. Earlier, he earned a Master of Science (S.M.) in Electrical Engineering and Computer Science from 1991 to 1993 and a Bachelor of Science (S.B.) in Electrical Engineering from 1987 to 1991.
Expertise in Technology and Research
Dan Mc Mahill's expertise spans multiple domains, including Electrical Engineering, Scientific Research, Numerical Computing, and MedTech. He has a comprehensive understanding of technologies such as CMOS ADC and DAC design, parasitic extraction and modeling, and Ultrasound and Point of Care technologies. His background also includes development work in both open-source and proprietary environments.