SethMMorton

RET Design Engineer at Intel Corporation

I enjoy improving productivity by writing well-designed scripts and libraries, optimizing code performance, refactoring messy codebases, and number crunching. I consider myself to be very well-versed in Python and scientific/engineering programming, but am very interested in learning other new languages and development focuses should the opportunity present itself.

I enjoy improving productivity by writing well-designed scripts and libraries, optimizing code performance, refactoring messy codebases, and number crunching. I consider myself to be very well-versed in Python and scientific/engineering programming, but am very interested in learning other new languages and development focuses should the opportunity present itself.

Favorite editor: Sublime Text 3
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Position 2012 → Current (7 years, 6 months)
RET Design Engineer at Intel Corporation

As a RET design engineer, I develop and fine-tune algorithms that help to design compensations for the limits photolithographic patterning. Tasks involved are: - design of new algorithms with a focus on both correctness and performance - balancing trade-offs between competing solutions meeting all exit criteria cannot be met - the analysis and understanding of complex design rules - effective communication and documentation of specifications to engineers of varying background - being able to assess when or when not to take risks with unproven solutions.

I am the owner and primary maintainer a large internal Python library that aids data analysis and automating tasks, and serves as a foundation for building other scripts and tools to do daily work.

I have also been entrusted with training new engineers within our group and have developed a curriculum that can be used for independent or leader-lead training.

As a RET design engineer, I develop and fine-tune algorithms that help to design compensations for the limits photolithographic patterning. Tasks involved are: - design of new algorithms with a focus on both correctness and performance - balancing trade-offs between competing solutions meeting all exit criteria cannot be met - the analysis and understanding of complex design rules - effective communication and documentation of specifications to engineers of varying background - being able to assess when or when not to take risks with unproven solutions.

I am the owner and primary maintainer a large internal Python library that aids data analysis and automating tasks, and serves as a foundation for building other scripts and tools to do daily work.

I have also been entrusted with training new engineers within our group and have developed a curriculum that can be used for independent or leader-lead training.

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Open source Aug 2014 → Current (4 years, 11 months)
Last commit on Mar 26, 19
388 Commits / 69,817 ++ / 26,860 --

Super-fast and clean conversions to numbers.

Super-fast and clean conversions to numbers.

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Open source May 2012 → Current (7 years, 2 months)
Last commit on Feb 05, 19
565 Commits / 38,207 ++ / 28,453 --

Simple yet flexible natural sorting in Python.

Simple yet flexible natural sorting in Python.

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Education Aug 2007 → Jul 2012

I developed a ~30,000 line Fortran program that simulates the optical properties of nanoparticles. The value that this program brought to existing techniques was that the nanoparticle was represented by its component atoms rather than by some approximate grid or mesh. To make this tractable advanced algorithms, numerical solvers, code optimization, and parallelization methods (such as MPI and OpenMP) were employed.

I developed a small GUI to simulate the atomic spectra of vibrating molecules at various temperature for collaborators of our research group. Part of this project required translating old FORTRAN 77 code into numpy/scipy code.

I developed a ~30,000 line Fortran program that simulates the optical properties of nanoparticles. The value that this program brought to existing techniques was that the nanoparticle was represented by its component atoms rather than by some approximate grid or mesh. To make this tractable advanced algorithms, numerical solvers, code optimization, and parallelization methods (such as MPI and OpenMP) were employed.

I developed a small GUI to simulate the atomic spectra of vibrating molecules at various temperature for collaborators of our research group. Part of this project required translating old FORTRAN 77 code into numpy/scipy code.

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Joined Stack Overflow
on May 16, 2012