# Alex Lewis

> SWE

Location: San Francisco Bay Area, United States
Profile: https://flows.cv/alexlewis

While my career started in hardware, it was the dynamic and iterative nature of software development that truly captivated me and set the course for my professional growth.

I’m a visual person who didn’t know exactly what I wanted out of a career. Mechanical engineering stood out since I wanted to square up with a strong math and sciences background figuring I might like design along the way

However, once I started coding I fell in love with how iterative the learning process was. This self fulfilling learning was then complimented with my growing appreciation for the profound impact a single developer could have. I’ve seen single SWEs automate processes saving millions, create data pipelines to fuel a company’s infrastructure, or create tools from scratch that provide immediate value. I got hooked on that value. 

When I'm not working, you can find me training for triathlons or tinkering with personal projects on GitHub.
https://github.com/HugeCoderGuy

## Work Experience
### Software Engineer @ CHAOS Industries
Jan 2024 – Present | San Francisco Bay Area
Backend software engineer working in Python to build features, services, and data infrastructure with tools such as FastAPI, MongoDB, and Azure to support distributed sensing networks.

### Embedded System Software Integration Engineer @ Lawrence Livermore National Laboratory
Jan 2022 – Jan 2024 | Livermore, California, United States
Doing a variety of things at the Labs!
- Software Development: creating ETL pipelines to take packet level data collected from my automated instruments talking to embedded sensing suites or data stored in proprietary file formats, parsing measurements, and uploading to SQL databases that I create the schemas for. Then I create scripts to pull from the database to automate analysis and visualization of key signals. This work is done primarily in Python and SQL with some Cpp code. 

- R&D: Owning the design of a proprietary minimalist eddy current based proximity sensor. This involves things like deriving  transfer functions to characterize for inductor thermal variance, identifying key drivers of performance for the nonlinear displacement to sensing relationship, optimizing our frequency counting algorithm constrained by our sampling rate, and quantifying end product error and performance. Analysis and documentation done in Jupyter notebooks and data is stored to a SQL database I made for full transparency. 

- Getting my hands dirty: Assisting with bring up and debugging PCBs by leveraging my working knowledge of the FPGA firmware and onboard analog circuitry. This involves a swath of instruments such as oscilloscopes, logic analyzers for SPI debugging, LCR meters, DMMs, and many more toys. Frequently I’m diving into the raw byte data of packets to root cause an issue.

### Mechatronics Intern @ UC Davis Bloom Lab
Jan 2021 – Jan 2022 | Davis, California, United States
I designed an open source high throughput automated leaf area measurement device powered by a Raspberry Pi that:
- Utilized a GUI in Python that allows you to interact with the system via touchscreen
- Captured images of plants on a 100x100mm Petri dish in a 3d printed enclosure designed in Solidworks
- Simultaneously displayed the processed the leaf area image and saved leaf area data to a .csv file that synced with your google drive

https://github.com/HugeCoderGuy/LightsCameraPlants

### Project Management Intern @ Tesla
Jan 2021 – Jan 2021 | Fremont, California, United States
This internship with the Vision Automation team in the Supply Chain Operations Automation group focused on data analytics (SQL & Tableau) but also brushed up on project management (handling stakeholder expectations) and product development (user interviews & requirements).

### Target LRU Assembly and Transportation Fixture Design, UC Davis Capstone Project @ Lawrence Livermore National Laboratory
Jan 2021 – Jan 2021 | University of California Davis, California, United States
Sandia Engineering Design Award Winner

At the heart of Lawrence Livermore National Laboratory’s National Ignition Facility lies the Target Line Replaceable Unit (LRU), which holds the laser’s target in place. Formerly, the design of the LRU was constrained by the need to assemble the component inside the NIF. In our project, we create an assembly and test stand allowing the new LRU to be built and evaluated externally before installation in the NIF. Our stand will enable a new LRU design as well as eliminate the waiting time associated with assembling the LRU internally.

### Mechanical Engineering Intern @ NeuroLeap Corp
Jan 2021 – Jan 2021 | San Jose, California, United States
Collaborating with other mechanical engineering interns and receiving feedback from industry professionals to develop SolidWorks CAD models and assemblies of components.

### Stability Lead @ OneLoop
Jan 2020 – Jan 2021 | Davis, CA
As a team lead I had the opportunity to lead the development of three different stability sub-system designs. I developed the designs using SolidWorks, contributed to Lagrangian mechanics simulations in Matlab, and formulated the material to be presented at periodic design reviews.


## Education
### Mechanical Engineering in Design
University of California, Davis


## Contact & Social
- LinkedIn: https://linkedin.com/in/alex-lewis-036635199

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Source: https://flows.cv/alexlewis
JSON Resume: https://flows.cv/alexlewis/resume.json
Last updated: 2026-04-10