Mountain View, CA, United States
I'm currently a developer at Amazon on a team called Digital Products. I work on some very exciting things. Unfortunately, I can't tell you about any of them because it is all top secret.
I've been programming for about half my life now. I started when my parents bought me the LEGO Mindstorms robotics kit as a kid. Creating software that allowed a computer to follow my commands was something akin to magic, and it became a passion that stayed with me.
I continued to explore programming throughout high school, college, and into my career. I moved from Mindstorms into TI Basic after I became the proud owner of a TI-92+ graphics calculator. I later learned C++ and found another passion: graphics and game design.
Computer graphics was the catalyst that took me deeper into programming. I played around with 3D graphics and learned OpenGL and GLSL. I made various game prototypes and demos just for the thrill of seeing things on the screen. In school, I found that I enjoyed AI as well, and I synthesized the two to create rehaiku, a generative art project that took tweets and turned them into haikus. This was displayed in an adaptive art exhibit at the University of Michigan.
I continued to explore the fusion of art and technology in a project I called Laffy Taffy. Laffy Taffy is a music visualizer written in C++ and OpenGL. The visuals are generated fully procedurally using a GPU-driven particle simulation. Over a million particles are displayed in real time and simulated in real time, and respond to the energy and beats in the playing music. I learned a lot about digital signal processing, real time lighting, and shadow techniques from working on this project.
After graduating I started working at Amazon on a team called Digital Products. At Amazon I discovered a love for building truly useful software, and learned how customer obsession leads to great products.
I love learning new domains and exploring different problems. There is one common aspect to all the things I enjoy working on: building software that delights and excites people. This can be done in many different ways and in a variety of industries, but the guiding principles are the same. Make great software by focusing on the customer and the experience.
Experience show all
Software Engineer, Highfive
October 2013 - Current
Software Developer Engineer, Amazon
July 2011 - August 2013
Working in the Digital Products organization.
Teaching Assistant for EECS 492: Artificial Intelligence, University of Michigan
January 2011 - May 2011
As a teaching assistant, I was responsible for creating and grading exams and problem sets, responding to student questions, holding weekly office hours, and preparing for and leading a weekly recitation session. I created problems that led students to synthesize multiple ideas into a complete solution. As a recitation leader, I learned how to effectively teach and engage students.
DirectX Intern, NVidia
May 2010 - August 2010
I was responsible for debugging problems in the Windows DirectX display driver. In doing this, I gained experience in kernel debugging using tools such as WinDbg.
Additionally, I wrote a prototype for an internal code coverage tool from the ground up using C#. The tool interfaced with Bullseye to calculate coverage, then stored results in a MSSQL database for easy querying and searching. This allowed engineers to look for parts of the driver that had poor test coverage and make informed decisions about where to add further tests.
Summer of Code Student, Google
May 2009 - August 2009
I developed some enhancements to Nepomuk in KDE SC, an open source desktop software. Nepomuk is a semantic knowledge backend which contains metadata about many desktop items - files, emails, people, etc. Nepomuk itself stores data in an RDF database. My project enhanced the search frontend of Nepomuk, allowing for more powerful searches using a simple UI.
My mentor, Sebastian Trueg, wrote a great summary of my work here.
This project was merged into trunk and is a part of KDE SC starting with KDE SC 4.4.
B.S.E. Computer Science, University of Michigan
2008 - 2011
Graduated with a GPA of 3.84
Relevant courses: Machine Learning, Artificial Intelligence, Game Design and Development, Operating Systems, Advanced and Object-Oriented Programming
Open Source show all
GitHub, May 2013
This One is our entry for the Ludum Dare 26 Jam. Ludum Dare Jam is a three-times-annual online game jam, where teams create games in 72 hours or less. Games must be created according to a theme announced at the beginning of the project, and entries are judged on various criteria.
I worked in a team with four others. I wrote the majority of the code: all of the basic gameplay code, including the dialog system, collision, rendering, and scene transition code. I contributed to the enemy coding, writing two out of the four enemy types. Additionally, I helped with design and mechanics.
More information can be found at our entry page.
GitHub, Apr 2013
laffy taffy is a 3D music visualizer using a GPU-accelerated particle system.
I wrote laffy taffy as an experiment in two areas: signal processing and GPU-accelerated particle systems.
To learn more about signal processing, I wrote code that uses FMOD to grab the frequency spectrum of currently-playing audio. It then uses the spectrum to do energy analysis and beat detection. These are fed into the visual simulation.
The visuals are all generated in real time. It renders and simulates 1 million+ particles on the GPU using OpenGL. laffy taffy stores information about each particle in a series of OpenGL textures, which it accesses and writes in GLSL shaders to perform the simulation. This allows the particles to be simulated in parallel on a GPU with no assistance from the CPU. Soft shadows and lighting are also calculated in real time.
A video of this in action can be seen on YouTube.
Apps & Software
rehaiku is an exhibit produced for the experimental Adaptive Art class at the University of Michigan. It explores the fusing of haiku and Twitter, two wildly different forms of expression.
I worked in a team of three students to develop this exhibit. The work was mainly in three areas: Twitter integration, the haiku generation, and the visualization. I worked in all three, but primarily focused on the twitter integration and visualization. The visuals were done in OpenGL using JOGL, and the haiku generation used markov chains with the RiTa library.
More details are available on our project writeup.
Pentium 3 1.0Ghz
emacs! My pinky finger is still intact.