Expert in high performance low-level programming, IEEE-754 numerics, ARM and x86 assembly and architecture, vectorization, and C. I am the sole holder of the gold [floating-point] badge on Stack Overflow, and the first man to earn the silver [assembly] badge.
There is an oft-repeated saying that "you can't beat the compiler". I nearly always beat the compiler, then teach the compiler how to do better.
Experience show all
Senior Software Engineer, Apple, Inc
2010 - Current
- I am the lead engineer for the OS X and iOS math library. I strive to deliver the highest-performance, highest-quality C99 math library on both x86 and ARM.
- I am the lead engineer for the OS X and iOS linear algebra libraries, which deliver excellent performance on a wide array of architectures.
- I do optimization work for other groups at Apple. I have worked on everything from memory movement and string-processing to image processing and filtering.
- I consult for the compiler team on numerics issues, and work on the compiler-rt runtime library.
- My code is executed trillions of times a day by hundreds of millions of users.
Software Engineer, Apple, Inc
2007 - 2010
- I worked on a team to develop a comprehensive test framework for the C99 math libraries to measure algorithmic accuracy, ABI compliance, edge case correctness, and performance.
- I finished the process of performance tuning the OS X math library on the Intel platform. It is now among the best math libraries available on x86.
- I wrote the double-precision half of the iOS math library for the ARM platform. The performance and accuracy of this library are without comparison on the ARM architecture.
- I wrote the performance-critical sections of the compiler_rt C runtime library, a drop-in replacement for libgcc that is part of the llvm project. These routines are all faster than their libgcc counterparts.
- I implemented a new build process for the math library and the BLAS/LAPACK libraries on both OS X and iOS. In the case of BLAS/LAPACK, this work reduced the build time for the library from 30 minutes to 3 minutes. Both of these are extremely fussy projects, which must build a multitude of libraries and handle an enormous amount of architecture-specific code.
- I filed two patent applications.
Software Engineering Intern, Apple, Inc
2006 - 2007
- I tuned the complex math library for the Intel architecture, achieving 3-10x speedup for most routines in the library while maintaining accuracy and edge case correctness.
Education show all
Sc.B. Mathematics, Brown University
- Winner of the Hartshorn/Hypatia Mathematics Prize Exam
- David Howell Premium for Excellence in Mathematics
- Original member and first boatswain of ARRR!!!, the nation's only pirate a cappella group.
- Graphics editor of The Catalyst, a student science publication.
- Clarinet section leader in the Brown Band, (believed to be) the world's only ice-skating band.
- Research assistant in the Linguistics and Mathematics departments.
- Teaching assistant for "what is mathematics", multivariable calculus, and differential geometry.
Applied Mathematics, UC Berkeley
2001 - 2008
- NSF Graduate Research Fellow (Computer Science), 2002-2005
- Outstanding Graduate Student Instructor, 2008
Harold Abelson, Gerald Jay Sussman, Julie Sussman
Whatever is available and works
I was a member and (briefly) editor pro tem of the IEEE-754 floating-point standard committee, and a contributor to the OpenCL specification. I am currently taking part in a working group to define C language bindings for the new IEEE-754 (2008) standard.
I am a contributor to the compiler-rt runtime library, a drop-in replacement for libgcc. I wrote the powerpc-specific long double floating-point functions and the 32-bit intel assembly implementations of 64-bit arithmetic, as well as a complete set of portable correctly-rounded floating-point arithmetic functions.
I wrote substantial sections of Apple's libm, parts of which are available on opensource.apple.com