Hi everyone, My name is Luis F. Garcia, I'm a Physics junior undergrad in Tec de Monterrey, a university in México. I've been browsing the accepted mentor programs for this year's GSoC and SymPy really caught my attention.
First a bit of my background. My completed coursework so far has included: Classical mechanics, Electromagnetic Theory, Calculus, Vector Calculus, Mathematical methods for Physics, ODE/PDE, Computational Physics (a numerical methods class applied to Physics, we coded almost entirely in Matlab), Linear Algebra, Data Structures. Some of my current classes are: Quantum Mechanics, Quantum Information Processing, Electrodynamics. I've grown quite fond of QM and quantum computing so far and I am excited to see that SymPy has projects for both areas. On the technical side I have mainly coded in Java, C#, C+ +, Matlab and I've played around for a bit with Python but nothing too complicated. The past two summers I've been an intern with Microsoft, first on the Servers and Tools division and then in a team within the Office org. While working in Microsoft was a great learning experience I want to get more experience with scientific computing since it's more related to my field of study. I saw the ideas page already and I'm interested in the Abstract Dirac Notation, the one of implementing known analytical solutions of q.systems, and the one of symbolic quantum computing. I'll be playing around with sympy.physics to see what's already implemented but could anyone give me some guidance as to what is implemented, known issues, or anything relevant about the module? I'll also get a look at the open issues to get a patch in to the system. Thanks and I'll try to get a draft application in the wiki and the system before the end of this week. -- You received this message because you are subscribed to the Google Groups "sympy" group. To post to this group, send email to [email protected]. To unsubscribe from this group, send email to [email protected]. For more options, visit this group at http://groups.google.com/group/sympy?hl=en.
