User:Fineline: Difference between revisions
(14 intermediate revisions by 6 users not shown) | |||
Line 1: | Line 1: | ||
[[File:steve_at_whole_foods_small.jpg|right]] | [[File:steve_at_whole_foods_small.jpg|right]] | ||
I'm a theoretical physicist, software developer, and musician | I'm a theoretical physicist, software developer, and musician. I just moved to SF. | ||
I have a PhD in theoretical physics from UT Austin, and a BS in physics from UC San Diego. My doctoral research dealt with building string theoretic models of QCD-like quantum field theories at strong coupling, via the AdS/CFT correspondence. You can read all about it [https://dl.dropboxusercontent.com/u/8542380/non_SUSY_engineering.pdf here] (warning: hella taylor expansions). | I have a PhD in theoretical physics from UT Austin, and a BS in physics from UC San Diego. My doctoral research dealt with building string theoretic models of QCD-like quantum field theories at strong coupling, via the AdS/CFT correspondence. You can read all about it [https://dl.dropboxusercontent.com/u/8542380/non_SUSY_engineering.pdf here] (warning: hella taylor expansions). | ||
== Contact == | == Contact == | ||
email: <br /> | |||
fineline@gmail.com | fineline@gmail.com | ||
OTR: <br /> | |||
fineline@chatme.im <br /> | |||
fingerprint: DF8C327F 3D2C7528 7BA82C71 1BC7805A B304B8CE | |||
[https://twitter.com/fineline179 Twitter] | [https://twitter.com/fineline179 Twitter] | ||
Line 15: | Line 20: | ||
== Projects == | == Projects == | ||
*''vForms'' is a virtual environment for information organization for Windows 8 (sorry like 99.999% of the people reading this). C++ and DirectX.<br /> '''Update''' I'll be presenting an initial version at 5MoF on May 15th | *''vForms'' is a virtual environment for information organization for Windows 8 (sorry like 99.999% of the people reading this). C++ and DirectX.<br /> '''Update''' I'll be presenting an initial version at 5MoF on May 15th. I'm aiming to have it released by June 1st on the windows store. | ||
*I'd like to investigate the feasibility of using techniques similar to [http://research.microsoft.com/en-us/um/people/cloop/loopblinn05.pdf Loop and Blinn] for a) rendering bezier splines, in particular digital ink strokes. b) making a fast, resolution independent pdf renderer. Both GLSL and HLSL versions. If this sounds interesting to any DirectX/OpenGL/CG hackers out there, it'd be great to see if we could release something substantial as open source.<br /> '''Update 5/6/2014''': I found [https://code.launchpad.net/~macslow/gl-fragment-curves/trunk this], which should be good for study. Also [http://developer.download.nvidia.com/assets/gamedev/files/GL_NV_path_rendering.txt this]. | *I'd like to investigate the feasibility of using techniques similar to [http://research.microsoft.com/en-us/um/people/cloop/loopblinn05.pdf Loop and Blinn] for a) rendering bezier splines, in particular digital ink strokes. b) making a fast, resolution independent pdf renderer. Both GLSL and HLSL versions. If this sounds interesting to any DirectX/OpenGL/CG hackers out there, it'd be great to see if we could release something substantial as open source.<br /> '''Update 5/6/2014''': I found [https://code.launchpad.net/~macslow/gl-fragment-curves/trunk this], which should be good for study. Also [http://developer.download.nvidia.com/assets/gamedev/files/GL_NV_path_rendering.txt this]. | ||
Line 51: | Line 56: | ||
[http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.8.9532 Multi-user communication using chaotic frequency modulation] | [http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.8.9532 Multi-user communication using chaotic frequency modulation] | ||
Revision as of 09:27, 10 January 2015
I'm a theoretical physicist, software developer, and musician. I just moved to SF.
I have a PhD in theoretical physics from UT Austin, and a BS in physics from UC San Diego. My doctoral research dealt with building string theoretic models of QCD-like quantum field theories at strong coupling, via the AdS/CFT correspondence. You can read all about it here (warning: hella taylor expansions).
Contact
email:
fineline@gmail.com
OTR:
fineline@chatme.im
fingerprint: DF8C327F 3D2C7528 7BA82C71 1BC7805A B304B8CE
Projects
- vForms is a virtual environment for information organization for Windows 8 (sorry like 99.999% of the people reading this). C++ and DirectX.
Update I'll be presenting an initial version at 5MoF on May 15th. I'm aiming to have it released by June 1st on the windows store.
- I'd like to investigate the feasibility of using techniques similar to Loop and Blinn for a) rendering bezier splines, in particular digital ink strokes. b) making a fast, resolution independent pdf renderer. Both GLSL and HLSL versions. If this sounds interesting to any DirectX/OpenGL/CG hackers out there, it'd be great to see if we could release something substantial as open source.
Update 5/6/2014: I found this, which should be good for study. Also this.
- I'm often working on some sort of quantum-gravity-related research project or other. If any of you guys wanna check my math that would be rad.
Interests
- String Theory
- AdS/CFT
- The holographic perspective on quantum entanglement entropy, and its implications for space/time emergence (ie the program spearheaded by Von Raamsdonk, and of course EPR=ER)
- Machine Learning
- Statistical Mechanics (I'm particularily interested in learning about/implementing boltzmann machines, and their applications to real-world systems -- eg work by Bialek. See also his textbook)
- Kundalini Yoga
- Rational (ie phenomenological) discussion of mysticism in general
- High Explosives
- Saxophone
- Learning Python
- Cinder (creative coding library), and its application towards virtual workspace environment design on tablets and in augmented reality.
- Hiking
- Mountaineering
- Cooking (mostly Chinese and Mexican)
- Open Access Publishing
- Co-operative living
Some Publications
Evolution of non-local observables in an expanding boost-invariant plasma (forthcoming)
The Stability of Non-Extremal Conifold Backgrounds with Sources
The Non-SUSY Baryonic Branch: Soft Supersymmetry Breaking of N=1 Gauge Theories
Plasticity and learning in a network of coupled phase oscillators