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Grad school: Difference between revisions
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** algorithms, programming methodologies, languages and compilers for multicore/manycore | ** algorithms, programming methodologies, languages and compilers for multicore/manycore | ||
** cache-, cpu-, and topology-adaptive programming methodologies, compilers and libraries | ** cache-, cpu-, and topology-adaptive programming methodologies, compilers and libraries | ||
* ...and thus, perhaps, computational solutions to Big Problems. Cancer sucks. [[Nuclear weapons| | * ...and thus, perhaps, computational solutions to Big Problems. Cancer sucks. [[Nuclear weapons|Fusion's]] hard. | ||
** Let's give the scientists some bigger boxing gloves. | ** Let's give the scientists some bigger boxing gloves. | ||
* algorithms and implementation of high-performance pattern matching | * algorithms and implementation of high-performance pattern matching |
Revision as of 01:30, 19 August 2009
I am currently a Masters student at Georgia Tech's College of Computing, following the MS-Computer Science (Thesis Option) track. I specialize in:
- high-performance computing
- algorithms, programming methodologies, languages and compilers for multicore/manycore
- cache-, cpu-, and topology-adaptive programming methodologies, compilers and libraries
- ...and thus, perhaps, computational solutions to Big Problems. Cancer sucks. Fusion's hard.
- Let's give the scientists some bigger boxing gloves.
- algorithms and implementation of high-performance pattern matching
- for network security (wire-speed, low-latency, rich operators)
- and bioinformatics (high-volume, gappy/fuzzy, multidimensional)
- especially using automata theory (Glushkov, Thompson, XFA, etc...)
- intrusion detection and prevention (theory and implementation)
Upon entering MSCS in Fall 2008, I'd have said intrusion detection first, and programming language design second. Indeed do many things come to pass.
I have some Forthright Advice for GT CSMS Students, and also some preparation for the CS Subject Exam GRE.
Classes
Fall 2008
- CS6262 - Network Security (3 hours)
- CS6290 - High Performance Computer Architecture (3 hours)
Spring 2009
- CS8803MCA - Multicore and Manycore Architecture (3 hours)
- CS7530 - Randomized Algorithms (3 hours)
- CS6238 - Secure Systems (3 hours)
- CS6241 - Compiler Design (3 hours)
Fall 2009 (Tentative)
- CS6390 - Programming Language Design (3 hours)
- CS6550 - Design and Analysis of Algorithms (3 hours)
- CS8001INF - Information Security Seminar (1 hour)
- CSE8803BNF - Bioinformatics (3 hours)
- CSE6230 - High Performance Parallel Computing (3 hours)
- CS8001CAS - Computer Architecture Seminar (1 hour)
PhD Applications
- CS GRE Subject Test: 2009-10-10 at GSU
- Scores going to: GT, MIT, Harvard, UWaterloo, UWashington