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Grad school: Difference between revisions
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* CS7000 - Masters Thesis (9 hours) | * CS7000 - Masters Thesis (9 hours) | ||
** '''with whom??''' ''professors: your name could be here!'' | ** '''with whom??''' ''professors: your name could be here!'' | ||
* Might instead go with some combination of: | |||
** lipton: MWF 1005-1055 (3) CS 6520 Computational Complexity | |||
** kim: MWF 1205-1255 (3) CS 4803 DGC Design of Game Consoles | |||
** giffin: MWF 1300-1400 (3) CS 8803 SS Software Security | |||
** seminar: F 1405-1455 (1) CSE 6001 Intro Comp Sci Eng | |||
** DR STAFF: MWF 1505-1555 (3) CS 4510 Automata and Complexity | |||
** biros: TR 1205-0125 (3) CSE 6220 High Performance Computing | |||
** seminar: R 1235-1400 (1) CS 8001 CAS CompArch Seminar | |||
** clark: TR 1505-1625 (3) CS 8803 DC Dynamic Compilation | |||
===GT College of Computing Notes=== | ===GT College of Computing Notes=== |
Revision as of 02:22, 31 October 2009
General notes
- Dianne O'Leary's "Graduate Study in the Computer and Mathematical Sciences: A Survival Manual" is pretty outstanding (aside from the God stuff, which you can take or leave). It's full of pithy gems like this (quoted from the 2009-08-21 version):
and:It is possible to spend almost all of your time in literature review and seminars. It is easy to convince yourself that by doing this you are working hard and accomplishing something. The truth of the matter is that nothing will come of it unless your are an active reader and listener and unless you assign yourself time to develop your own ideas, too. It is impossible to "finish a literature review and then start research". New literature is always appearing, and as your depth and breadth increases, you will continually see new connections and related areas that must be studied.
I can certainly vouch for this last.If you have a full or part-time job outside the university, you may feel that you are between two worlds, without belonging to either one. Neither the university nor the workplace is well adapted to dealing with the other, and each may place demands that are incompatible with those of the other. Your biggest problems may be the double commute, scheduling difficulties, and isolation.
PhD Applications
- General GRE: 2007-11-16
- Verbal: 680/800 (96th percentile) Quantitative: 800/800 (92nd percentile)
- CS GRE Subject Test: 2009-10-10 at GSU
- Score: arrives 2009-11
School (Program) | Application Deadline | Status | Fees |
---|---|---|---|
Carnegie Mellon (Computer Science) | Not started | ||
Georgia Tech (Computer Science) | GREs sent | $50 | |
Georgia Tech (Computational Science & Engineering) | GREs sent | $50 | |
Harvard (Computer Science) | 2009-12-15 | GREs sent | $105 |
UIUC (Computer Science) | Not started | ||
MIT (Computer Science) | GREs sent | ||
MIT (Computational Systems Biology) | GREs sent | ||
University of California at Berkeley (Computer Science) | Not started | ||
University of Washington (Computer Science) | GREs sent | ||
University of Waterloo (Computer Science) | GREs sent |
MSCS at the Georgia Institute of Technology
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 for, and implementation of, high-throughput/low-latency pattern matching
- for network security (wire-speed, low-latency, rich operators)
- and bioinformatics (high-volume, gappy/fuzzy, multidimensional)
- especially using architecture-aware automata theory (Memory-tuned, SIMD-based Glushkov, Thompson, XFA, etc...)
- intrusion detection and prevention (theory and implementation)
Upon entering MSCS in Fall 2008, I'd have said intrusion detection first, programming language design second, and esoteric automata theories third. Indeed, many things do come to pass.
I've prepared some Disarmingly Forthright Advice for CSMS students at this (as of 2009) 9th-ranked graduate computer science program of ours, and also some preparation materials for the CS Subject Exam GRE. Take these animadversions for whatever they're worth.
Fall 2008
- CS6262 - Network Security with Professor Wenke Lee (3 hours) (Information Security)
- CS6290 - High Performance Computer Architecture with Professor Hyesoon Kim (3 hours) (Systems)
- CS6260 - Applied Cryptography with Professor Sasha Boldyreva (3 hours) (Information Security)
Spring 2009
- CS8803MCA - Multicore and Manycore Architecture with Professor Tom Conte (3 hours) (Systems)
- CS7530 - Randomized Algorithms with Professor Richard Lipton (3 hours) (Theory)
- CS6238 - Secure Systems with Professor Mustaq Ahamed (3 hours) (Information Security)
- CS6241 - Compiler Design with Professor Santosh Pande (3 hours) (Systems)
Fall 2009
- CS6390 - Programming Language Design with Professor Spencer Rugaber (3 hours) (Programming Languages)
- CSE6230 - High Performance Parallel Computing with Professor Rich Vuduc (3 hours) (CSE)
- CSE6140 - Scientific Computing Algorithms with Professor David Bader (3 hours) (CSE)
- CS8001CAS - Computer Architecture Seminar with Professor Nate Clark (1 hour) (Systems)
- Teaching Assistant: CS6290 - High Performance Computer Architecture for Professor Milos Prvulovic
Spring 2010
- CS7000 - Masters Thesis (9 hours)
- with whom?? professors: your name could be here!
- Might instead go with some combination of:
- lipton: MWF 1005-1055 (3) CS 6520 Computational Complexity
- kim: MWF 1205-1255 (3) CS 4803 DGC Design of Game Consoles
- giffin: MWF 1300-1400 (3) CS 8803 SS Software Security
- seminar: F 1405-1455 (1) CSE 6001 Intro Comp Sci Eng
- DR STAFF: MWF 1505-1555 (3) CS 4510 Automata and Complexity
- biros: TR 1205-0125 (3) CSE 6220 High Performance Computing
- seminar: R 1235-1400 (1) CS 8001 CAS CompArch Seminar
- clark: TR 1505-1625 (3) CS 8803 DC Dynamic Compilation
GT College of Computing Notes
- OIT Pharos is now used for printing.
- The Library has a Computer Science Research page
- TSO's page on the Hogwarts Cluster