| First Name |
Last Name |
Faculty Name |
Research Area |
Project Title |
Detail |
| Greg |
Balls |
Scott Baden |
Large-scale Computing |
Tarragon |
detail |
| Scott |
Baden |
Self |
Large-scale Computing |
Asynchronous, data driven computation |
detail |
| David |
Kauchak |
Charles Elkan |
Artifical Intelligence |
Improving MT |
detail |
| Yang-suk |
Kee |
Andrew A. Chien |
Large-scale Computing |
VGrADS |
detail |
| Eric |
Weigle |
Andrew Chien |
Large-scale Computing |
Composite Endpoint Protocol |
detail |
| Ryan |
Wu |
Andrew Chien |
Large-scale Computing |
GTP: Group Transport Protocol |
detail |
| Huaxia |
Xia |
Andrew Chien |
Large-scale Computing |
RobuSTore Storage Architecture |
detail |
| Richard |
Huang |
Andrew Chien |
Large-scale Computing |
VGrADS |
detail |
| Jing |
Zhu |
|
Large-scale Computing |
Microgrid |
detail |
| Justin |
Burke |
Andrew Chien |
Large-scale Computing |
Optiputer |
detail |
| Nut |
Taesombut |
Andrew A. Chien |
Large-scale Computing |
Distributed Virtual Computer, part of the OptIPute |
detail |
| Derrick |
Kondo |
Henri Casanova |
Large-scale Computing |
Desktop grid simulation |
detail |
| Haikun |
Zhu |
Chung-Kuan Cheng |
VLSI/CAD (Computer-Aided Design) |
High performance, low power barrel shifter with fo |
detail |
| Pietro |
Cicotti |
Scott Baden |
Large-scale Computing |
Asynchronous, data driven computation |
detail |
| Jongwoo |
Lim |
David Kriegman |
Computer Graphics and Computer Vision |
Data Clustering |
detail |
| Neil |
Jones |
Pavel Pevzner |
Bioinformatics |
Identifying repeats in mammalian genomes |
detail |
| Matthew |
Wytock |
Vineet Bafna |
Bioinformatics |
InsPecT |
detail |
| Mark |
Chaisson |
Pavel Pevzner |
Bioinformatics |
Whole genome alignment |
detail |
| Noah |
Zaitlen |
Eleazar Eskin |
Bioinformatics |
Hap |
detail |
| Nuno |
Bandeira |
Pavel Pevzner |
Bioinformatics |
Shotgun Protein Assembly |
detail |
| Ali |
Bashir |
Vineet Bafna and Pavel Pevzner |
Bioinformatics |
Ancient Repeat Detection |
detail |
| Sherief |
Reda |
Andrew Kahng |
VLSI/CAD (Computer-Aided Design) |
vlsicad |
detail |
| Qinke |
Wang |
Andrew B. Kahng |
VLSI/CAD (Computer-Aided Design) |
APlace |
detail |
| Luis |
Rivera |
Andrew Chien |
Large-scale Computing |
Reliable Middleware for Agile Applications |
detail |
| Swamy |
Muddu |
Prof. Andrew B. Kahng |
VLSI/CAD (Computer-Aided Design) |
Characterization of Optical Proximity Correction P |
detail |
| Jacob |
Sorensen |
Scott Baden |
Large-scale Computing |
Asynchronous data-driven execution of parallel pro |
detail |
| Banu |
Dost |
Vineet Bafna |
Bioinformatics |
Qnet: A tool for querying Biological Networks |
detail |
| Nitin |
Gupta |
Pavel Pevzner |
Bioinformatics |
Shotgun Proteomics through Mass Spectrometry |
detail |
| Minjian |
Liu |
Yuan Tuar |
VLSI/CAD (Computer-Aided Design) |
CMOS modeling |
detail |
| Ayse |
Coskun |
Brad Calder |
Computer Architecture and Compilers |
Fault Tolerance Through Selective Instruction Redu |
detail |
| Sam |
Payne |
Vineet Bafna |
Bioinformatics |
Dictyostelium Mass Spec |
detail |
| Ari |
Frank |
Pavel Pevzner |
Bioinformatics |
Analysis of large mass spectrometry datasets |
detail |
| Arnaud |
Legrand |
Henri Casanova |
Large-scale Computing |
Simulation of Divisible Load Scheduling Algorithms |
detail |
| Matt |
DeVuyst |
Dean Tullsen |
Computer Architecture and Compilers |
CMP of SMT core Scheduling |
detail |
| Rich |
Wolski |
Me |
Large-scale Computing |
VGrADS |
detail |
| Daniel |
Nurmi |
Rich Wolski |
Large-scale Computing |
Batch Queue Prediction Methods, VGrADS |
detail |
| Neil |
Alldrin |
David Kriegman |
Computer Graphics and Computer Vision |
Frequency Domain BRDF Estimation |
detail |
| Satish |
Narayanasamy |
Brad Calder |
Computer Architecture and Compilers |
BugNet: Deterministically Replay Debugging |
detail |
| Dionysios |
Logothetis |
Andrew A. Chien |
Large-scale Computing |
VGrADS |
detail |
| Stephen |
Tanner |
Vineet Bafna |
Bioinformatics |
InsPecT |
detail |
| Shaojie |
Zhang |
Vineet Bafna |
Bioinformatics |
ncRNA genes finding from large genomic data |
detail |
| Yang |
Yang |
Henri Casanova |
Large-scale Computing |
APSTDV |
detail |
| Raymond |
Brown |
Pavel Pevzner |
Bioinformatics |
High Throughput Phosphoproteomics |
detail |
| Faisal |
Mir |
Scott B Baden |
Large-scale Computing |
Services for adaptive storage of large scale data |
detail |
| Vikas |
Bansal |
Prof. Pavel Pevzner |
Bioinformatics |
De Novo identification of Repeats in Genomes |
detail |
| Ben |
Raphael |
Pavel Pevzner |
Bioinformatics |
Tumor Genome Architectures |
detail |
| Hyunmin |
Kang |
Eleazar Eskin |
Bioinformatics |
HAP |
detail |
| yoav |
freund |
yoav freund |
Bioinformatics |
Protein Motif Mapping |
detail |
| Eugene |
Ie |
Yoav Freund |
Bioinformatics |
Protein Motif Mapping |
detail |
| Qian |
Peng |
Pavel Pevzner |
Bioinformatics |
comparative genomics of plants |
detail |
| Michael |
McCracken |
Jeanne Ferrante |
Computer Architecture and Compilers |
LENS Program Investigation Framework |
detail |
| Timothy |
Sohn |
Bill Griswold |
Artificial Intelligence |
Activity Recognition using GSM Traces |
detail |
| Jeffrey |
Namkung |
Rajesh Gupta |
Embedded Systems and Software |
Efficient MPSoC simulation |
detail |
| Jeff |
Wang |
Vineet Bafna |
Bioinformatics |
FastR |
detail |
| Patricia |
Shanahan |
Bill Griswold |
Software Engineering |
Place Capability Estimation |
detail |
| Sorin |
Lerner |
Sorin Lerner |
Software Engineering |
Linux Package Installer |
detail |
| Honghao |
Shan |
Garrison W. Cottrell |
Artificial Intelligence |
natural image statistics |
detail |
| Fei |
Sha |
Lawrence K. Saul |
Artificial Intelligence |
Large margin GMM for speech recognition |
detail |
| Eleazar |
Eskin |
Eleazar Eskin |
Bioinformatics |
HAP |
detail |
| Geoff |
Hulette |
Sorin Lerner |
Software Engineering |
Learning to fix bugs automatically |
detail |
| Carolina |
Galleguillos |
Serge Belongie |
Computer Graphics and Computer Vision |
Grocery Shopping Assistant for the Blind |
detail |
| Garo |
Bournoutian |
Alex Orailoglu |
Computer Architecture and Compilers |
Matlab simulations for ECE 270A |
detail |
| Lawrence |
Cayton |
Sanjoy Dasgupta |
Artificial Intelligence |
A learning framework for fast nearest-neighbor sea |
detail |
| Sriram |
Ramabhadran |
Joe Pasquale |
Systems and Networking |
Simulation of Stochastic Models of Replicated Syst |
detail |
| Julio |
Ng |
Pavel Pevzner |
Bioinformatics |
Validation of Inspect Results |
detail |
| Kirill |
Levchenko |
Stefan Savage |
Systems and Networking |
Forwarding Network Simulator |
detail |
| Andrew |
Rabinovich |
Serge Belongie |
Computer Graphics and Computer Vision |
Object Categorization |
detail |
| Michael |
Sanders |
Eleazar Eskin |
Bioinformatics |
HAP |
detail |
| Jan |
Voung |
Ranjit Jhala and Sorin Lerner |
Computer Architecture and Compilers |
Modular Detection of Data Races |
detail |
| Craig |
Donner |
Henrik Wann Jensen |
Computer Graphics and Computer Vision |
Transport operators for Subsurface Scattering |
detail |
| Henrik |
Jensen |
Henrik Wann Jensen |
Computer Graphics and Computer Vision |
Monte Carlo Ray Tracing |
detail |
| Vijay |
Chellappa |
Geoffrey M Voelker |
Systems and Networking |
Video coding for wireless networks |
detail |
| Rajashekhar |
Sridharan |
Pavel Pevzner |
Bioinformatics |
Bioinformatics Inspect Grid Portal |
detail |
| Noah |
Zaitlen |
Eleazar Eskin |
Bioinformatics |
HAP |
detail |
| Wojciech |
Jarosz |
Henrik Wann Jensen |
Computer Graphics and Computer Vision |
Participating Media |
detail |
| Chris |
Fleizach |
Geoff Voelker |
Systems and Networking |
Mobile Phone Malware Simulator |
detail |
| Natalie |
Castellana |
Vineet Bafna |
Bioinformatics |
Gene Annotation with Mass Spectrometry |
detail |
| Sangtae |
Kim |
Paver Pevzner |
Bioinformatics |
Partition Functions of MS/MS spectra |
detail |
| Daniel |
Hsu |
Sanjoy Dasgupta |
Artificial Intelligence |
Experiments in active and semi-supervised learning |
detail |
| Vincent |
Rabaud |
Serge Belongie |
Computer Graphics and Computer Vision |
Learning to Traverse Image Manifolds |
detail |
| Richard |
Strong |
Dean Tullsen |
Computer Architecture and Compilers |
Branch Predictors for Heterogenenous SMT Design |
detail |
| Claudiu |
Farcas |
Ingolf Krueger |
Bioinformatics |
Proteomics |
detail |
| Margaret |
Yau |
Vineet Bafna |
Bioinformatics |
Plant response to M. incognita infection |
detail |
| Terry |
Lam |
Amin Vahdat |
Systems and Networking |
Releastic Network Topologies |
detail |
| VASILEIOS |
KONTORINIS |
DEAN TULLSEN |
Computer Architecture and Compilers |
THREAD SYNCHRONIZATION PREDICTION |
detail |
| John |
Sampson |
Steven Swanson |
Computer Architecture and Compilers |
Characterizing Performance Critical Transactional |
detail |
| Michael |
Taylor |
Michael Taylor |
Computer Architecture and Compilers |
Parallel VLSI Architecture Synthesis |
detail |
| Tingfan |
Wu |
Lawrence Saul |
Artificial Intelligence |
Hirarchical Mixture of Model |
detail |
| D.J. |
Capelis |
Dean Tullsen |
Computer Architecture and Compilers |
Secure Branching |
detail |
| Anshuman |
Gupta |
Michael Taylor |
Computer Architecture and Compilers |
Parallel VLSI Architecture Synthesis |
detail |
| Donghwan |
Jeon |
Michael Taylor |
Computer Architecture and Compilers |
On-Chip Network Architecture Design |
detail |
| Youngmin |
Cho |
Lawrence Saul |
Artificial Intelligence |
Visual Object Recognition |
detail |
| Jeff |
Brown |
Dean Tullsen |
Computer Architecture and Compilers |
Hierarchical scheduling for chip multiprocessors |
detail |
| Leo |
Porter |
Dean Tullsen |
Computer Architecture and Compilers |
Leveraging Transactional Memory for CMP performanc |
detail |
| He |
Peng |
Chung-Kuan Cheng |
VLSI/CAD (Computer-Aided Design) |
Parallel Circuit Simulation |
detail |
| Maulin |
Patel |
Chung-Kuan Cheng |
VLSI/CAD (Computer-Aided Design) |
Optimized Adder Circuit |
detail |
| Phil |
Bouchard |
Pavel Pevzner |
Bioinformatics |
Comparative Shotgun Protein Sequencing |
detail |
| Seungjin |
Na |
Pavel Pevzner |
Bioinformatics |
Blind modification search |
detail |
| Diana |
Fang |
Tajana Simunic Rosing |
Embedded Systems and Software |
Task Binding for Wireless Healthcare Systems |
detail |
| Joshua |
Darnell |
Pavel Pevzner |
Bioinformatics |
CSPS |
detail |
| Kevin |
Zhao |
Alin Deutsch |
Databases and Information Management |
Parallel Anonymization |
detail |
| Evan |
Ettinger |
Yoav Freund |
Artificial Intelligence |
Experiments with RobustBoost |
detail |
| Lingyun |
Zhang |
Garrison W. Cottrell |
Artificial Intelligence |
Natural video statistic |
detail |
| Kamalika |
Chaudhuri |
Alon Orlitsky/ Sanjoy Dasgupta |
Artificial Intelligence |
Privacy-preserving machine learning |
detail |
| Boris |
Babenko |
Serge Belongie |
Computer Graphics and Computer Vision |
Embedding Doctrine |
detail |
| Brian |
McFee |
Gert Lanckriet |
Artificial Intelligence |
Multi-kernel metric learning |
detail |
| Elio |
Damaggio |
Alin Deutsch |
Databases and Information Management |
Web Service Discovery |
detail |
| Steven |
Branson |
Serge Belongie |
Computer Graphics and Computer Vision |
Data Driven Object Recognition |
detail |
| Shibin |
Parameswaran |
Lawerence Saul |
Artificial Intelligence |
Robust Word Recoginition |
detail |
| Anand |
Patel |
Vineet Bafna |
Bioinformatics |
Proteome-Wide Search of Phosphopantetheine Modifie |
detail |
| Justin |
Ma |
Stefan Savage, Geoff Voelker, Lawrence Saul |
Systems and Networking |
URL Reputation |
detail |
| MarĂa del Mar |
Abad Grau |
Vineet Bafna |
Bioinformatics |
Detecting association in nuclear families by using |
detail |
| Omer |
Lang |
Gert Lanckriet |
Artificial Intelligence |
Metric Learning for Nearest Neighbor Classificatio |
detail |
| Neelmani |
Kumar |
Prof. Andrew Kahng |
VLSI/CAD (Computer-Aided Design) |
System-on-Chip Implementation Flow Characterizatio |
detail |
| Shervin |
Sharifi |
Tajana Simunic Rosing |
Embedded Systems and Software |
Thermal Management in Heterogeneous Chip Multiproc |
detail |
| Andreas |
Pitsillidis |
Stefan Savage |
Security and Cryptography |
RegExGen |
detail |
| Xiang |
Hu |
CK Cheng |
VLSI/CAD (Computer-Aided Design) |
Parallel power distribution network simulation |
detail |
| Wanping |
Zhang |
CK Cheng |
VLSI/CAD (Computer-Aided Design) |
circuit simulation |
detail |
| Chih-Chieh |
Cheng |
Lawrence Saul |
Artificial Intelligence |
Feature selection in Large margin classifier |
detail |
| Kai |
Wang |
Serge Belongie |
Computer Graphics and Computer Vision |
CSE 291 Project |
detail |
| Amirali |
Shayan |
Chung-Kuan Cheng |
VLSI/CAD (Computer-Aided Design) |
Power Distribution Network Analysis |
detail |
| Kuang-Ying |
Hsi |
Vineet Bafna |
Bioinformatics |
Qstar Mass Spec |
detail |
| Roy |
Liu |
Yoav Freund |
Artificial Intelligence |
MicroCrystals |
detail |
| Steven |
Swanson |
Steven Swanson |
Computer Architecture and Compilers |
Arsenal |
detail |
| Jiahua |
He |
Allan Snavely |
Large-scale Computing |
Performance Evaluation and Analysis |
detail |
| Matus |
Telgarsky |
Sanjoy Dasgupta |
Artificial Intelligence |
mtelgars |
detail |
| Kevin |
Li |
Bill Griswold |
Software Engineering |
Mobile Phone Proximity Deteection |
detail |
| Stefano |
Bonissone |
Prof. Pevzner |
Bioinformatics |
Brain mass-spectrometry peptide searches |
detail |
| Marios |
Papas |
Henrik Wann Jensen |
Computer Graphics and Computer Vision |
Measuring and Modelling the appearance of Paper |
detail |
| Binal |
Patel |
Vineet Bafna |
Bioinformatics |
Database search of peptides by training of spectra |
detail |
| Gaurav |
Bhatia |
Vineet Bafna |
Bioinformatics |
Rare Variant Analysis for Common Diseases |
detail |
| Rohit |
Sunkam Ramanujam |
Bill Lin |
VLSI/CAD (Computer-Aided Design) |
Trace Driven Optimization of Application Specific |
detail |
| Kambiz |
Samadi |
Andrew B. Kahng |
VLSI/CAD (Computer-Aided Design) |
Trace-Driven NoC Optimization |
detail |
| Emanuele |
Coviello |
Gert Lanckriet |
Artificial Intelligence |
HEM DT for musics and video clustering |
detail |
| Riccardo |
Miotto |
Gert Lanckriet |
Artificial Intelligence |
Using Context to Improve Music Classification |
detail |
