| Anastassia Ailamaki | Object-relational database systems, computer architecture, database performance evaluation |
| Randy Bryant | Digital system simulation and verification |
| Eric Cooper | High-performance networking |
| Scott Fahlman | Mobile agents, software development environments, artificial neural nets, high-performance processing of biomedical image |
| Christos Faloutsos | Multimedia databases, data mining, medical databases, search |
| Babak Falsafi | Computer architecture, multiprocessors, speculative architectures, power-aware systems, memory systems |
| Allan Fisher | High performance networking, ATM, gender issues in computer science education |
| Greg Ganger | Operating systems, security, storage systems, distributed systems, networking, MEMS-based storage systems |
| Phil Gibbons | Internet-scale sensor networks, databases, data mining, machine learning |
| Garth Gibson | Parallel file systems, aggressive prefetching in file systems, I/O-intensive parallel applications, network-attached storage, redundant arrays of independent disks |
| Reconfigurable computing, compilers, high-level architectures for reconfigurability, nanotechnology | |
| Mor Harchol-Balter | Performance modelling, high-performance web servers, distributed web servers, routers, network connection scheduling, supercomputers |
| Alex Hills | Telecommunications policy, wireless telecommunications technology, remote and rural telecommunications systems |
| James Hoe | Computer architecture, hardware synthesis, cluster computing, network interfaces |
| Hyong Kim | Computer networks, advanced switch architectures, high-speed networks |
| Philip Koopman | Robust distributed embedded systems, computer architecture, methodical system design |
| Diana Marculescu | VLSI/computer architecture, energy aware computing |
| Roy Maxion | Computer dependability and security; information warfare; intrusion detection; system diagnosis |
| Todd Mowry | Computer architecture, compilers, operating systems, parallel processing |
| David Nagle | Storage networking, network-attached storage, MEMS-based storage systems |
| Priya Narasimhan | Fault tolerance, security, middleware, distributed systems |
| Andreas Nowatzyk | High performance computer architecture and parallel processing |
| Dave O'Hallaron | High-performance distributed computing, Internet services |
| Adrian Perrig | Information and systems security, focusing on network security (Internet, mobile computing, and sensor networks) |
| Raj Rajkumar | Real-time and multimedia operating systems, multimedia quality of service, dependable real-time systems |
| Mike Reiter | Computer security, distributed computing, applied cryptography |
| M. Satyanarayanan | Mobile and ubiquitous computing, distributed file systems, operating systems, networking, measurement and evaluation |
| Herman Schmidt | Reconfigurable computing, low-power design |
| Srinivasan Seshan | High-performance networking, wireless networks |
| Dawn Song | Computer and networking security, operating systems security, software security, cryptography, database security, networking, algorithms |
| Asim Smailagic | Wearable computers, mobile computing, reliable computing, audio and visual interfaces to computers |
| Dan Siewiorek | Wearable computers, fault-tolerant computing, reliable computing |
| Peter Steenkiste | Network support for electronic services, network quality of service, high performance networking, distributed computing |
| Howard Wactlar | Information retrieval systems, multimedia systems, digital libraries, speech/image/language understanding systems, distributed systems |
| Chenxi Wang | Security in distributed systems, publish-subscribe systems, Secure distributed file systems, system survivability |
| Jeannette Wing | Distributed systems, fault-tolerance, security, transactions, programming languages, applied formal methods. |
| Hui Zhang | Integrated services computer networks and multimedia systems. |
Last updated by Satya on 05/17/2003