Past Students Kanishka Lahiri PhD '03 Publications Battery Life Estimation for Mobile Embedded Systems Battery-Driven System Design: A New Frontier in Low Power Design Battery-Efficient Architecture for an 802.11 MAC Processor Communication Architecture Based Power Management for Battery-Efficient System Design Communication Architecture Tuners: A Methodology for the Design of High-Performance Communication Architectures for System-on-Chip Communication Based Power Management Configurable Platforms With Dynamic Platform Management: An Efficient Alternative to Application-Specific System-on-Chips Considering Process Variations during System Level Power Analysis Design of Communication Architectures for High-Performance and Energy-Efficient System-on-Chips Design of High-Performance System-on-Chips using Communication Architecture Tuners Design Space Exploration for Optimizing On-Chip Communication Architectures Dynamic Platform Management for Configurable Platform-Based System-on-Chips Dynamically configurable bus topologies for high-performance on-chip communication Efficient Exploration of the SoC Communication Architecture Design Space Efficient Power Profiling for Battery-Driven Embedded System Design Evaluation of the Traffic-Performance Characteristics of System-on-Chip Communication Architectures Fast Performance Analysis of Bus-based System-on-Chip Communication Architectures Fast System-Level Power Profiling for Battery-Efficient System Design FLEXBUS: A High Performance System-on-Chip Communication Architecture with a Dynamically Configurable Topology Integrated Data Relocation and Bus Reconfiguration for Adaptive SoC Platforms LOTTERYBUS: A New High-Performance Communication Architecture for System-on-Chip Designs Performance Analysis of Systems with Multi-Channel Communication Architectures System-Level Performance Analysis for Designing On-Chip Communication Architectures System-on-chip Power Management Considering Leakage Process Variations Variation-aware System-level Power Analysis Variation-Tolerant Dynamic Power Management at the System-Level
