General-purpose System-on-Chip platforms consisting of configurable components are emerging as an attractive alternative to traditional, customized solutions (e.g., ASICs, custom SoCs), owing to their flexibility, time-to-market advantage, and low engineering costs. However, the adoption of such platforms in many high-volume markets (e.g, wireless handhelds) is limited by concerns about their performance and energy-efficiency. This paper addresses the problem of enabling the use of configurable platforms in domains where custom approaches have traditionally been used. We introduce Dynamic Platform Management, a methodology for customizing a configurable general-purpose platform at run-time, to help bridge the performance and energy efficien...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Abstract: In an Multi-Processor system-on-Chip (MP-SoC) environment, a customized run-time managemen...
In recent years, the semiconductor industry has turned its focus towards heterogeneous multi-process...
Rapid advances in semiconductor technology have led to an era where entire systems, consisting of co...
The need for dynamic resource management has shadowed the exponential growth of on-chip transistor c...
The need for dynamic resource management has shadowed the exponential growth of on-chip transistor c...
Electronic equipments with higher performance, lower power consumption, and smaller size motivate th...
Reconfigurable computing combines the benefits of both software and reconfigurable hardware implemen...
Driven by increasingly aggressive CMOS technology scaling, sub-wavelength lithography is incurring m...
A main challenge in today's embedded system design is to find the perfect balance between performanc...
Application specific multi-processor systems-on-chip are currently designed by using platform-based ...
Many modern applications exhibit dynamic behavior, which can be exploited for reduced energy consump...
Embedded Multiprocessor Systems-on-Chip (MPSoCs) commonly run multiple applications at once. These a...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Abstract: In an Multi-Processor system-on-Chip (MP-SoC) environment, a customized run-time managemen...
In recent years, the semiconductor industry has turned its focus towards heterogeneous multi-process...
Rapid advances in semiconductor technology have led to an era where entire systems, consisting of co...
The need for dynamic resource management has shadowed the exponential growth of on-chip transistor c...
The need for dynamic resource management has shadowed the exponential growth of on-chip transistor c...
Electronic equipments with higher performance, lower power consumption, and smaller size motivate th...
Reconfigurable computing combines the benefits of both software and reconfigurable hardware implemen...
Driven by increasingly aggressive CMOS technology scaling, sub-wavelength lithography is incurring m...
A main challenge in today's embedded system design is to find the perfect balance between performanc...
Application specific multi-processor systems-on-chip are currently designed by using platform-based ...
Many modern applications exhibit dynamic behavior, which can be exploited for reduced energy consump...
Embedded Multiprocessor Systems-on-Chip (MPSoCs) commonly run multiple applications at once. These a...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Abstract: In an Multi-Processor system-on-Chip (MP-SoC) environment, a customized run-time managemen...
In recent years, the semiconductor industry has turned its focus towards heterogeneous multi-process...