There is strong interest in the development of dynamically reconfigurable systems that can meet real-time constraints in energy/power-performance-accuracy (EPA/PPA). In this dissertation, I introduce a framework for implementing dynamically reconfigurable digital signal, image, and video processing systems. The basic idea is to first generate a collection of Pareto-optimal realizations in the EPA/PPA space. Dynamic EPA/PPA management is then achieved by selecting the Pareto-optimal implementations that can meet the real-time constraints. The systems are then demonstrated using Dynamic Partial Reconfiguration (DPR) and dynamic frequency control on FPGAs. The framework is demonstrated on: i) a dynamic pixel processor, ii) a dynamical...
Given the widespread use of real-time multitasking systems, there are tremendous optimization opport...
Complexity management, portability and long term adaptivity are common challenges in different field...
Dynamic partial reconfiguration (DPR) allows us to adapt hardware resources to meet time-varying req...
There is strong interest in the development of dynamically reconfigurable systems that can meet real...
In the current information booming era, image and video consumption is ubiquitous. The associated i...
Digital video processing demands have and will continue to grow at unprecedented rates. Growth comes...
In the current information booming era, image and video consumption is ubiquitous. The associated im...
In various real-time applications, such as Computer Graphics, Virtual Reality, System Control, Digit...
Both computational performances and energy efficiency are required for the development of any mobile...
This paper exhaustively explores the potential energy efficiency improvements of Dynamic and Partial...
Both computational performances and energy efficiency are required for the development of any mobile...
Signal and image processing applications require a lot of computing resources. For low-volume applic...
High speed real time video processing puts a lot of demand on hardware and Field Programmable Gate A...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.We next apply the above findi...
DSP Application needs to speed-up in computation time can be achieved by assigning complex computati...
Given the widespread use of real-time multitasking systems, there are tremendous optimization opport...
Complexity management, portability and long term adaptivity are common challenges in different field...
Dynamic partial reconfiguration (DPR) allows us to adapt hardware resources to meet time-varying req...
There is strong interest in the development of dynamically reconfigurable systems that can meet real...
In the current information booming era, image and video consumption is ubiquitous. The associated i...
Digital video processing demands have and will continue to grow at unprecedented rates. Growth comes...
In the current information booming era, image and video consumption is ubiquitous. The associated im...
In various real-time applications, such as Computer Graphics, Virtual Reality, System Control, Digit...
Both computational performances and energy efficiency are required for the development of any mobile...
This paper exhaustively explores the potential energy efficiency improvements of Dynamic and Partial...
Both computational performances and energy efficiency are required for the development of any mobile...
Signal and image processing applications require a lot of computing resources. For low-volume applic...
High speed real time video processing puts a lot of demand on hardware and Field Programmable Gate A...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.We next apply the above findi...
DSP Application needs to speed-up in computation time can be achieved by assigning complex computati...
Given the widespread use of real-time multitasking systems, there are tremendous optimization opport...
Complexity management, portability and long term adaptivity are common challenges in different field...
Dynamic partial reconfiguration (DPR) allows us to adapt hardware resources to meet time-varying req...