Add to ORKGDelay minimization and power minimization are two important objectives in the design of the high-performance, portable, and wireless computing and communication systems. Retiming is a very effective way for delay optimization for sequential circuits. In this paper we propose a unified framework for multi-level partitioning and floorplanning with retiming, targeting simultaneous delay and power optimization. We first discuss the importance of retiming delay and visible power as opposed to the conventional static delay and total power for sequential circuits. Then we propose GEO-PD algorithm for simultaneous delay and power optimization and provide smooth cutsize, wirelength, power and delay tradeoff. In GEO-PD, we use retiming based timing a...
Retiming is a powerful optimization technique for synchronize sequential circuits that relocates del...
This work is a contribution to high level synthesis for low power systems. While device feature size...
Retiming is a powerful technique for optimizing sequential circuits. The transparent nature of level...
Delay and power minimization are two important objectives in the current circuit designs. Retiming i...
Delay minimization continues to be an important objective in the design of high-performance computin...
In this paper, we study the performance driven multiway circuit partitioning problem with considerat...
Abstract—In this paper, we formulate the physical planning with retiming problem and propose an algo...
In this paper, we study the performance driven multiw aycircuit partitioning problem with considera...
Retiming is a widely investigated technique for performance optimization. In general, it performs ex...
Delay and wirelength minimization continue to be important objectives in the design of high-performa...
This paper investigates the application of simultaneous retiming and clock scheduling for optimizing...
Abstract — Traditional multilevel partitioning approaches have shown good performance with respect t...
With the proliferation of mobile wireless communication and embedded systems, the energy efficiency ...
Traditional multilevel partitioning approaches have shown good performance with respect to cutsize, ...
Traditional multilevel partitioning approaches have shown good performance with respect to cutsize, ...
Retiming is a powerful optimization technique for synchronize sequential circuits that relocates del...
This work is a contribution to high level synthesis for low power systems. While device feature size...
Retiming is a powerful technique for optimizing sequential circuits. The transparent nature of level...
Delay and power minimization are two important objectives in the current circuit designs. Retiming i...
Delay minimization continues to be an important objective in the design of high-performance computin...
In this paper, we study the performance driven multiway circuit partitioning problem with considerat...
Abstract—In this paper, we formulate the physical planning with retiming problem and propose an algo...
In this paper, we study the performance driven multiw aycircuit partitioning problem with considera...
Retiming is a widely investigated technique for performance optimization. In general, it performs ex...
Delay and wirelength minimization continue to be important objectives in the design of high-performa...
This paper investigates the application of simultaneous retiming and clock scheduling for optimizing...
Abstract — Traditional multilevel partitioning approaches have shown good performance with respect t...
With the proliferation of mobile wireless communication and embedded systems, the energy efficiency ...
Traditional multilevel partitioning approaches have shown good performance with respect to cutsize, ...
Traditional multilevel partitioning approaches have shown good performance with respect to cutsize, ...
Retiming is a powerful optimization technique for synchronize sequential circuits that relocates del...
This work is a contribution to high level synthesis for low power systems. While device feature size...
Retiming is a powerful technique for optimizing sequential circuits. The transparent nature of level...