This work studies the optimality and stability of timing-driven placement algorithms. The contributions of this work include two parts: 1) We develop an algorithm for generating synthetic examples with known optimal delay for timing driven placement (T-PEKO). The examples generated by our algorithm can closely match the characteristics of real circuits. 2) Using these synthetic examples with known optimal solutions, we studied the optimality of several timing-driven placement algorithms for FPGAs by comparing their solutions with the optimal solutions, and their stability by varying the number of longest paths in the examples. Our study shows that with a single longest path, the delay produced by these algorithms is from 10% to 18% longer t...
We present an algorithm for accurately controlling delays during the placement of large standard cel...
At the 250nm technology node, interconnect delays account for over 40 % of worst delays [12]. Transi...
[[abstract]]We survey recent development in placement technology for VLSI layout. In the very deep s...
In this paper we introduce a new Simulated Annealing-based timing-driven placement algorithm for FPG...
Placement is one of the most important steps in physical design for VLSI circuits. For field program...
In this paper we propose a partitioning-based placement algorithm for FPGAs. The method incorporates...
In this thesis, we address timing-constrained placement and routing in symmetrical field-programmabl...
Abstract. Traditional placement algorithms for FPGAs are normally carried out on a fixed clustering ...
Field-programmable gate arrays (FPGAs) allow circuit designers to perform quick prototyping and deve...
One of the major drawbacks of reprogrammable microchips, such as field-programmable gate arrays (FPG...
We study several optimization problems that arise in the design of VLSI circuits, with the satisfact...
[[abstract]]We combine technology mapping and placement into a single procedure, M.map, for the desi...
The idea of introducing dedicated, fast paths between certain FPGA elements in order to reduce delay...
In recent years, the drastically enhanced architecture and capacity of Field-Programmable Gate Array...
In this paper we discuss new techniques for timing-driven placement and adaptive delay computation f...
We present an algorithm for accurately controlling delays during the placement of large standard cel...
At the 250nm technology node, interconnect delays account for over 40 % of worst delays [12]. Transi...
[[abstract]]We survey recent development in placement technology for VLSI layout. In the very deep s...
In this paper we introduce a new Simulated Annealing-based timing-driven placement algorithm for FPG...
Placement is one of the most important steps in physical design for VLSI circuits. For field program...
In this paper we propose a partitioning-based placement algorithm for FPGAs. The method incorporates...
In this thesis, we address timing-constrained placement and routing in symmetrical field-programmabl...
Abstract. Traditional placement algorithms for FPGAs are normally carried out on a fixed clustering ...
Field-programmable gate arrays (FPGAs) allow circuit designers to perform quick prototyping and deve...
One of the major drawbacks of reprogrammable microchips, such as field-programmable gate arrays (FPG...
We study several optimization problems that arise in the design of VLSI circuits, with the satisfact...
[[abstract]]We combine technology mapping and placement into a single procedure, M.map, for the desi...
The idea of introducing dedicated, fast paths between certain FPGA elements in order to reduce delay...
In recent years, the drastically enhanced architecture and capacity of Field-Programmable Gate Array...
In this paper we discuss new techniques for timing-driven placement and adaptive delay computation f...
We present an algorithm for accurately controlling delays during the placement of large standard cel...
At the 250nm technology node, interconnect delays account for over 40 % of worst delays [12]. Transi...
[[abstract]]We survey recent development in placement technology for VLSI layout. In the very deep s...