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2017
Doctoral Thesis
Title
FieldPlacer - A flexible, fast and unconstrained force-directed placement method for heterogeneous reconfigurable logic architectures
Abstract
This work presents the FieldPlacer framework, a flexible, fast and unconstrained force-directed placement method for heterogeneous reconfigurable logic architectures, in particular for the ever important heterogeneous FPGAs. In contrast to many other force-directed placers, this approach is called 'unconstrained' as it does not require a priori fixed logic elements in order to calculate a force equilibrium as the solution to a system of equations. Instead, it is based on a free spring embedder simulation of a graph representation which includes all logic block types of a design simultaneously. The FieldPlacer framework offers a huge amount of flexibility in applying different distance norms (e. g., the Manhattan distance) for the force-directed layout and aims at creating adapted layouts for various objective functions, e. g., highest performance or improved routability. Depending on the individual situation, a runtime-quality trade-off can be considered to either produce a decent placement in a very short time or to generate an exceptionally good placement, which takes longer.
Thesis Note
Zugl.: Köln, Univ., Diss., 2016
Language
English
Keyword(s)
computer architecture & logic design
combinatorics & graph theory
algorithms & data structures
Integrierte Schaltungen und Komponenten
Computerarchitektur
Logikdesign
Kombinatorik
Graphentheorie
Algorithmen und Datenstrukturen
Rekonfigurierbare Logik-Architektur
Hardware-Architektur
Informatiker
Schaltkreis-Entwickler
Compiler-Entwickler
Programmierer
Elektrotechniker