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High Performance Integer Arithmetic Circuit Design on FPGA / Ayan Palchaudhur
Titre : High Performance Integer Arithmetic Circuit Design on FPGA : Architecture, Implementation and Design Automation Type de document : texte imprimé Auteurs : Ayan Palchaudhur, Auteur ; Rajat Subhra Chakraborty, Auteur Editeur : Berlin : Springer Collection : Springer Series in Advanced Microelectronics Importance : 114 p Format : 24 x15 cm ISBN/ISSN/EAN : 978-81-322-2520-1 Note générale : Architecture of Target FPGA Platform.
A Fabric Component based Design Approach for High Performance Integer Arithmetic Circuits.
Architecture of Data path Circuits.
Architecture of Control path Circuits.
Compact FPGA Implementation of Linear Cellular Automata.
Design Automation and Case Studies.
Conclusions and Future Work.
L'accès complet à la ressource est réservé aux usagers des établissements qui en ont fait l'acquisition.
Nécessite un lecteur de fichier PDFLangues : Français (fre) Résumé : This book describes the optimized implementations of several arithmetic datapath, controlpath and pseudorandom sequence generator circuits for realization of high performance arithmetic circuits targeted towards a specific family of the high-end Field Programmable Gate Arrays (FPGAs). It explores regular, modular, cascadable, and bit-sliced architectures of these circuits, by directly instantiating the target FPGA-specific primitives in the HDL. Every proposed architecture is justified with detailed mathematical analyses. Simultaneously, constrained placement of the circuit building blocks is performed, by placing the logically related hardware primitives in close proximity to one another by supplying relevant placement constraints in the Xilinx proprietary ªUser Constraints Fileº. The book covers the implementation of a GUI-based CAD tool named FlexiCore integrated with the Xilinx Integrated Software Environment (ISE) for design automation of platform-specific high-performance arithmetic circuits from user-level specifications. This tool has been used to implement the proposed circuits, as well as hardware implementations of integer arithmetic algorithms where several of the proposed circuits are used as building blocks. Implementation results demonstrate higher performance and superior operand-width scalability for the proposed circuits, with respect to implementations derived through other existing approaches. This book will prove useful to researchers, students, and professionals engaged in the domain of FPGA circuit optimization and implementation Note de contenu : Engineering
Logic design
Electronics
Systems engineering
Circuits and Systems
Electronics and Microelectronics, Instrumentation
Logic DesignHigh Performance Integer Arithmetic Circuit Design on FPGA : Architecture, Implementation and Design Automation [texte imprimé] / Ayan Palchaudhur, Auteur ; Rajat Subhra Chakraborty, Auteur . - Berlin : Springer, [s.d.] . - 114 p ; 24 x15 cm. - (Springer Series in Advanced Microelectronics) .
ISBN : 978-81-322-2520-1
Architecture of Target FPGA Platform.
A Fabric Component based Design Approach for High Performance Integer Arithmetic Circuits.
Architecture of Data path Circuits.
Architecture of Control path Circuits.
Compact FPGA Implementation of Linear Cellular Automata.
Design Automation and Case Studies.
Conclusions and Future Work.
L'accès complet à la ressource est réservé aux usagers des établissements qui en ont fait l'acquisition.
Nécessite un lecteur de fichier PDF
Langues : Français (fre)
Résumé : This book describes the optimized implementations of several arithmetic datapath, controlpath and pseudorandom sequence generator circuits for realization of high performance arithmetic circuits targeted towards a specific family of the high-end Field Programmable Gate Arrays (FPGAs). It explores regular, modular, cascadable, and bit-sliced architectures of these circuits, by directly instantiating the target FPGA-specific primitives in the HDL. Every proposed architecture is justified with detailed mathematical analyses. Simultaneously, constrained placement of the circuit building blocks is performed, by placing the logically related hardware primitives in close proximity to one another by supplying relevant placement constraints in the Xilinx proprietary ªUser Constraints Fileº. The book covers the implementation of a GUI-based CAD tool named FlexiCore integrated with the Xilinx Integrated Software Environment (ISE) for design automation of platform-specific high-performance arithmetic circuits from user-level specifications. This tool has been used to implement the proposed circuits, as well as hardware implementations of integer arithmetic algorithms where several of the proposed circuits are used as building blocks. Implementation results demonstrate higher performance and superior operand-width scalability for the proposed circuits, with respect to implementations derived through other existing approaches. This book will prove useful to researchers, students, and professionals engaged in the domain of FPGA circuit optimization and implementation Note de contenu : Engineering
Logic design
Electronics
Systems engineering
Circuits and Systems
Electronics and Microelectronics, Instrumentation
Logic DesignExemplaires (1)
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