VHDL-based design and design methodology for reusable high performance direct digital requency synthesizers

Design methodologies for high performance Direct Digital Fre-quen--cy Synthesizers (DDFS) are described. Traditional look-up tab-les (LUT) for sine and co-sine are merged with CORDIC-inter-po---la--tion into a hybrid architecture. This implements DDFS-sys-tems with high resolution without being spec...

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Hauptverfasser:	Janiszewski, Ireneusz, Hoppe, Bernhard, Meuth, Hermann
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Applied computing > Physical sciences and engineering > Electronics Applied computing > Physical sciences and engineering > Engineering Hardware > Electronic design automation > Hardware description languages and compilation Hardware > Hardware validation > Functional verification > Simulation and emulation Hardware > Robustness
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creator	Janiszewski, Ireneusz Hoppe, Bernhard Meuth, Hermann
description	Design methodologies for high performance Direct Digital Fre-quen--cy Synthesizers (DDFS) are described. Traditional look-up tab-les (LUT) for sine and co-sine are merged with CORDIC-inter-po---la--tion into a hybrid architecture. This implements DDFS-sys-tems with high resolution without being specific to a particular tar-get technology. Amplitude constants were obtained from ma-the-matical trigonometric functions of the IEEE math_real pack-age. These constants were then written via simulation of a VHDL model into a fully synthesizable package. Systematic and detailed studies varying the synthesizers inherent parameters lead to a design optimum of the LUT/CORDIC-ra-tio, which mini-mizes power and silicon area for a given clock frequency.
doi_str_mv	10.1145/378239.379026
format	Conference Proceeding
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identifier	ISBN: 1581132972
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Applied computing -- Physical sciences and engineering -- Electronics Applied computing -- Physical sciences and engineering -- Engineering Hardware -- Electronic design automation -- Hardware description languages and compilation Hardware -- Hardware validation -- Functional verification -- Simulation and emulation Hardware -- Robustness
title	VHDL-based design and design methodology for reusable high performance direct digital requency synthesizers
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