A unified platform for design and verification of mixed-signal systems based on SystemC AMS

A unified platform for design and verification of mixed-signal systems based on SystemC AMS

This paper presents a unified platform for design and verification of mixed-signal systems based on the SystemC AMS standard. The platform relies on a top-down design methodology. In this methodology, several hierarchical abstraction views of the system are considered. These abstraction levels are:...

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Bibliographische Detailangaben
Hauptverfasser: Yao Li, Iskander, R., Javid, F., Louerat, M-M
Format: Tagungsbericht
Sprache:eng
Schlagworte:
circuit level design
Computational modeling
Design methodology
Engines
Integrated circuit modeling
macromodel
mixed signal design
Pipelines
system level design
SystemC AMS
Transistors
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Beschreibung
Zusammenfassung:This paper presents a unified platform for design and verification of mixed-signal systems based on the SystemC AMS standard. The platform relies on a top-down design methodology. In this methodology, several hierarchical abstraction views of the system are considered. These abstraction levels are: system, functional, macromodel and circuit levels. We introduce a simple and efficient method to implement an interface between system level models and their circuit level realizations. Simulation tools such as SystemC AMS and Spice simulators are combined with a sizing tool such as CHAMS, in order to achieve a unified and standard design environment. Moreover, a transient simulation method is proposed to simulate nonlinear dynamic behavior of complete mixed-signal systems. The unified platform is used to design and verify a pipeline ADC. The simulations results prove the effectiveness of the proposed methodology.
ISSN:1636-9874