SystemC AMS based frameworks for virtual prototyping of heterogeneous systems
F Pêcheux, C Grimm, T Maehne… - … on Circuits and …, 2018 - ieeexplore.ieee.org
F Pêcheux, C Grimm, T Maehne, M Barnasconi, K Einwich
2018 IEEE International Symposium on Circuits and Systems (ISCAS), 2018•ieeexplore.ieee.orgThis paper presents the past, present, and perspectives of the SystemC AMS standard as
well as several commercial and academic frameworks gravitating around it that have been
used to develop use cases in various cyber physical domains. After an overview of the
standard, two frameworks are described: the COSIDE environment that supports the virtual
prototyping of embedded HW/SW systems and its interaction with AMS circuits. Second, the
SICYPHOS framework that integrates SystemC AMS into the overall system development …
well as several commercial and academic frameworks gravitating around it that have been
used to develop use cases in various cyber physical domains. After an overview of the
standard, two frameworks are described: the COSIDE environment that supports the virtual
prototyping of embedded HW/SW systems and its interaction with AMS circuits. Second, the
SICYPHOS framework that integrates SystemC AMS into the overall system development …
This paper presents the past, present, and perspectives of the SystemC AMS standard as well as several commercial and academic frameworks gravitating around it that have been used to develop use cases in various cyber physical domains. After an overview of the standard, two frameworks are described: the COSIDE environment that supports the virtual prototyping of embedded HW/SW systems and its interaction with AMS circuits. Second, the SICYPHOS framework that integrates SystemC AMS into the overall system development ecosystem. By an example we give details how SystemC AMS can be coupled with other simulation tools (OpenModelica) while keeping simulation speed and accuracy high. Another example shows how SystemC AMS can be used as foundation technology to create specialized user-defined models of computation (MoC).
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