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Autores principales: Albu, Andrei Mihai, Pollo, Giovanni, Burrello, Alessio, Pagliari, Daniele Jahier, Tesconi, Cristian, Neri, Alessandra, Soldi, Dario, Autieri, Fabio, Vinco, Sara
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2508.20223
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author Albu, Andrei Mihai
Pollo, Giovanni
Burrello, Alessio
Pagliari, Daniele Jahier
Tesconi, Cristian
Neri, Alessandra
Soldi, Dario
Autieri, Fabio
Vinco, Sara
author_facet Albu, Andrei Mihai
Pollo, Giovanni
Burrello, Alessio
Pagliari, Daniele Jahier
Tesconi, Cristian
Neri, Alessandra
Soldi, Dario
Autieri, Fabio
Vinco, Sara
contents The growing complexity of cyber-physical systems, particularly in automotive applications, has increased the demand for efficient modeling and cross-domain co-simulation techniques. While SystemC Transaction-Level Modeling (TLM) enables effective hardware/software co-design, its limited interoperability with models from other engineering domains poses integration challenges. This paper presents a fully open-source methodology for integrating SystemC TLM models into Functional Mock-up Interface (FMI)-based co-simulation workflows. By encapsulating SystemC TLM components as FMI 3.0 Co Simulation Functional Mock-up Units (FMUs), the proposed approach facilitates seamless, standardized integration across heterogeneous simulation environments. We introduce a lightweight open-source toolchain, address key technical challenges such as time synchronization and data exchange, and demonstrate the feasibility and effectiveness of the integration through representative case studies.
format Preprint
id arxiv_https___arxiv_org_abs_2508_20223
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Integrating SystemC TLM into FMI 3.0 Co-Simulations with an Open-Source Approach
Albu, Andrei Mihai
Pollo, Giovanni
Burrello, Alessio
Pagliari, Daniele Jahier
Tesconi, Cristian
Neri, Alessandra
Soldi, Dario
Autieri, Fabio
Vinco, Sara
Computation and Language
The growing complexity of cyber-physical systems, particularly in automotive applications, has increased the demand for efficient modeling and cross-domain co-simulation techniques. While SystemC Transaction-Level Modeling (TLM) enables effective hardware/software co-design, its limited interoperability with models from other engineering domains poses integration challenges. This paper presents a fully open-source methodology for integrating SystemC TLM models into Functional Mock-up Interface (FMI)-based co-simulation workflows. By encapsulating SystemC TLM components as FMI 3.0 Co Simulation Functional Mock-up Units (FMUs), the proposed approach facilitates seamless, standardized integration across heterogeneous simulation environments. We introduce a lightweight open-source toolchain, address key technical challenges such as time synchronization and data exchange, and demonstrate the feasibility and effectiveness of the integration through representative case studies.
title Integrating SystemC TLM into FMI 3.0 Co-Simulations with an Open-Source Approach
topic Computation and Language
url https://arxiv.org/abs/2508.20223