Transformation von Multiphysics-Modellen in einen FPGA-Entwurf für den echtzeitfähigen HiL-Test eingebetteter Systeme
Köllner, Christian
Transformation von Multiphysics-Modellen in einen FPGA-Entwurf für den echtzeitfähigen HiL-Test eingebetteter Systeme - KIT Scientific Publishing 2013 - 1 electronic resource (XI, 244 p. p.)
Open Access
This work establishes an integrated tool chain from modeling physical simulations to design automation for FPGA-based real-time simulations. Modelica was chosen as a versatile, intuitive and object-oriented modeling language. The implemented tool chain incorporates high-level synthesis methods to generate a VHDL design. Both floating-point and fixed-point arithmetic are supported.
Creative Commons
German
KSP/1000036853 9783731501206
10.5445/KSP/1000036853 doi
Hardware-in-the-Loop Entwurfsautomatisierung FPGA Modelica Echtzeit
Transformation von Multiphysics-Modellen in einen FPGA-Entwurf für den echtzeitfähigen HiL-Test eingebetteter Systeme - KIT Scientific Publishing 2013 - 1 electronic resource (XI, 244 p. p.)
Open Access
This work establishes an integrated tool chain from modeling physical simulations to design automation for FPGA-based real-time simulations. Modelica was chosen as a versatile, intuitive and object-oriented modeling language. The implemented tool chain incorporates high-level synthesis methods to generate a VHDL design. Both floating-point and fixed-point arithmetic are supported.
Creative Commons
German
KSP/1000036853 9783731501206
10.5445/KSP/1000036853 doi
Hardware-in-the-Loop Entwurfsautomatisierung FPGA Modelica Echtzeit