RT-XSG
RT-XSG enables engineers to generate custom, application specific models that can be implemented onto an FPGA device. Signal conditioning and conversion modules are also available that enable the custom model to be used for Real-Time Simulation, and Hardware-in-the-Loop (HIL) data processing. Note: RT-XSG software requirements can be found in the RT-XSG User Guide accessible from the documentation tab. |
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Key Features
- Allows for FPGA target code to be included as part of a larger real-time simulation model.
- Handles the model C code generation via Real Time Workshop (RTW) and the FPGA HDL code generation via XSG transparently.
- Loads the generated bitstream on the hardware during the loading of the real-time model.
- The RT-XSG is a system level modeling tool that facilitates FPGA hardware design for those that are not FPGA experts. Xilinx System Generator is an add-on to Simulink developed by Xilinx.
RT-XSG can be used in standalone mode in order to provide configuration data when operating in the MATLAB/Simulink environment. It can also be used when modeling within the RT-LAB® environment, providing the user with a state-of-the-art solution for advanced FPGA-accelerated Real-Time and HIL system simulation.
RT-XSG provides a convenient, Simulink-based way to build models. Using the RT-XSG toolbox saves time when conducting FPGA-based co-simulation, since it automatically manages configuration file generation on each supported platform. It also manages the configuration of the platform, along with the transfer of high-bandwidth data between RT-LAB simulation models and the user-defined custom model, built using RT-XSG, and executed on an FPGA device.
While conventional processor designs operate sequentially on a set of instructions, FPGA processors perform operations in parallel. This makes them ideally suited for very fast simulation of loosely-coupled models. Some examples of applications already implemented using RT-XSG are:
- High-speed digital and/or analog waveform generators
- Signal processing, windowing and analysis
- Embedded simulation of stiff (high-speed dynamics) models, such as electrical motor models
RT-XSG allows for FPGA target code to be included as part of a larger real-time simulation model. The model includes all parts of the simulation while C code and FPGA HDL code are automatically generated and dispatched by RT-XSG. It enables the creation FPGA HDL without knowledge of the language.
RT-XSG already provides FPGA-specific blocks which include the standard functionalities of Opal-RT's FPGA-based cards:
- Full integration with Simulink and RTW
- Static digital inputs and outputs
- Interface to fast OP5000 DAC and ADC modules
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Jul 2009 |
The complete Applications Booklet - Product Information & Simulation Applications Authors : Jean Bélanger, Jean-Nicolas Paquin, Wei Li Published at : Abstract : eMEGAsim and eDRIVEsim Product Information & Simulation Application Examples |
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Jan 2009 |
REAL-TIME PLATFORM FOR THE CONTROL PROTOTYPING AND SIMULATION OF POWER ELECTRONICS AND MOTOR DRIVES Authors : Jean Bélanger, Simon Abourida Published at : Abstract : The paper presents state-of-the-art technologies and platform for real-time simulation and control of motor drives, power converters and power systems. Through its support for Model-Based Design method with Simulink®,... |
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Oct 2008 |
Very-high Speed Control of an FPGA-based Finite-Element-Analysis Permanent Magnet Synchronous Virtual Motor Drive System Authors : Christian Dufour, Handy Blanchette, Jean Bélanger Published at : Abstract : Presented in this paper are the results of tests involving high-speed closed-loop control of a virtual permanent magnet synchronous motor (PMSM) drive implemented on a field-programmable gate array (FPGA) card, connected... |
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Jun 2007 |
FPGA-Based Real-Time Simulation of Finite-Element Analysis Permanent Magnet Synchronous Machine Drives Authors : Christian Dufour, Jean Bélanger, Simon Abourida, Vincent Lapointe Published at : Abstract : This paper presents a real-time simulator of a permanent magnet synchronous motor (PMSM) drive based on a finite-element analysis (FEA) method and implemented on an FPGA card for HIL testing of motor drive controllers.... |
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