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1.1. Simulator Support
1.2. Simulation Levels
1.3. HDL Support
1.4. Simulation Flows
1.5. Preparing for Simulation
1.6. Simulating Intel® FPGA IP Cores
1.7. Using NativeLink Simulation ( Intel® Quartus® Prime Standard Edition)
1.8. Running a Simulation (Custom Flow)
1.9. Simulating Intel FPGA Designs Revision History
2.2.1. Using ModelSim-Intel FPGA Edition Precompiled Libraries
2.2.2. Disabling Timing Violation on Registers
2.2.3. Passing Parameter Information from Verilog HDL to VHDL
2.2.4. Increasing Simulation Speed
2.2.5. Simulating Transport Delays
2.2.6. Viewing Simulation Messages
2.2.7. Generating Power Analysis Files
2.2.8. Viewing Simulation Waveforms
2.2.9. Simulating with ModelSim-Intel FPGA Edition Waveform Editor
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1.6.1. Generating IP Simulation Files
The Intel® Quartus® Prime software optionally generates the functional simulation model, any testbench (or example design), and vendor-specific simulator setup scripts when you generate an IP core. To control the generation of IP simulation files:
- To specify your supported simulator and options for IP simulation file generation, click Assignment > Settings > EDA Tool Settings > Simulation.
- To parameterize a new IP variation, enable generation of simulation files, and generate the IP core synthesis and simulation files, click Tools > IP Catalog.
- To edit parameters and regenerate synthesis or simulation files for an existing IP core variation, click View > Project Navigator > IP Components.
- To edit parameters and regenerate synthesis or simulation files for an existing IP core variation, click View > Utility Windows > Project Navigator > IP Components.
File Type | Description | File Name |
---|---|---|
Simulator setup scripts | Vendor-specific scripts to compile, elaborate, and simulate Intel® FPGA IP models and simulation model library files.
Note: For Intel® Arria® 10 designs, you can use the Intel® Quartus® Prime software to automatically create a combined simulator setup script. Refer to Scripting IP Simulation in the Introduction to Intel® FPGA IP Cores for more information.
|
<my_dir>/aldec/riviera_setup.tcl <my_dir>/cadence/ncsim__setup.sh <my_dir>/mentor/msim_setup.tcl <my_dir>/synopsys/vcs/vcs_setup.sh <my_dir>/synopsys/vcsmx/vcsmx_setup.sh |
Simulation IP File ( Intel® Quartus® Prime Standard Edition) | Contains IP core simulation library mapping information. To use NativeLink, add the .qip and .sip files generated for IP to your project. | <design name>.sip |
IP functional simulation models ( Intel® Quartus® Prime Standard Edition) | IP functional simulation models are cycle-accurate VHDL or Verilog HDL models a that the Intel® Quartus® Prime software generates for some Intel FPGA IP cores. IP functional simulation models support fast functional simulation of IP using industry-standard VHDL and Verilog HDL simulators. | <my_ip>.vho <my_ip>.vo |
IEEE encrypted models ( Intel® Quartus® Prime Standard Edition) | Intel provides Arria® V, Cyclone® V, Stratix® V, and newer simulation model libraries and IP simulation models in Verilog HDL and IEEE-encrypted Verilog HDL. Your simulator's co-simulation capabilities support VHDL simulation of these models. IEEE encrypted Verilog HDL models are significantly faster than IP functional simulation models. The Intel® Quartus® Prime Pro Edition software does not support these models. | <my_ip>.v |
Note: Intel® FPGA IP cores support a variety of cycle-accurate simulation models, including simulation-specific IP functional simulation models and encrypted RTL models, and plain text RTL models. The models support fast functional simulation of your IP core instance using industry-standard VHDL or Verilog HDL simulators. For some IP cores, generation only produces the plain text RTL model, and you can simulate that model. Use the simulation models only for simulation and not for synthesis or any other purposes. Using these models for synthesis creates a nonfunctional design.