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Answers to Top FAQs
1. Introduction to Quartus® Prime Pro Edition
2. Planning FPGA Design for RTL Flow
3. Selecting a Starting Point for Your Quartus® Prime Pro Edition Project
4. Working With Intel® FPGA IP Cores
5. Managing Quartus® Prime Projects
A. Next Steps After Getting Started
B. Using the Design Space Explorer II
C. Document Revision History for Quartus® Prime Pro Edition User Guide Getting Started
D. Quartus® Prime Pro Edition User Guides
3.1. Creating a New FPGA Design Project
3.2. Migrating Projects from Other Quartus® Prime Editions to Quartus® Prime Pro Edition
3.3. Migrating Your AMD* Vivado* Project to Quartus® Prime Pro Edition
3.4. Migrating Projects Across Operating Systems
3.5. Migrating Project From One Device to Another
3.6. Related Trainings
3.2.2.1. Modifying Entity Name Assignments
3.2.2.2. Resolving Timing Constraint Entity Names
3.2.2.3. Verifying Generated Node Name Assignments
3.2.2.4. Replace Logic Lock (Standard) Regions
3.2.2.5. Modifying Signal Tap Logic Analyzer Files
3.2.2.6. Removing References to .qip Files
3.2.2.7. Removing Unsupported Feature Assignments
3.2.4.1. Verifying Verilog Compilation Unit
3.2.4.2. Updating Entity Auto-Discovery
3.2.4.3. Ensuring Distinct VHDL Namespace for Each Library
3.2.4.4. Removing Unsupported Parameter Passing
3.2.4.5. Removing Unsized Constant from WYSIWYG Instantiation
3.2.4.6. Removing Non-Standard Pragmas
3.2.4.7. Declaring Objects Before Initial Values
3.2.4.8. Confining SystemVerilog Features to SystemVerilog Files
3.2.4.9. Avoiding Assignment Mixing in Always Blocks
3.2.4.10. Avoiding Unconnected, Non-Existent Ports
3.2.4.11. Avoiding Invalid Parameter Ranges
3.2.4.12. Updating Verilog HDL and VHDL Type Mapping
3.2.4.13. Converting Symbolic BDF Files to Acceptable File Formats
4.1. IP Catalog and Parameter Editor
4.2. Installing and Licensing Intel® FPGA IP Cores
4.3. IP General Settings
4.4. Adding IP to IP Catalog
4.5. Best Practices for Intel® FPGA IP
4.6. Specifying the IP Core Parameters and Options ( Quartus® Prime Pro Edition)
4.7. IP Core Generation Output ( Quartus® Prime Pro Edition)
4.8. Scripting IP Core Generation
4.9. Modifying an IP Variation
4.10. Upgrading IP Cores
4.11. Simulating Intel® FPGA IP Cores
4.12. Generating Simulation Files for Platform Designer Systems and IP Variants
4.13. Synthesizing IP Cores in Other EDA Tools
4.14. Instantiating IP Cores in HDL
4.15. Support for the IEEE 1735 Encryption Standard
4.16. Related Trainings and Resources
5.1. Viewing Basic Project Information
5.2. Managing Project Settings
5.3. Viewing Parameter Settings From the Project Navigator
5.4. Managing Logic Design Files
5.5. Managing Timing Constraints
5.6. Integrating Other EDA Tools
5.7. Exporting Compilation Results
5.8. Archiving Projects
5.9. Command-Line Interface
5.10. Related Trainings
5.7.1. Exporting a Version-Compatible Compilation Database
5.7.2. Importing a Version-Compatible Compilation Database
5.7.3. Creating a Design Partition
5.7.4. Exporting a Design Partition
5.7.5. Reusing a Design Partition
5.7.6. Viewing Quartus Database File Information
5.7.7. Clearing Compilation Results
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4.11.2. Scripting IP Simulation
The Quartus® Prime software supports the use of scripts to automate simulation processing in your preferred simulation environment. Use the scripting methodology that you prefer to control simulation.
Use a version-independent, top-level simulation script to control design, testbench, and IP core simulation. Because Quartus® Prime-generated simulation file names may change after IP upgrade or regeneration, your top-level simulation script must "source" the generated setup scripts, rather than using the generated setup scripts directly. Follow these steps to generate or regenerate combined simulator setup scripts:
Figure 37. Incorporating Generated Simulator Setup Scripts into a Top-Level Simulation Script
- Click Tools > Generate Simulator Script for IP (or run the ip-setup-simulation utility) to generate or regenerate a combined simulator setup script for all IP for each simulator.
- Use the templates in the generated script to source the combined script in your top-level simulation script. Each simulator's combined script file contains a rudimentary template that you adapt for integration of the setup script into a top-level simulation script.
This technique eliminates manual update of simulation scripts if you modify or upgrade the IP variation.