Intel® Quartus® Prime Pro Edition User Guide: Getting Started

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ID 683463
Date 12/04/2023
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Document Table of Contents
Document Table of Contents x
1. Answers to Top FAQs 2. Introduction to Intel® Quartus® Prime Pro Edition 3. Planning FPGA Design for RTL Flow 4. Selecting a Starting Point for Your Intel® Quartus® Prime Pro Edition Project 5. Working With Intel® FPGA IP Cores 6. Managing Intel® Quartus® Prime Projects A. Next Steps After Getting Started B. Using the Design Space Explorer II C. Document Revision History for Intel® Quartus® Prime Pro Edition User Guide Getting Started D. Intel® Quartus® Prime Pro Edition User Guides
2. Introduction to Intel® Quartus® Prime Pro Edition x
2.1. Before You Begin
2.1. Before You Begin x
2.1.1. Prerequisite Knowledge and Training 2.1.2. Navigate Content Through Tasks 2.1.3. Acronyms
3. Planning FPGA Design for RTL Flow x
3.1. Design Planning 3.2. Selecting the Design Methodology 3.3. Related Trainings
3.1. Design Planning x
3.1.1. Creating a Design Specification and Test Plan 3.1.2. Planning for the Target Device or Board 3.1.3. Planning for Intellectual Property Cores 3.1.4. Planning for Standard Interfaces 3.1.5. Planning for Device Programming 3.1.6. Planning for Device Power Consumption 3.1.7. Planning for Interface I/O Pins 3.1.8. Planning for other EDA Tools 3.1.9. Planning for On-Chip Debugging Tools 3.1.10. Planning HDL Coding Styles
3.1.2. Planning for the Target Device or Board x
3.1.2.1. Device Migration Planning
3.1.8. Planning for other EDA Tools x
3.1.8.1. Third-Party Synthesis Tools 3.1.8.2. Third-Party Simulation Tools
3.1.10. Planning HDL Coding Styles x
3.1.10.1. Design Recommendations 3.1.10.2. Recommended HDL Coding Styles 3.1.10.3. Managing Metastability
3.2. Selecting the Design Methodology x
3.2.1. Flat Design Vs. Incremental Block-based Design 3.2.2. Partial Reconfiguration Design
4. Selecting a Starting Point for Your Intel® Quartus® Prime Pro Edition Project x
4.1. Creating a New FPGA Design Project 4.2. Migrating Projects from Other Intel® Quartus® Prime Editions to Intel® Quartus® Prime Pro Edition 4.3. Migrating Your AMD* Vivado* Project to Intel® Quartus® Prime Pro Edition 4.4. Migrating Projects Across Operating Systems 4.5. Migrating Project From One Device to Another 4.6. Related Trainings
4.1. Creating a New FPGA Design Project x
4.1.1. Using the Board-Aware Flow 4.1.2. Project Path Length Considerations
4.1.1. Using the Board-Aware Flow x
4.1.1.1. Creating a New Project from a Design Example 4.1.1.2. Specifying a Target Board for the Project
4.1.1.1. Creating a New Project from a Design Example x
4.1.1.1.1. Family, Device & Board Settings 4.1.1.1.2. Accessing Pre-Installed Design Examples 4.1.1.1.3. Accessing Online Design Examples 4.1.1.1.4. Accessing Downloaded Design Examples
4.1.1.1.3. Accessing Online Design Examples x
4.1.1.1.3.1. Internet Connectivity Options 4.1.1.1.3.2. Design Examples Options
4.2. Migrating Projects from Other Intel® Quartus® Prime Editions to Intel® Quartus® Prime Pro Edition x
4.2.1. Keeping Pro Edition Project Files Separate 4.2.2. Upgrading Project Assignments and Constraints 4.2.3. Upgrading IP Cores and Platform Designer Systems 4.2.4. Upgrading Non-Compliant Design RTL
4.2.2. Upgrading Project Assignments and Constraints x
4.2.2.1. Modifying Entity Name Assignments 4.2.2.2. Resolving Timing Constraint Entity Names 4.2.2.3. Verifying Generated Node Name Assignments 4.2.2.4. Replace Logic Lock (Standard) Regions 4.2.2.5. Modifying Signal Tap Logic Analyzer Files 4.2.2.6. Removing References to .qip Files 4.2.2.7. Removing Unsupported Feature Assignments
4.2.2.4. Replace Logic Lock (Standard) Regions x
4.2.2.4.1. Logic Lock Region Assignment Examples
4.2.4. Upgrading Non-Compliant Design RTL x
4.2.4.1. Verifying Verilog Compilation Unit 4.2.4.2. Updating Entity Auto-Discovery 4.2.4.3. Ensuring Distinct VHDL Namespace for Each Library 4.2.4.4. Removing Unsupported Parameter Passing 4.2.4.5. Removing Unsized Constant from WYSIWYG Instantiation 4.2.4.6. Removing Non-Standard Pragmas 4.2.4.7. Declaring Objects Before Initial Values 4.2.4.8. Confining SystemVerilog Features to SystemVerilog Files 4.2.4.9. Avoiding Assignment Mixing in Always Blocks 4.2.4.10. Avoiding Unconnected, Non-Existent Ports 4.2.4.11. Avoiding Invalid Parameter Ranges 4.2.4.12. Updating Verilog HDL and VHDL Type Mapping 4.2.4.13. Converting Symbolic BDF Files to Acceptable File Formats
4.2.4.1. Verifying Verilog Compilation Unit x
4.2.4.1.1. Verilog HDL Configuration Instantiation
4.4. Migrating Projects Across Operating Systems x
4.4.1. Migrating Design Files and Libraries 4.4.2. Design Library Migration Guidelines
4.4.1. Migrating Design Files and Libraries x
4.4.1.1. Use Relative Paths
5. Working With Intel® FPGA IP Cores x
5.1. IP Catalog and Parameter Editor 5.2. Installing and Licensing Intel® FPGA IP Cores 5.3. IP General Settings 5.4. Adding IP to IP Catalog 5.5. Best Practices for Intel® FPGA IP 5.6. Specifying the IP Core Parameters and Options ( Intel® Quartus® Prime Pro Edition) 5.7. IP Core Generation Output ( Intel® Quartus® Prime Pro Edition) 5.8. Scripting IP Core Generation 5.9. Modifying an IP Variation 5.10. Upgrading IP Cores 5.11. Simulating Intel® FPGA IP Cores 5.12. Generating Simulation Files for Platform Designer Systems and IP Variants 5.13. Synthesizing IP Cores in Other EDA Tools 5.14. Instantiating IP Cores in HDL 5.15. Support for the IEEE 1735 Encryption Standard 5.16. Related Trainings and Resources
5.1. IP Catalog and Parameter Editor x
5.1.1. The Parameter Editor
5.2. Installing and Licensing Intel® FPGA IP Cores x
5.2.1. Intel® FPGA IP Evaluation Mode
5.2.1. Intel® FPGA IP Evaluation Mode x
5.2.1.1. Intel FPGA IP Versioning 5.2.1.2. Checking the IP License Status
5.6. Specifying the IP Core Parameters and Options ( Intel® Quartus® Prime Pro Edition) x
5.6.1. Applying Preset Parameters for Specific Applications 5.6.2. Customizing IP Presets
5.6.1. Applying Preset Parameters for Specific Applications x
5.6.1.1. Viewing, Applying, and Deleting IP Presets
5.6.2. Customizing IP Presets x
5.6.2.1. Defining Preset Pin Assignments
5.6.2.1. Defining Preset Pin Assignments x
5.6.2.1.1. Defining Preset Pin Assignments in Pin Assignments Tab 5.6.2.1.2. Defining Preset Pin Assignments in a Pin File
5.10. Upgrading IP Cores x
5.10.1. Upgrading IP Cores at Command-Line 5.10.2. Migrating IP Cores to a Different Device 5.10.3. Troubleshooting IP or Platform Designer System Upgrade
5.11. Simulating Intel® FPGA IP Cores x
5.11.1. Generating IP Simulation Files 5.11.2. Scripting IP Simulation
5.11.2. Scripting IP Simulation x
5.11.2.1. Generating a Combined Simulator Setup Script
5.14. Instantiating IP Cores in HDL x
5.14.1. Example Top-Level Verilog HDL Module 5.14.2. Example Top-Level VHDL Module
6. Managing Intel® Quartus® Prime Projects x
6.1. Viewing Basic Project Information 6.2. Exploring Intel® Quartus® Prime Project Contents 6.3. Managing Project Settings 6.4. Viewing Parameter Settings From the Project Navigator 6.5. Managing Logic Design Files 6.6. Managing Timing Constraints 6.7. Integrating Other EDA Tools 6.8. Exporting Compilation Results 6.9. Archiving Projects 6.10. Command-Line Interface 6.11. Related Trainings
6.1. Viewing Basic Project Information x
6.1.1. Using the Compilation Dashboard 6.1.2. Viewing Project Reports 6.1.3. Viewing Project Messages
6.1.3. Viewing Project Messages x
6.1.3.1. Viewing Synthesis Warning Messages 6.1.3.2. Suppressing Message Display 6.1.3.3. Promoting Critical Warnings to Errors
6.2. Exploring Intel® Quartus® Prime Project Contents x
6.2.1. Project File Best Practices
6.5. Managing Logic Design Files x
6.5.1. Including Design Libraries 6.5.2. Creating a Project Copy
6.8. Exporting Compilation Results x
6.8.1. Exporting a Version-Compatible Compilation Database 6.8.2. Importing a Version-Compatible Compilation Database 6.8.3. Creating a Design Partition 6.8.4. Exporting a Design Partition 6.8.5. Reusing a Design Partition 6.8.6. Viewing Quartus Database File Information 6.8.7. Clearing Compilation Results
6.8.6. Viewing Quartus Database File Information x
6.8.6.1. QDB File Attribute Types
6.9. Archiving Projects x
6.9.1. Manually Adding Files To Archives 6.9.2. Archiving Projects for Service Requests 6.9.3. Archiving Projects for External Revision Control 6.9.4. Creating Database-Only Archives
6.9.3. Archiving Projects for External Revision Control x
6.9.3.1. Project Files to Include In External Revision Control
6.10. Command-Line Interface x
6.10.1. Project Revision Commands 6.10.2. Project Archive Commands 6.10.3. Project Database Commands
6.10.3. Project Database Commands x
6.10.3.1. quartus_cdb Executables to Manage Version-Compatible Databases
A. Next Steps After Getting Started x
A.1. Additional Resources A.2. Training
B. Using the Design Space Explorer II x
B.1. Optimizing Project Settings B.2. Running DSE II B.3. Setting Up Remote Farm Using Design Space Explorer II
B.1. Optimizing Project Settings x
B.1.1. Optimizing Settings with Design Space Explorer II B.1.2. Optimizing Settings with Project Revisions B.1.3. Back-Annotating Optimized Assignments
B.1.1. Optimizing Settings with Design Space Explorer II x
B.1.1.1. DSE II Computing Resources B.1.1.2. DSE II Optimization Parameters B.1.1.3. DSE II Result Management
1. Answers to Top FAQs
2. Introduction to Intel® Quartus® Prime Pro Edition
3. Planning FPGA Design for RTL Flow
4. Selecting a Starting Point for Your Intel® Quartus® Prime Pro Edition Project
5. Working With Intel® FPGA IP Cores
6. Managing Intel® Quartus® Prime Projects
A. Next Steps After Getting Started
B. Using the Design Space Explorer II
C. Document Revision History for Intel® Quartus® Prime Pro Edition User Guide Getting Started
D. Intel® Quartus® Prime Pro Edition User Guides

5.11.2.1. Generating a Combined Simulator Setup Script

You can run the Generate Simulator Setup Script for IP command to generate a combined simulator setup script.

You can then source this combined script from a top-level simulation script. Click Tools > Generate Simulator Setup Script for IP (or use of the ip-setup-simulation utility at the command-line) to generate or update the combined scripts, after any of the following occur:

  • IP core initial generation or regeneration with new parameters
  • Intel® Quartus® Prime software version upgrade
  • IP core version upgrade
ip-setup-simulation Utility
Utility Syntax
ip-setup-simulation generates a combined, version-independent simulation script for all Intel® FPGA IP cores in your project. The command also automates regeneration of the script after upgrading software or IP versions. Use the compile-to-work option to compile all simulation files into a single work library if your simulation environment requires. Use the --use-relative-paths option to use relative paths whenever possible. 
ip-setup-simulation
 --quartus-project=<my proj>
 --output-directory=<my_dir>
 --use-relative-paths
 --compile-to-work

--use-relative-paths and --compile-to-work are optional. For command-line help listing all options for these executables, type: <utility name> --help.

To generate a combined simulator setup script for all project IP cores for each simulator:4
  1. Click Tools > Generate Simulator Setup Script for IP (or run the ip-setup-simulation utility). Specify the Output Directory and library compilation options. Click OK to generate the file. By default, the files generate into the /<project directory>/<simulator>/ directory using relative paths.
    Note: For designs with F-tile IP, do not turn on the Use top-level entity names from Quartus project option.
    Figure 47. Generate Simulator Setup Script for IP Dialog Box


  2. To incorporate the generated simulator setup script into your top-level simulation script, refer to the template section in the generated simulator setup script as a guide to creating a top-level script:
    1. Copy the specified template sections from the simulator-specific generated scripts and paste them into a new top-level file.
    2. Remove the comments at the beginning of each line from the copied template sections.
    3. Specify the customizations you require to match your design simulation requirements, for example:
      • Specify the TOP_LEVEL_NAME variable to the design’s simulation top-level file. The top-level entity of your simulation is often a testbench that instantiates your design. Then, your design instantiates IP cores or Platform Designer systems. Set the value of TOP_LEVEL_NAME to the top-level entity.
      • If necessary, set the QSYS_SIMDIR variable to point to the location of the generated IP simulation files.
      • Specify any other changes, such as using the grep command-line utility to search a transcript file for error signatures, or e-mail a report.
  3. Re-run Tools > Generate Simulator Setup Script for IP (or ip-setup-simulation) after regeneration of an IP variation.
Related Information
4 If your design contains one or more F-tile IPs, you must first perform Start Analysis & Elaboration and then Support-Logic Generation before performing these steps.
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