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1. Introduction to Intel® Quartus® Prime Standard Edition
2. Managing Intel® Quartus® Prime Projects
3. Design Planning
4. Introduction to Intel® FPGA IP Cores
5. Migrating to Intel® Quartus® Prime Pro Edition
A. Intel® Quartus® Prime Pro Edition User Guide: Getting Started Documentation Archive
B. Intel® Quartus® Prime Standard Edition User Guides
2.1. Viewing Basic Project Information
2.2. Intel® Quartus® Prime Project Contents
2.3. Managing Project Settings
2.4. Managing Logic Design Files
2.5. Managing Timing Constraints
2.6. Integrating Other EDA Tools
2.7. Exporting Compilation Results
2.8. Migrating Projects Across Operating Systems
2.9. Archiving Projects
2.10. Command-Line Interface
2.11. Managing Projects Revision History
3.1. Design Planning
3.2. Create a Design Specification and Test Plan
3.3. Plan for the Target Device
3.4. Plan for Intellectual Property Cores
3.5. Plan for Standard Interfaces
3.6. Plan for Device Programming
3.7. Plan for Device Power Consumption
3.8. Plan for Interface I/O Pins
3.9. Plan for other EDA Tools
3.10. Plan for On-Chip Debugging Tools
3.11. Plan HDL Coding Styles
3.12. Plan for Hierarchical and Team-Based Designs
3.13. Design Planning Revision History
4.1. IP Catalog and Parameter Editor
4.2. Installing and Licensing Intel® FPGA IP Cores
4.3. IP General Settings
4.4. Adding Your Own IP to IP Catalog
4.5. Best Practices for Intel® FPGA IP
4.6. Generating IP Cores ( Intel® Quartus® Prime Standard Edition)
4.7. Modifying an IP Variation
4.8. Upgrading IP Cores
4.9. Simulating Intel® FPGA IP Cores
4.10. Synthesizing IP Cores in Other EDA Tools
4.11. Instantiating IP Cores in HDL
4.12. Introduction to Intel FPGA IP Cores Revision History
5.2.1. Modify Entity Name Assignments
5.2.2. Resolve Timing Constraint Entity Names
5.2.3. Verify Generated Node Name Assignments
5.2.4. Replace Logic Lock (Standard) Regions
5.2.5. Modify Signal Tap Logic Analyzer Files
5.2.6. Remove References to .qip Files
5.2.7. Remove Unsupported Feature Assignments
5.4.1. Verify Verilog Compilation Unit
5.4.2. Update Entity Auto-Discovery
5.4.3. Ensure Distinct VHDL Namespace for Each Library
5.4.4. Remove Unsupported Parameter Passing
5.4.5. Remove Unsized Constant from WYSIWYG Instantiation
5.4.6. Remove Non-Standard Pragmas
5.4.7. Declare Objects Before Initial Values
5.4.8. Confine SystemVerilog Features to SystemVerilog Files
5.4.9. Avoid Assignment Mixing in Always Blocks
5.4.10. Avoid Unconnected, Non-Existent Ports
5.4.11. Avoid Illegal Parameter Ranges
5.4.12. Update Verilog HDL and VHDL Type Mapping
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5.4.1.1. Verilog HDL Configuration Instantiation
Intel® Quartus® Prime Pro Edition synthesis requires instantiation of the Verilog HDL configuration, and not the module. In other Quartus software products, synthesis automatically finds any Verilog HDL configuration relating to a module that you instantiate. The Verilog HDL configuration then instantiates the design.
If your top-level entity is a Verilog HDL configuration, set the Verilog HDL configuration, rather than the module, as the top-level entity.
Other Quartus Software Products | Intel® Quartus® Prime Pro Edition |
---|---|
From the Example RTL, synthesis automatically finds the mid_config Verilog HDL configuration relating to the instantiated module. | From the Example RTL, synthesis does not find the mid_config Verilog HDL configuration. You must instantiate the Verilog HDL configuration directly. |
Example RTL: config mid_config; design good_lib.mid; instance mid.sub_inst use good_lib.sub; endconfig module test (input a1, output b); mid_config mid_inst ( .a1(a1), .b(b)); // in other Quartus products preceding line would have been: //mid mid_inst ( .a1(a1), .b(b)); endmodule module mid (input a1, output b); sub sub_inst (.a1(a1), .b(b)); endmodule |