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1.1. About Synplify Support
1.2. Design Flow
1.3. Hardware Description Language Support
1.4. Intel Device Family Support
1.5. Tool Setup
1.6. Synplify Software Generated Files
1.7. Design Constraints Support
1.8. Simulation and Formal Verification
1.9. Synplify Optimization Strategies
1.10. Guidelines for Intel FPGA IP Cores and Architecture-Specific Features
1.11. Incremental Compilation and Block-Based Design
1.12. Synopsys Synplify* Support Revision History
1.10.1.1. Instantiating Intel FPGA IP Cores with IP Catalog Generated Verilog HDL Files
1.10.1.2. Instantiating Intel FPGA IP Cores with IP Catalog Generated VHDL Files
1.10.1.3. Changing Synplify’s Default Behavior for Instantiated Intel FPGA IP Cores
1.10.1.4. Instantiating Intellectual Property with the IP Catalog and Parameter Editor
1.10.1.5. Instantiating Black Box IP Cores with Generated Verilog HDL Files
1.10.1.6. Instantiating Black Box IP Cores with Generated VHDL Files
1.10.1.7. Other Synplify Software Attributes for Creating Black Boxes
1.11.1. Design Flow for Incremental Compilation
1.11.2. Creating a Design with Separate Netlist Files for Incremental Compilation
1.11.3. Using MultiPoint Synthesis with Incremental Compilation
1.11.4. Creating Multiple .vqm Files for a Incremental Compilation Flow With Separate Synplify Projects
1.11.5. Performing Incremental Compilation in the Intel® Quartus® Prime Software
2.1. About Precision RTL Synthesis Support
2.2. Design Flow
2.3. Intel Device Family Support
2.4. Precision Synthesis Generated Files
2.5. Creating and Compiling a Project in the Precision Synthesis Software
2.6. Mapping the Precision Synthesis Design
2.7. Synthesizing the Design and Evaluating the Results
2.8. Exporting Designs to the Intel® Quartus® Prime Software Using NativeLink Integration
2.9. Guidelines for Intel FPGA IP Cores and Architecture-Specific Features
2.10. Incremental Compilation and Block-Based Design
2.11. Mentor Graphics Precision* Synthesis Support Revision History
2.8.1. Running the Intel® Quartus® Prime Software from within the Precision Synthesis Software
2.8.2. Running the Intel® Quartus® Prime Software Manually Using the Precision Synthesis‑Generated Tcl Script
2.8.3. Using the Intel® Quartus® Prime Software to Run the Precision Synthesis Software
2.8.4. Passing Constraints to the Intel® Quartus® Prime Software
2.9.1. Instantiating IP Cores With IP Catalog-Generated Verilog HDL Files
2.9.2. Instantiating IP Cores With IP Catalog-Generated VHDL Files
2.9.3. Instantiating Intellectual Property With the IP Catalog and Parameter Editor
2.9.4. Instantiating Black Box IP Functions With Generated Verilog HDL Files
2.9.5. Instantiating Black Box IP Functions With Generated VHDL Files
2.9.6. Inferring Intel FPGA IP Cores from HDL Code
2.10.1. Creating a Design with Precision RTL Plus Incremental Synthesis
2.10.2. Creating Multiple Mapped Netlist Files With Separate Precision Projects or Implementations
2.10.3. Creating Black Boxes to Create Netlists
2.10.4. Creating Intel® Quartus® Prime Projects for Multiple Netlist Files
2.10.5. Hierarchy and Design Considerations
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2.10.4.2. Creating Multiple Intel® Quartus® Prime Projects for a Bottom-Up Flow
Use the .tcl files generated by the Precision Synthesis software for each Precision Synthesis software implementation or project to generate multiple Intel® Quartus® Prime projects, one for each partition in the design. Each designer in the project can optimize their block separately in the Intel® Quartus® Prime software and export the placement of their blocks using incremental compilation. Designers should create a LogicLock region to provide a floorplan location assignment for each block; the top-level designer should then import all the blocks and assignments into the top-level project.