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1.1. About Precision RTL Synthesis Support
1.2. Precision RTL Integration Flow
1.3. Intel Device Family Support
1.4. Precision RTL Generated Files
1.5. Creating and Compiling a Project in the Precision Synthesis Software
1.6. Mapping the Design with Precision RTL
1.7. Synthesizing the Design and Evaluating the Results
1.8. Guidelines for Intel FPGA IP Cores and Architecture-Specific Features
1.9. Siemens EDA Precision* RTL Synthesis Support Revision History
1.8.1. Instantiating IP Cores With IP Catalog-Generated Verilog HDL Files
1.8.2. Instantiating IP Cores With IP Catalog-Generated VHDL Files
1.8.3. Instantiating Intellectual Property With the IP Catalog and Parameter Editor
1.8.4. Instantiating Black Box IP Functions With Generated Verilog HDL Files
1.8.5. Instantiating Black Box IP Functions With Generated VHDL Files
1.8.6. Inferring Intel FPGA IP Cores from HDL Code
2.1. About Synplify Support
2.2. Synplify Software Integration Flow
2.3. Hardware Description Language Support
2.4. Intel Device Family Support
2.5. Tool Setup
2.6. Synplify Software Generated Files
2.7. Design Constraints Support
2.8. Simulation and Formal Verification
2.9. Synplify Optimization Strategies
2.10. Guidelines for Intel FPGA IP Cores and Architecture-Specific Features
2.11. Synopsys Synplify* Support Revision History
2.12. Intel Quartus Prime Pro Edition User Guide: Third-Party Synthesis Archives
2.10.1.1. Instantiating Intel FPGA IP Cores with IP Catalog Generated Verilog HDL Files
2.10.1.2. Instantiating Intel FPGA IP Cores with IP Catalog Generated VHDL Files
2.10.1.3. Changing Synplify’s Default Behavior for Instantiated Intel FPGA IP Cores
2.10.1.4. Instantiating Intellectual Property with the IP Catalog and Parameter Editor
2.10.1.5. Instantiating Black Box IP Cores with Generated Verilog HDL Files
2.10.1.6. Instantiating Black Box IP Cores with Generated VHDL Files
2.10.1.7. Other Synplify Software Attributes for Creating Black Boxes
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1.7.1. Obtaining Accurate Logic Utilization and Timing Analysis Reports
Historically, designers have relied on post-synthesis logic utilization and timing reports to determine the amount of logic their design requires, the size of the device required, and how fast the design runs. However, today’s FPGA devices provide a wide variety of advanced features in addition to basic registers and look-up tables (LUTs). The Intel® Quartus® Prime software has advanced algorithms to take advantage of these features, as well as optimization techniques to increase performance and reduce the amount of logic required for a given design. In addition, designs can contain black boxes and functions that take advantage of specific device features. Because of these advances, synthesis tool reports provide post‑synthesis area and timing estimates, but you should use the place-and-route software to obtain final logic utilization and timing reports.