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1.1. Compilation Overview
1.2. Design Analysis & Elaboration
1.3. Design Synthesis
1.4. Design Place and Route
1.5. Incremental Optimization Flow
1.6. Fast Forward Compilation Flow
1.7. Full Compilation Flow
1.8. HSSI Dual Simplex IP Generation Flow
1.9. Exporting Compilation Results
1.10. Clearing Compilation Results
1.11. Integrating Other EDA Tools
1.12. Compiler Optimization Techniques
1.13. Compilation Monitoring Mode
1.14. Viewing Quartus Database File Information
1.15. Understanding the Design Netlist Infrastructure
1.16. Using Synopsys* Design Constraint (SDC) on RTL Files
1.17. Using the Node Finder
1.18. Synthesis Language Support
1.19. Synthesis Settings Reference
1.20. Fitter Settings Reference
1.21. Design Compilation Revision History
2.1. Factors Affecting Compilation Results
2.2. Strategies to Reduce the Overall Compilation Time
2.3. Reducing Synthesis Time
2.4. Reducing Placement Time
2.5. Reducing Routing Time
2.6. Reducing Static Timing Analysis Time
2.7. Setting Process Priority
2.8. Reducing Compilation Time Revision History
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1.6.1. Step 1: Run Register Retiming
Register retiming improves design performance by moving registers out of ALMs and retimes them into Hyper-Registers in the Stratix® 10, Agilex™ 7, and Agilex™ 5 device interconnect.
The Fitter runs the Retime stage automatically following place and route when you target an Stratix® 10, Agilex™ 7, or Agilex™ 5 device. Alternatively, start or stop the individual Retime stage in the Compilation Dashboard. After running register retiming, view the Fitter reports to optimize remaining critical paths.
To run register retiming:
- Click Retime on the Compilation Dashboard. The Compiler runs prerequisite stages automatically before running Retime stage.
Figure 72. Retiming Stage in Compilation Dashboard
- Review the results of the register retiming stage, as Step 2: Review Retiming Results describes.