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2.1. Compilation Overview
2.2. Using the Compilation Dashboard
2.3. Design Synthesis
2.4. Design Place and Route
2.5. Incremental Optimization Flow
2.6. Fast Forward Compilation Flow
2.7. Full Compilation Flow
2.8. Exporting Compilation Results
2.9. Integrating Other EDA Tools
2.10. Synthesis Language Support
2.11. Compiler Optimization Techniques
2.12. Synthesis Settings Reference
2.13. Fitter Settings Reference
2.14. Design Compilation Revision History
2.8.1. Exporting a Version-Compatible Compilation Database
2.8.2. Importing a Version-Compatible Compilation Database
2.8.3. Creating a Design Partition
2.8.4. Exporting a Design Partition
2.8.5. Reusing a Design Partition
2.8.6. Viewing Quartus Database File Information
2.8.7. Clearing Compilation Results
3.1. Factors Affecting Compilation Results
3.2. Strategies to Reduce the Overall Compilation Time
3.3. Reducing Synthesis Time and Synthesis Netlist Optimization Time
3.4. Reducing Placement Time
3.5. Reducing Routing Time
3.6. Reducing Static Timing Analysis Time
3.7. Setting Process Priority
3.8. Reducing Compilation Time Revision History
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2.6. Fast Forward Compilation Flow
The Intel® Hyperflex™ architecture includes multiple Hyper-Registers in every routing segment and block input. Maximizing the use of Hyper-Registers improves the balance of time delays between registers, and mitigates critical path delays. Fast Forward compilation generates design recommendations to help you to break performance bottlenecks and maximize use of Hyper-Registers to drive the highest performance in Intel® Stratix® 10 and Intel® Agilex™ designs.
Figure 33. Hyper-Registers in Intel® Hyperflex™ Architecture
The Fast Forward compilation reports show precisely where to make the most impact with RTL changes, and the performance benefits you can expect from each change after removing retiming restrictions. The Fast Forward compilation flow includes the following high-level steps:
Figure 34. Fast Forward Compile Flow