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1.1. Compilation Overview
1.2. Using the Node Finder
1.3. Design Analysis & Elaboration
1.4. Design Synthesis
1.5. Design Place and Route
1.6. Incremental Optimization Flow
1.7. Fast Forward Compilation Flow
1.8. Full Compilation Flow
1.9. HSSI Dual Simplex IP Generation Flow
1.10. Exporting Compilation Results
1.11. Integrating Other EDA Tools
1.12. Compiler Optimization Techniques
1.13. Compilation Monitoring Mode
1.14. Synthesis Language Support
1.15. Synthesis Settings Reference
1.16. Fitter Settings Reference
1.17. Design Compilation Revision History
1.4.3.1. Registering the SDC-on-RTL SDC File
1.4.3.2. Applying the SDC-on-RTL Constraints
1.4.3.3. Inspecting SDC-on-RTL Constraints
1.4.3.4. Creating Constraints in SDC-on-RTL SDC Files
1.4.3.5. Using Entity-Based SDC-on-RTL Constraints
1.4.3.6. Types of SDC Files Used in the Quartus® Prime Software
1.4.3.7. Example: Using SDC-on-RTL Features
1.10.1. Exporting a Version-Compatible Compilation Database
1.10.2. Importing a Version-Compatible Compilation Database
1.10.3. Creating a Design Partition
1.10.4. Exporting a Design Partition
1.10.5. Reusing a Design Partition
1.10.6. Viewing Quartus Database File Information
1.10.7. Clearing Compilation Results
1.12.1. Compiler Optimization Modes
1.12.2. Precompiled Component (PCC) Generation Stage
1.12.3. Compilation on a Compute Farm
1.12.4. Allow Register Retiming
1.12.5. Automatic Gated Clock Conversion
1.12.6. Enable Intermediate Fitter Snapshots
1.12.7. Fast Preserve Option
1.12.8. Fractal Synthesis Optimization
2.1. Factors Affecting Compilation Results
2.2. Strategies to Reduce the Overall Compilation Time
2.3. Reducing Synthesis Time and Synthesis Netlist Optimization 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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1.14.2.2. VHDL Standard Libraries and Packages
The Quartus® Prime software includes the standard IEEE libraries and several vendor-specific VHDL libraries. The IEEE library includes the standard VHDL packages std_logic_1164, numeric_std, numeric_bit, and math_real.
The STD library is part of the VHDL language standard and includes the packages standard (included in every project by default) and textio. For compatibility with older designs, the Quartus® Prime software also supports the following vendor-specific packages and libraries:
- Synopsys* packages such as std_logic_arith and std_logic_unsigned in the IEEE library.
- Mentor Graphics* packages such as std_logic_arith in the ARITHMETIC library.
- Primitive packages altera_primitives_components (for primitives such as GLOBAL and DFFE) and maxplus2 in the ALTERA library.
- IP core packages altera_mf_components in the ALTERA_MF library for specific IP cores including LCELL. In addition, lpm_components in the LPM library for library of parameterized modules (LPM) functions.
Note: Import component declarations for primitives such as GLOBAL and DFFE from the altera_primitives_components package and not the altera_mf_components package.