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1.1.1. Timing Path and Clock Analysis
1.1.2. Clock Setup Analysis
1.1.3. Clock Hold Analysis
1.1.4. Recovery and Removal Analysis
1.1.5. Multicycle Path Analysis
1.1.6. Metastability Analysis
1.1.7. Timing Pessimism
1.1.8. Clock-As-Data Analysis
1.1.9. Multicorner Timing Analysis
1.1.10. Time Borrowing
2.1. Using Timing Constraints throughout the Design Flow
2.2. Timing Analysis Flow
2.3. Applying Timing Constraints
2.4. Timing Constraint Descriptions
2.5. Timing Report Descriptions
2.6. Scripting Timing Analysis
2.7. Using the Quartus® Prime Timing Analyzer Document Revision History
2.8. Quartus® Prime Pro Edition User Guide: Timing Analyzer Archive
2.4.4.5.1. Default Multicycle Analysis
2.4.4.5.2. End Multicycle Setup = 2 and End Multicycle Hold = 0
2.4.4.5.3. End Multicycle Setup = 2 and End Multicycle Hold = 1
2.4.4.5.4. Same Frequency Clocks with Destination Clock Offset
2.4.4.5.5. Destination Clock Frequency is a Multiple of the Source Clock Frequency
2.4.4.5.6. Destination Clock Frequency is a Multiple of the Source Clock Frequency with an Offset
2.4.4.5.7. Source Clock Frequency is a Multiple of the Destination Clock Frequency
2.4.4.5.8. Source Clock Frequency is a Multiple of the Destination Clock Frequency with an Offset
2.5.1. Report Fmax Summary
2.5.2. Report Timing
2.5.3. Report Timing By Source Files
2.5.4. Report Data Delay
2.5.5. Report Net Delay
2.5.6. Report Clocks and Clock Network
2.5.7. Report Clock Transfers
2.5.8. Report Metastability
2.5.9. Report CDC Viewer
2.5.10. Report Asynchronous CDC
2.5.11. Report Logic Depth
2.5.12. Report Neighbor Paths
2.5.13. Report Register Spread
2.5.14. Report Route Net of Interest
2.5.15. Report Retiming Restrictions
2.5.16. Report Register Statistics
2.5.17. Report Pipelining Information
2.5.18. Report Time Borrowing Data
2.5.19. Report Exceptions and Exceptions Reachability
2.5.20. Report Bottlenecks
2.5.21. Check Timing
2.5.22. Report SDC
3.1.1. CDC Timing Overview
3.1.2. Identifying CDC Timing Issues Using Design Assistant
3.1.3. Identifying CDC Timing Issues Using Timing Reports
3.1.4. Debug CDC Example 1—Incorrect SDC Definition
3.1.5. Debug CDC Example 2—Additional Logic in the Crossing
3.1.6. Debug CDC Example 3—CDC Depending on Two Simultaneous Clock Domains
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2.6.1. The quartus_sta Executable
The quartus_sta executable allows you to run timing analysis without running the full Quartus® Prime software GUI. The following methods are available:
- To run the Timing Analyzer in interactive command-shell mode, type the following at the command prompt:
quartus_sta -s
- To run timing analysis from a system command prompt, type the following command:
quartus_sta <options><project_name>
You can optionally use command line options available to perform iterative timing analysis on large designs. You can perform a less intensive analysis with quartus_sta --mode=implement. In this mode, the Quartus® Prime software performs a reduced-corner timing analysis. When you achieve the desired result, you can use quartus_sta --mode=finalize to perform final Fitter optimizations and a full multi-corner timing analysis under all operating conditions.
Command-Line Option | Description |
---|---|
-h | --help | Provides help information on quartus_sta. |
-t <script file> | --script=<script file> | Sources the <script file>. |
-s | --shell | Enters shell mode. |
--tcl_eval <tcl command> | Evaluates the Tcl command <tcl command>. |
--do_report_timing | For all clocks in the design, run the following commands: report_timing -npaths 1 -to_clock $clock report_timing -setup -npaths 1 -to_clock $clock report_timing -hold -npaths 1 -to_clock $clock report_timing -recovery -npaths 1 -to_clock $clock report_timing -removal -npaths 1 -to_clock $clock |
--force_dat | Forces an update of the project database with new delay information. |
--lower_priority | Lowers the computing priority of the quartus_sta process. |
--post_map | Uses the post-map database results. |
--sdc=<SDC file> | Specifies the .sdc file to use. |
--report_script=<custom script> | Specifies a custom report script to call. |
--speed=<value> | Specifies the device speed grade used for timing analysis. |
-f <argument file> | Specifies a file containing additional command-line arguments. |
-c <revision name> | --rev=<revision_name> | Specifies which revision and its associated Quartus® Prime Settings File (.qsf) to use. |
--multicorner | Specifies that the Timing Analyzer generates all slack summary reports for both slow- and fast-corners. |
--multicorner[=on|off] | Turns off multicorner timing analysis. |
--voltage=<value_in_mV> | Specifies the device voltage, in mV used for timing analysis. |
--temperature=<value_in_C> | Specifies the device temperature in degrees Celsius, used for timing analysis. |
--parallel [=<num_processors>] | Specifies the number of computer processors to use on a multiprocessor system. |
--mode=implement|finalize | Regulates whether Timing Analyzer performs a reduced-corner analysis for intermediate operations (implement),or a four-corner analysis for final Fitter optimization and placement (finalize). |