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2.3.2.1. Using Simulation Signal Activity Data in Power Analysis
2.3.2.2. Signal Activities from RTL (Functional) Simulation, Supplemented by Vectorless Estimation
2.3.2.3. Signal Activities from Vectorless Estimation and User-Supplied Input Pin Activities
2.3.2.4. Signal Activities from User Defaults Only
2.5.1. Complete Design Simulation Power Analysis Flow
2.5.2. Modular Design Simulation Power Analysis Flow
2.5.3. Multiple Simulation Power Analysis Flow
2.5.4. Overlapping Simulation Power Analysis Flow
2.5.5. Partial Design Simulation Power Analysis Flow
2.5.6. Vectorless Estimation Power Analysis Flow
3.4.1. Clock Power Management
3.4.2. Pipelining and Retiming
3.4.3. Architectural Optimization
3.4.4. I/O Power Guidelines
3.4.5. Dynamically Controlled On-Chip Terminations (OCT)
3.4.6. Memory Optimization (M20K/MLAB)
3.4.7. DDR Memory Controller Settings
3.4.8. DSP Implementation
3.4.9. Reducing High-Speed Tile (HST) Usage
3.4.10. Unused Transceiver Channels
3.4.11. Periphery Power reduction XCVR Settings
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2.6.1. Running the Power Analyzer from the Command–Line
The executable to run the Power Analyzer is quartus_pow. For a complete listing of all command–line options supported by quartus_pow, type the following command at a system command prompt:
quartus_pow --helpor
quartus_sh --qhelp
The following lists the examples of using the quartus_pow executable. Type the command listed in the following section at a system command prompt:
Note: These examples assume that operations are performed on Intel® Quartus® Prime project called sample.
- To customize the name of the generated EPE File:
quartus_pow sample --output_epe=sample.csv ←
- To customize the name of the generated Power and Thermal Calculator file:
quartus_pow sample --output_ptc=sample.qptc ←
- To instruct the Power Analyzer to use a .vcd as input (sample.vcd):
quartus_pow sample --input_vcd=sample.vcd ←
- To instruct the Power Analyzer to use two .vcd files as input files (sample1.vcd and sample2.vcd), perform glitch filtering on the .vcd and use a default input I/O toggle rate of 10,000 transitions per second:
quartus_pow sample --input_vcd=sample1.vcd --input_vcd=sample2.vcd \ --vcd_filter_glitches=on --\ default_input_io_toggle_rate=10000transitions/s
- To instruct the Power Analyzer not to use an input file, specify a default input I/O toggle rate of 60%, with vectorless estimation off, and a default toggle rate of 20% on all remaining signals:
quartus_pow sample --no_input_file --default_input_io_toggle_rate=60% \ --use_vectorless_estimation=off --default_toggle_rate=20%
Note: No command–line options are available to specify the information found on the Operating Settings and Conditions and Power Analyzer Settings > Thermal pages. Use the Intel® Quartus® Prime GUI to specify these options.
The quartus_pow executable creates a report file, <revision name> .pow.rpt. You can locate the report file in the main project directory. The report file contains the same information that the Power Analyzer Compilation Report.
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