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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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2.3.2.2. Signal Activities from RTL (Functional) Simulation, Supplemented by Vectorless Estimation
In the functional simulation flow, simulation provides toggle rates and static probabilities for all pins and registers in your design. Vectorless estimation fills in the values for all the combinational nodes between pins and registers, giving good results. This flow usually provides a compilation time benefit when you use the third-party RTL simulator.