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1. Intel Agilex® 7 FPGA M-Series Clocking and PLL Overview
2. M-Series Clocking and PLL Architecture and Features
3. M-Series Clocking and PLL Design Considerations
4. Clock Control Intel® FPGA IP Core
5. IOPLL Intel® FPGA IP Core
6. Document Revision History for the Intel Agilex® 7 Clocking and PLL User Guide: M-Series
2.2.1. PLL Features
2.2.2. PLL Usage
2.2.3. PLL Locations
2.2.4. PLL Architecture
2.2.5. PLL Control Signals
2.2.6. PLL Feedback Modes
2.2.7. Clock Multiplication and Division
2.2.8. Programmable Phase Shift
2.2.9. Programmable Duty Cycle
2.2.10. PLL Cascading
2.2.11. PLL Input Clock Switchover
2.2.12. PLL Reconfiguration and Dynamic Phase Shift
2.2.13. PLL Calibration
3.1. Guidelines: Clock Switchover
3.2. Guidelines: Timing Closure
3.3. Guidelines: Resetting the PLL
3.4. Guidelines: Configuration Constraints
3.5. Clocking Constraints
3.6. IP Core Constraints
3.7. Guideline: Achieving 5% Duty Cycle for fOUT_EXT ≥ 300 MHz Using tx_outclk Port from LVDS SERDES Intel® FPGA IP
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2.2.4. PLL Architecture
Figure 10. I/O Bank I/O PLL High-Level Block Diagram for M-Series Devices
Figure 11. Fabric-Feeding I/O PLL High-Level Block Diagram for M-Series Devices
Note:
- The dedicated clock inputs can feed only one PLL via the dedicated clock path. To feed the second PLL, the clock must be routed onto a global clock network.
- If a global reference clock source is required, this clock must be promoted using the Assignment Editor to promote the PLL refclk to a global signal.
- Cascade Output to Adjacent I/O PLL is not applicable to fabric-feeding I/O PLLs located in UIBSS as they do not support any type of cascading.