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1. Agilex™ 7 M-Series LVDS SERDES Overview
2. Agilex™ 7 M-Series LVDS SERDES Architecture
3. Agilex™ 7 M-Series LVDS SERDES Transmitter
4. Agilex™ 7 M-Series LVDS SERDES Receiver
5. Agilex™ 7 M-Series High-Speed LVDS I/O Implementation Guide
6. Agilex™ 7 M-Series LVDS SERDES Timing
7. LVDS SERDES Intel® FPGA IP Design Examples
8. Agilex™ 7 M-Series LVDS SERDES Design Guidelines
9. Agilex™ 7 M-Series LVDS SERDES Troubleshooting Guidelines
10. Documentation Related to the Agilex™ 7 LVDS SERDES User Guide: M-Series
11. Document Revision History for the Agilex™ 7 LVDS SERDES User Guide: M-Series
5.1.6.1. LVDS SERDES Intel® FPGA IP General Settings
5.1.6.2. LVDS SERDES Intel® FPGA IP Pin Settings
5.1.6.3. LVDS SERDES Intel® FPGA IP PLL Settings
5.1.6.4. LVDS SERDES Intel® FPGA IP Receiver Settings
5.1.6.5. LVDS SERDES Intel® FPGA IP Transmitter Settings
5.1.6.6. LVDS SERDES Intel® FPGA IP Clock Resource Summary
8.1. Use PLLs in Integer PLL Mode for LVDS SERDES
8.2. Use High-Speed Clock from PLL to Clock SERDES Only
8.3. Pin Placement for Differential Channels
8.4. SERDES Pin Pairs for Soft-CDR Mode
8.5. Placing LVDS SERDES Transmitters and Receivers in the Same GPIO-B Sub-Bank with External PLL
8.6. Sharing LVDS SERDES I/O Lane with Other Intel® FPGA IPs
8.7. VCCIO_PIO Power Scheme for LVDS SERDES
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5.3. LVDS SERDES IP Initialization and Reset
During device initialization, the clock reference must be stable while the PLL is locking to it to avoid corruption of the PLL output clock phase shifts. If the output clock phase shifts are incorrect, data transfer between the high-speed LVDS SERDES and low-speed parallel domain can fail and causes corrupted data.
After you have initialized the IP in DPA or non-DPA mode, you can perform word boundaries alignment using the bit slip control signal.