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1. Stratix® 10 High-Speed LVDS I/O Overview
2. Stratix® 10 High-Speed LVDS I/O Architecture and Features
3. Stratix 10 High-Speed LVDS I/O Design Considerations
4. Stratix® 10 High-Speed LVDS I/O Implementation Guides
5. LVDS SERDES Intel® FPGA IP References
6. Stratix® 10 High-Speed LVDS I/O User Guide Archives
7. Document Revision History for the Stratix® 10 High-Speed LVDS I/O User Guide
3.1. PLLs and Clocking for Stratix® 10 Devices
3.2. Source-Synchronous Timing Budget
3.3. Guideline: LVDS SERDES IP Core Instantiation
3.4. Guideline: LVDS SERDES Pin Pairs for Soft-CDR Mode
3.5. Guideline: LVDS Transmitters and Receivers in the Same I/O Bank
3.6. Guideline: LVDS SERDES Limitation for Stratix® 10 GX 400, SX 400, and TX 400
3.1.1. Clocking Differential Transmitters
3.1.2. Clocking Differential Receivers
3.1.3. Guideline: LVDS Reference Clock Source
3.1.4. Guideline: Use PLLs in Integer PLL Mode for LVDS
3.1.5. Guideline: Use High-Speed Clock from PLL to Clock LVDS SERDES Only
3.1.6. Guideline: Pin Placement for Differential Channels
3.1.7. LVDS Interface with External PLL Mode
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4.2. 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.