GTS JESD204B Intel® FPGA IP User Guide

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ID 832100
Date 4/16/2025
Public
Document Table of Contents
Document Table of Contents x
1. GTS JESD204B IP Quick Reference 2. About the GTS JESD204B Intel® FPGA IP 3. Getting Started 4. GTS JESD204B IP Functional Description 5. GTS JESD204B IP Deterministic Latency Implementation Guidelines 6. GTS JESD204B IP Debug Guidelines 7. Document Revision History for the GTS JESD204B Intel® FPGA IP User Guide
2. About the GTS JESD204B Intel® FPGA IP x
2.1. Release Information 2.2. Device Family Support 2.3. Datapath Modes 2.4. IP Variation 2.5. GTS JESD204B IP Configuration 2.6. Channel Bonding 2.7. Performance and Resource Utilization
3. Getting Started x
3.1. Introduction to Intel® FPGA IP Cores 3.2. Installing and Licensing Intel® FPGA IP Cores 3.3. Intel® FPGA IP Evaluation Mode 3.4. Upgrading IP Cores 3.5. IP Catalog and Parameter Editor 3.6. Design Walkthrough 3.7. GTS JESD204B IP Design Considerations 3.8. GTS JESD204B Intel® FPGA IP Parameters 3.9. Analog Parameter Settings 3.10. GTS JESD204B IP Component Files
3.6. Design Walkthrough x
3.6.1. Creating a New Quartus® Prime Project 3.6.2. Parameterizing and Generating the IP 3.6.3. Compiling the GTS JESD204B IP Core Design 3.6.4. Programming an FPGA Device
3.7. GTS JESD204B IP Design Considerations x
3.7.1. Integrating the GTS JESD204B IP in Platform Designer 3.7.2. Pin Assignments 3.7.3. Configuring the GTS Reset Sequencer Intel® FPGA IP
4. GTS JESD204B IP Functional Description x
4.1. Transmitter 4.2. Receiver 4.3. Dual Simplex Support 4.4. Operation 4.5. Clocking Scheme 4.6. Reset Scheme 4.7. Signals 4.8. Registers
4.1. Transmitter x
4.1.1. TX Data Link Layer 4.1.2. TX PHY Layer
4.1.1. TX Data Link Layer x
4.1.1.1. TX CGS 4.1.1.2. TX ILAS 4.1.1.3. User Data Phase
4.2. Receiver x
4.2.1. RX Data Link Layer 4.2.2. RX PHY Layer
4.2.1. RX Data Link Layer x
4.2.1.1. RX CGS 4.2.1.2. Frame Synchronization 4.2.1.3. Frame Alignment 4.2.1.4. Lane Alignment 4.2.1.5. ILAS Data 4.2.1.6. Initial Lane Synchronization
4.4. Operation x
4.4.1. Operating Modes 4.4.2. Scrambler/Descrambler 4.4.3. SYNC_N Signal 4.4.4. Link Reinitialization 4.4.5. Link Startup Sequence 4.4.6. Error Reporting Through SYNC_N Signal
4.4.1. Operating Modes x
4.4.1.1. Subclass 0 Operating Mode 4.4.1.2. Subclass 1 Operating Mode 4.4.1.3. Subclass 2 Operating Mode
4.5. Clocking Scheme x
4.5.1. Device Clock 4.5.2. Link Clock 4.5.3. Local MultiFrame Clock 4.5.4. Clock Correlation 4.5.5. GTS Reset Sequencer Intel® FPGA IP Clock
4.6. Reset Scheme x
4.6.1. Reset Sequence 4.6.2. TX Reset Entry and Exit Sequence 4.6.3. RX Reset Entry and Exit Sequence
4.7. Signals x
4.7.1. Transmitter Signals 4.7.2. Receiver Signals
4.8. Registers x
4.8.1. Register Access Type Convention 4.8.2. Register Map and Definition 4.8.3. Transmitter Registers 4.8.4. Receiver Registers
5. GTS JESD204B IP Deterministic Latency Implementation Guidelines x
5.1. Constraining Incoming SYSREF Signal 5.2. Programmable RBD Offset 5.3. Programmable LMFC Offset 5.4. Maintaining Deterministic Latency during Link Reinitialization
6. GTS JESD204B IP Debug Guidelines x
6.1. Clocking Scheme 6.2. GTS JESD204B Parameters 6.3. SPI Programming 6.4. Converter and FPGA Operating Conditions 6.5. Signal Polarity and FPGA Pin Assignment 6.6. Transceiver Toolkit
1. GTS JESD204B IP Quick Reference
2. About the GTS JESD204B Intel® FPGA IP
3. Getting Started
4. GTS JESD204B IP Functional Description
5. GTS JESD204B IP Deterministic Latency Implementation Guidelines
6. GTS JESD204B IP Debug Guidelines
7. Document Revision History for the GTS JESD204B Intel® FPGA IP User Guide

4.1.1.1. TX CGS

The CGS phase is achieved through the following process:
  • Upon reset, the converter device (RX) issues a synchronization request by driving SYNC_N low. The GTS JESD204B TX IP core transmits a stream of /K/ = /K28.5/ symbols. The receiver synchronizes when it receives four consecutive /K/ symbols.
  • For Subclass 0, the RX converter devices deassert SYNC_N signal at the frame boundary. After all receivers have deactivated their synchronization requests, the GTS JESD204B TX IP core continues to emit /K/ symbols until the start of the next frame. The core proceeds to transmit ILAS data sequence or encoded user data if csr_lane_sync_en signal is disabled.
  • For Subclass 1 and 2, the RX converter devices deassert SYNC_N signal at the LMFC boundary. After all receivers deactivate the SYNC_N signal, the GTS JESD204B TX IP core continues to transmit /K/ symbols until the next LMFC boundary. At the next LMFC boundary, the GTS JESD204B IP core transmits ILAS data sequence. (There is no programmability to use a later LMFC boundary.)
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