V-Series Transceiver PHY IP Core User Guide

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ID 683171
Date 7/26/2022
Public
Document Table of Contents
Document Table of Contents x
1. Introduction to the Protocol-Specific and Native Transceiver PHYs 2. Getting Started Overview 3. 10GBASE-R PHY IP Core 4. Backplane Ethernet 10GBASE-KR PHY IP Core 5. 1G/10Gbps Ethernet PHY IP Core 6. 1G/2.5G/5G/10G Multi-rate Ethernet PHY IP Core 7. XAUI PHY IP Core 8. Interlaken PHY IP Core 9. PHY IP Core for PCI Express (PIPE) 10. Custom PHY IP Core 11. Low Latency PHY IP Core 12. Deterministic Latency PHY IP Core 13. Stratix V Transceiver Native PHY IP Core 14. Arria V Transceiver Native PHY IP Core 15. Arria V GZ Transceiver Native PHY IP Core 16. Cyclone V Transceiver Native PHY IP Core Overview 17. Transceiver Reconfiguration Controller IP Core Overview 18. Transceiver PHY Reset Controller IP Core 19. Transceiver PLL IP Core for Stratix V, Arria V, and Arria V GZ Devices 20. Analog Parameters Set Using QSF Assignments 21. Migrating from Stratix IV to Stratix V Devices Overview 22. Additional Information for the Transceiver PHY IP Core
1. Introduction to the Protocol-Specific and Native Transceiver PHYs x
1.1. Protocol-Specific Transceiver PHYs 1.2. Native Transceiver PHYs 1.3. Non-Protocol-Specific Transceiver PHYs 1.4. Transceiver PHY Modules 1.5. Transceiver Reconfiguration Controller 1.6. Resetting the Transceiver PHY 1.7. Running a Simulation Testbench 1.8. Unsupported Features
2. Getting Started Overview x
2.1. Installation and Licensing of IP Cores 2.2. Design Flows 2.3. MegaWizard Plug-In Manager Flow
2.3. MegaWizard Plug-In Manager Flow x
2.3.1. Specifying Parameters 2.3.2. Simulate the IP Core
3. 10GBASE-R PHY IP Core x
3.1. 10GBASE-R PHY Release Information 3.2. 10GBASE-R PHY Device Family Support 3.3. 10GBASE-R PHY Performance and Resource Utilization for Stratix IV Devices 3.4. 10GBASE-R PHY Performance and Resource Utilization for Arria V GT Devices 3.5. 10GBASE-R PHY Performance and Resource Utilization for Arria V GZ and Stratix V Devices 3.6. Parameterizing the 10GBASE-R PHY 3.7. General Option Parameters 3.8. Analog Parameters for Stratix IV Devices 3.9. 10GBASE-R PHY Interfaces 3.10. 10GBASE-R PHY Data Interfaces 3.11. 10GBASE-R PHY Status, 1588, and PLL Reference Clock Interfaces 3.12. Optional Reset Control and Status Interface 3.13. 10GBASE-R PHY Clocks for Arria V GT Devices 3.14. 10GBASE-R PHY Clocks for Arria V GZ Devices 3.15. 10GBASE-R PHY Clocks for Stratix IV Devices 3.16. 10GBASE-R PHY Clocks for Stratix V Devices 3.17. 10GBASE-R PHY Register Interface and Register Descriptions 3.18. 10GBASE-R PHY Dynamic Reconfiguration for Stratix IV Devices 3.19. 10GBASE-R PHY Dynamic Reconfiguration for Arria V and Stratix V Devices 3.20. 1588 Delay Requirements 3.21. 10GBASE-R PHY TimeQuest Timing Constraints 3.22. 10GBASE-R PHY Simulation Files and Example Testbench
4. Backplane Ethernet 10GBASE-KR PHY IP Core x
4.1. 10GBASE-KR PHY Release Information 4.2. Device Family Support 4.3. 10GBASE-KR PHY Performance and Resource Utilization 4.4. Parameterizing the 10GBASE-KR PHY 4.5. 10GBASE-KR PHY IP Core Functional Description 4.6. 10GBASE-KR Dynamic Reconfiguration from 1G to 10GbE 4.7. 10GBASE-KR PHY Arbitration Logic Requirements 4.8. 10GBASE-KR PHY State Machine Logic Requirements 4.9. Forward Error Correction (Clause 74) 4.10. 10BASE-KR PHY Interfaces 4.11. 10GBASE-KR PHY Clock and Reset Interfaces 4.12. Register Interface Signals 4.13. 10GBASE-KR PHY Register Definitions 4.14. PMA Registers 4.15. PCS Registers 4.16. Creating a 10GBASE-KR Design 4.17. Editing a 10GBASE-KR MIF File 4.18. Design Example 4.19. SDC Timing Constraints 4.20. Acronyms
4.4. Parameterizing the 10GBASE-KR PHY x
4.4.1. 10GBASE-KR Link Training Parameters 4.4.2. 10GBASE-KR Auto-Negotiation and Link Training Parameters 4.4.3. 10GBASE-R Parameters 4.4.4. 1GbE Parameters 4.4.5. Speed Detection Parameters 4.4.6. PHY Analog Parameters
4.11. 10GBASE-KR PHY Clock and Reset Interfaces x
4.11.1. 10GBASE-KR PHY Data Interfaces 4.11.2. 10GBASE-KR PHY Control and Status Interfaces 4.11.3. Daisy-Chain Interface Signals 4.11.4. Embedded Processor Interface Signals 4.11.5. Dynamic Reconfiguration Interface Signals
4.11.1. 10GBASE-KR PHY Data Interfaces x
4.11.1.1. 10GBASE-KR PHY XGMII Mapping to Standard SDR XGMII Data 4.11.1.2. 10GBASE-KR PHY Serial Data Interface 4.11.1.3. MII Interface Signals
5. 1G/10Gbps Ethernet PHY IP Core x
5.1. 1G/10GbE PHY Release Information 5.2. Device Family Support 5.3. 1G/10GbE PHY Performance and Resource Utilization 5.4. Parameterizing the 1G/10GbE PHY 5.5. 1GbE Parameters 5.6. Speed Detection Parameters 5.7. PHY Analog Parameters 5.8. 1G/10GbE PHY Interfaces 5.9. 1G/10GbE PHY Clock and Reset Interfaces 5.10. 1G/10GbE PHY Data Interfaces 5.11. XGMII Mapping to Standard SDR XGMII Data 5.12. MII Interface Signals 5.13. Serial Data Interface 5.14. 1G/10GbE Control and Status Interfaces 5.15. Register Interface Signals 5.16. 1G/10GbE PHY Register Definitions 5.17. PMA Registers 5.18. PCS Registers 5.19. 1G/10GbE GMII PCS Registers 5.20. GIGE PMA Registers 5.21. 1G/10GbE Dynamic Reconfiguration from 1G to 10GbE 5.22. 1G/10GbE PHY Arbitration Logic Requirements 5.23. 1G/10GbE PHY State Machine Logic Requirements 5.24. Editing a 1G/10GbE MIF File 5.25. Creating a 1G/10GbE Design 5.26. Dynamic Reconfiguration Interface Signals 5.27. Design Example 5.28. Simulation Support 5.29. TimeQuest Timing Constraints 5.30. Acronyms
6. 1G/2.5G/5G/10G Multi-rate Ethernet PHY IP Core x
6.1. About the 1G/2.5G/5G/10G Multi-rate Ethernet PHY Intel® FPGA IP Core 6.2. Using the IP Core 6.3. Configuration Registers 6.4. Interface Signals
6.1. About the 1G/2.5G/5G/10G Multi-rate Ethernet PHY Intel® FPGA IP Core x
6.1.1. Features 6.1.2. Release Information 6.1.3. Device Family Support 6.1.4. Resource Utilization
6.2. Using the IP Core x
6.2.1. Parameter Settings 6.2.2. Timing Constraints 6.2.3. Changing the PHY's Speed
6.3. Configuration Registers x
6.3.1. Register Map 6.3.2. Configuration Registers
6.4. Interface Signals x
6.4.1. Clock and Reset Signals 6.4.2. Operating Mode and Speed Signals 6.4.3. GMII Signals 6.4.4. XGMII Signals 6.4.5. Status Signals 6.4.6. Serial Interface Signals 6.4.7. Transceiver Status and Reconfiguration Signals 6.4.8. Avalon® Memory-Mapped Interface Signals
7. XAUI PHY IP Core x
7.1. XAUI PHY Release Information 7.2. XAUI PHY Device Family Support 7.3. XAUI PHY Performance and Resource Utilization for Stratix IV Devices 7.4. XAUI PHY Performance and Resource Utilization for Arria V GZ and Stratix V Devices 7.5. Parameterizing the XAUI PHY 7.6. XAUI PHY General Parameters 7.7. XAUI PHY Analog Parameters 7.8. XAUI PHY Analog Parameters for Arria II GX, Cyclone IV GX, HardCopy IV and Stratix IV Devices 7.9. Advanced Options Parameters 7.10. XAUI PHY Configurations 7.11. XAUI PHY Ports 7.12. XAUI PHY Data Interfaces 7.13. XAUI PHY Clocks, Reset, and Powerdown Interfaces 7.14. XAUI PHY PMA Channel Controller Interface 7.15. XAUI PHY Optional PMA Control and Status Interface 7.16. XAUI PHY Register Interface and Register Descriptions 7.17. XAUI PHY Dynamic Reconfiguration for Arria II GX, Cyclone IV GX, HardCopy IV GX, and Stratix IV GX 7.18. XAUI PHY Dynamic Reconfiguration for Arria V, Arria V GZ, Cyclone V and Stratix V Devices 7.19. SDC Timing Constraints 7.20. Simulation Files and Example Testbench
7.12. XAUI PHY Data Interfaces x
7.12.1. SDR XGMII TX Interface 7.12.2. SDR XGMII RX Interface 7.12.3. Transceiver Serial Data Interface
7.18. XAUI PHY Dynamic Reconfiguration for Arria V, Arria V GZ, Cyclone V and Stratix V Devices x
7.18.1. Logical Lane Assignment Restriction 7.18.2. XAUI PHY Dynamic Reconfiguration Interface Signals
8. Interlaken PHY IP Core x
8.1. Interlaken PHY Device Family Support 8.2. Parameterizing the Interlaken PHY 8.3. Interlaken PHY General Parameters 8.4. Interlaken PHY Optional Port Parameters 8.5. Interlaken PHY Analog Parameters 8.6. Interlaken PHY Interfaces 8.7. Interlaken PHY Avalon-ST TX Interface 8.8. Interlaken PHY Avalon-ST RX Interface 8.9. Interlaken PHY TX and RX Serial Interface 8.10. Interlaken PHY PLL Interface 8.11. Interlaken Optional Clocks for Deskew 8.12. Interlaken PHY Register Interface and Register Descriptions 8.13. Why Transceiver Dynamic Reconfiguration 8.14. Dynamic Transceiver Reconfiguration Interface 8.15. Interlaken PHY TimeQuest Timing Constraints 8.16. Interlaken PHY Simulation Files and Example Testbench
9. PHY IP Core for PCI Express (PIPE) x
9.1. PHY for PCIe (PIPE) Device Family Support 9.2. PHY for PCIe (PIPE) Resource Utilization 9.3. Parameterizing the PHY IP Core for PCI Express (PIPE) 9.4. PHY for PCIe (PIPE) General Options Parameters 9.5. PHY for PCIe (PIPE) Interfaces 9.6. PHY for PCIe (PIPE) Input Data from the PHY MAC 9.7. PHY for PCIe (PIPE) Output Data to the PHY MAC 9.8. PHY for PCIe (PIPE) Clocks 9.9. PHY for PCIe (PIPE) Clock SDC Timing Constraints for Gen3 Designs 9.10. PHY for PCIe (PIPE) Optional Status Interface 9.11. PHY for PCIe (PIPE) Serial Data Interface 9.12. PHY for PCIe (PIPE) Register Interface and Register Descriptions 9.13. PHY for PCIe (PIPE) Link Equalization for Gen3 Data Rate 9.14. Enabling Dynamic PMA Tuning for PCIe Gen3 9.15. PHY for PCIe (PIPE) Dynamic Reconfiguration 9.16. PHY for PCIe (PIPE) Simulation Files and Example Testbench
9.13. PHY for PCIe (PIPE) Link Equalization for Gen3 Data Rate x
9.13.1. Phase 0 9.13.2. Phase 1 9.13.3. Phase 2 (Optional) 9.13.4. Phase 3 (Optional) 9.13.5. Recommendations for Tuning Link Partner’s Transmitter
9.15. PHY for PCIe (PIPE) Dynamic Reconfiguration x
9.15.1. Logical Lane Assignment Restriction
10. Custom PHY IP Core x
10.1. Device Family Support 10.2. Performance and Resource Utilization 10.3. Parameterizing the Custom PHY 10.4. Interfaces
10.3. Parameterizing the Custom PHY x
10.3.1. General Options Parameters 10.3.2. Word Alignment Parameters 10.3.3. Rate Match FIFO Parameters 10.3.4. 8B/10B Encoder and Decoder Parameters 10.3.5. Byte Order Parameters 10.3.6. PLL Reconfiguration Parameters 10.3.7. Analog Parameters 10.3.8. Presets for Ethernet
10.4. Interfaces x
10.4.1. Data Interfaces 10.4.2. Clock Interface 10.4.3. Optional Status Interface 10.4.4. Optional Reset Control and Status Interface 10.4.5. Register Interface and Register Descriptions 10.4.6. Custom PHY IP Core Registers 10.4.7. SDC Timing Constraints 10.4.8. Dynamic Reconfiguration
10.4.6. Custom PHY IP Core Registers x
10.4.6.1. PMA Common Control and Status Registers 10.4.6.2. Reset Control Registers–Automatic Reset Controller 10.4.6.3. Reset Controls –Manual Mode 10.4.6.4. PMA Control and Status Registers 10.4.6.5. Custom PCS
11. Low Latency PHY IP Core x
11.1. Device Family Support 11.2. Performance and Resource Utilization 11.3. Parameterizing the Low Latency PHY 11.4. General Options Parameters 11.5. Additional Options Parameters 11.6. PLL Reconfiguration Parameters 11.7. Low Latency PHY Analog Parameters 11.8. Low Latency PHY Interfaces 11.9. Low Latency PHY Data Interfaces 11.10. Optional Status Interface 11.11. Low Latency PHY Clock Interface 11.12. Optional Reset Control and Status Interface 11.13. Register Interface and Register Descriptions 11.14. Dynamic Reconfiguration 11.15. SDC Timing Constraints 11.16. Simulation Files and Example Testbench
12. Deterministic Latency PHY IP Core x
12.1. Deterministic Latency Auto-Negotiation 12.2. Achieving Deterministic Latency 12.3. Deterministic Latency PHY Delay Estimation Logic 12.4. Deterministic Latency PHY Device Family Support 12.5. Parameterizing the Deterministic Latency PHY 12.6. Interfaces for Deterministic Latency PHY 12.7. Data Interfaces for Deterministic Latency PHY 12.8. Clock Interface for Deterministic Latency PHY 12.9. Optional TX and RX Status Interface for Deterministic Latency PHY 12.10. Optional Reset Control and Status Interfaces for Deterministic Latency PHY 12.11. Register Interface and Descriptions for Deterministic Latency PHY 12.12. Dynamic Reconfiguration for Deterministic Latency PHY 12.13. Channel Placement and Utilization for Deterministic Latency PHY 12.14. SDC Timing Constraints 12.15. Simulation Files and Example Testbench for Deterministic Latency PHY
12.5. Parameterizing the Deterministic Latency PHY x
12.5.1. General Options Parameters for Deterministic Latency PHY 12.5.2. Additional Options Parameters for Deterministic Latency PHY 12.5.3. PLL Reconfiguration Parameters for Deterministic Latency PHY 12.5.4. Deterministic Latency PHY Analog Parameters
13. Stratix V Transceiver Native PHY IP Core x
13.1. Device Family Support for Stratix V Native PHY 13.2. Performance and Resource Utilization for Stratix V Native PHY 13.3. Parameter Presets 13.4. Parameterizing the Stratix V Native PHY 13.5. Interfaces for Stratix V Native PHY 13.6. ×6/×N Bonded Clocking 13.7. xN Non-Bonded Clocking 13.8. SDC Timing Constraints of Stratix V Native PHY 13.9. Dynamic Reconfiguration for Stratix V Native PHY 13.10. Simulation Support 13.11. Slew Rate Settings
13.4. Parameterizing the Stratix V Native PHY x
13.4.1. General Parameters for Stratix V Native PHY 13.4.2. PMA Parameters for Stratix V Native PHY 13.4.3. Standard PCS Parameters for the Native PHY 13.4.4. 10G PCS Parameters for Stratix V Native PHY
13.4.3. Standard PCS Parameters for the Native PHY x
13.4.3.1. Standard PCS Pattern Generators
13.4.4. 10G PCS Parameters for Stratix V Native PHY x
13.4.4.1. 10G PCS Pattern Generators
13.5. Interfaces for Stratix V Native PHY x
13.5.1. Common Interface Ports for Stratix V Native PHY 13.5.2. Standard PCS Interface Ports 13.5.3. 10G PCS Interface
14. Arria V Transceiver Native PHY IP Core x
14.1. Device Family Support 14.2. Performance and Resource Utilization 14.3. Parameterizing the Arria V Native PHY 14.4. General Parameters 14.5. PMA Parameters 14.6. Standard PCS Parameters 14.7. Interfaces 14.8. SDC Timing Constraints 14.9. Dynamic Reconfiguration 14.10. Simulation Support 14.11. Slew Rate Settings
14.5. PMA Parameters x
14.5.1. TX PMA Parameters 14.5.2. TX PLL Parameters 14.5.3. RX PMA Parameters
14.6. Standard PCS Parameters x
14.6.1. Phase Compensation FIFO 14.6.2. Byte Ordering Block Parameters 14.6.3. Byte Serializer and Deserializer 14.6.4. 8B/10B 14.6.5. Rate Match FIFO 14.6.6. Word Aligner and BitSlip Parameters 14.6.7. Bit Reversal and Polarity Inversion
14.7. Interfaces x
14.7.1. Common Interface Ports 14.7.2. Standard PCS Interface Ports
15. Arria V GZ Transceiver Native PHY IP Core x
15.1. Device Family Support for Arria V GZ Native PHY 15.2. Performance and Resource Utilization for Arria V GZ Native PHY 15.3. Parameter Presets 15.4. Parameterizing the Arria V GZ Native PHY 15.5. Interfaces for Arria V GZ Native PHY 15.6. SDC Timing Constraints of Arria V GZ Native PHY 15.7. Dynamic Reconfiguration for Arria V GZ Native PHY 15.8. Simulation Support 15.9. Slew Rate Settings
15.4. Parameterizing the Arria V GZ Native PHY x
15.4.1. General Parameters for Arria V GZ Native PHY 15.4.2. PMA Parameters for Arria V GZ Native PHY 15.4.3. Standard PCS Parameters for the Native PHY 15.4.4. 10G PCS Parameters for Arria V GZ Native PHY
15.4.3. Standard PCS Parameters for the Native PHY x
15.4.3.1. Standard PCS Pattern Generators
15.4.4. 10G PCS Parameters for Arria V GZ Native PHY x
15.4.4.1. 10G PCS Pattern Generators
15.5. Interfaces for Arria V GZ Native PHY x
15.5.1. Common Interface Ports for Arria V GZ Native PHY 15.5.2. Standard PCS Interface Ports 15.5.3. 10G PCS Interface
16. Cyclone V Transceiver Native PHY IP Core Overview x
16.1. Cyclone Device Family Support 16.2. Cyclone V Native PHY Performance and Resource Utilization 16.3. Parameterizing the Cyclone V Native PHY 16.4. General Parameters 16.5. PMA Parameters 16.6. Standard PCS Parameters 16.7. Interfaces 16.8. SDC Timing Constraints 16.9. Dynamic Reconfiguration 16.10. Simulation Support 16.11. Slew Rate Settings
16.5. PMA Parameters x
16.5.1. TX PMA Parameters 16.5.2. TX PLL Parameters 16.5.3. RX PMA Parameters
16.6. Standard PCS Parameters x
16.6.1. Phase Compensation FIFO 16.6.2. Byte Ordering Block Parameters 16.6.3. Byte Serializer and Deserializer 16.6.4. 8B/10B 16.6.5. Rate Match FIFO 16.6.6. Word Aligner and BitSlip Parameters 16.6.7. Bit Reversal and Polarity Inversion
16.7. Interfaces x
16.7.1. Common Interface Ports 16.7.2. Cyclone V Standard PCS Interface Ports
17. Transceiver Reconfiguration Controller IP Core Overview x
17.1. Transceiver Reconfiguration Controller System Overview 17.2. Transceiver Reconfiguration Controller Performance and Resource Utilization 17.3. Parameterizing the Transceiver Reconfiguration Controller IP Core 17.4. Parameterizing the Transceiver Reconfiguration Controller IP Core in Qsys 17.5. Transceiver Reconfiguration Controller Interfaces 17.6. Transceiver Reconfiguration Controller Memory Map 17.7. Transceiver Reconfiguration Controller Calibration Functions 17.8. Transceiver Reconfiguration Controller PMA Analog Control Registers 17.9. Transceiver Reconfiguration Controller EyeQ Registers 17.10. Transceiver Reconfiguration Controller DFE Registers 17.11. Controlling DFE Using Register-Based Reconfiguration 17.12. Transceiver Reconfiguration Controller AEQ Registers 17.13. Transceiver Reconfiguration Controller ATX PLL Calibration Registers 17.14. Transceiver Reconfiguration Controller PLL Reconfiguration 17.15. Transceiver Reconfiguration Controller PLL Reconfiguration Registers 17.16. Transceiver Reconfiguration Controller DCD Calibration Registers 17.17. Transceiver Reconfiguration Controller Channel and PLL Reconfiguration 17.18. Transceiver Reconfiguration Controller Streamer Module Registers 17.19. MIF Generation 17.20. Creating MIFs for Designs that Include Bonded or GT Channels 17.21. MIF Format 17.22. xcvr_diffmifgen Utility 17.23. Reduced MIF Creation 17.24. Changing Transceiver Settings Using Register-Based Reconfiguration 17.25. Changing Transceiver Settings Using Streamer-Based Reconfiguration 17.26. Pattern Generators for the Stratix V and Arria V GZ Native PHYs 17.27. Understanding Logical Channel Numbering 17.28. Two PHY IP Core Instances Each with Non-Bonded Channels 17.29. Transceiver Reconfiguration Controller to PHY IP Connectivity 17.30. Merging TX PLLs In Multiple Transceiver PHY Instances 17.31. Sharing Reconfiguration Interface for Multi-Channel Transceiver Designs 17.32. Loopback Modes
17.4. Parameterizing the Transceiver Reconfiguration Controller IP Core in Qsys x
17.4.1. General Options Parameters
17.5. Transceiver Reconfiguration Controller Interfaces x
17.5.1. MIF Reconfiguration Management Avalon-MM Master Interface 17.5.2. Transceiver Reconfiguration Interface 17.5.3. Reconfiguration Management Interface
17.7. Transceiver Reconfiguration Controller Calibration Functions x
17.7.1. Offset Cancellation 17.7.2. Duty Cycle Calibration 17.7.3. Auxiliary Transmit (ATX) PLL Calibration
17.9. Transceiver Reconfiguration Controller EyeQ Registers x
17.9.1. EyeQ Usage Example
17.11. Controlling DFE Using Register-Based Reconfiguration x
17.11.1. Turning on DFE Continuous Adaptive mode 17.11.2. Turning on Triggered DFE Mode 17.11.3. Setting the First Tap Value Using DFE in Manual Mode
17.17. Transceiver Reconfiguration Controller Channel and PLL Reconfiguration x
17.17.1. Channel Reconfiguration 17.17.2. PLL Reconfiguration
17.18. Transceiver Reconfiguration Controller Streamer Module Registers x
17.18.1. Mode 0 Streaming a MIF for Reconfiguration 17.18.2. Mode 1 Avalon-MM Direct Writes for Reconfiguration
17.24. Changing Transceiver Settings Using Register-Based Reconfiguration x
17.24.1. Register-Based Write 17.24.2. Register-Based Read
17.25. Changing Transceiver Settings Using Streamer-Based Reconfiguration x
17.25.1. Direct Write Reconfiguration 17.25.2. Streamer-Based Reconfiguration
17.26. Pattern Generators for the Stratix V and Arria V GZ Native PHYs x
17.26.1. Enabling the Standard PCS PRBS Verifier Using Streamer-Based Reconfiguration 17.26.2. Enabling the Standard PCS PRBS Generator Using Streamer-Based Reconfiguration 17.26.3. Enabling the 10G PCS PRBS Generator or Verifier Using Streamer-Based Reconfiguration 17.26.4. Disabling the Standard PCS PRBS Generator and Verifier Using Streamer-Based Reconfiguration
17.27. Understanding Logical Channel Numbering x
17.27.1. Two PHY IP Core Instances Each with Four Bonded Channels 17.27.2. One PHY IP Core Instance with Eight Bonded Channels
18. Transceiver PHY Reset Controller IP Core x
18.1. Device Family Support for Transceiver PHY Reset Controller 18.2. Performance and Resource Utilization for Transceiver PHY Reset Controller 18.3. Parameterizing the Transceiver PHY Reset Controller IP 18.4. Transceiver PHY Reset Controller Parameters 18.5. Transceiver PHY Reset Controller Interfaces 18.6. Timing Constraints for Bonded PCS and PMA Channels
19. Transceiver PLL IP Core for Stratix V, Arria V, and Arria V GZ Devices x
19.1. Parameterizing the Transceiver PLL PHY 19.2. Transceiver PLL Parameters 19.3. Transceiver PLL Signals
20. Analog Parameters Set Using QSF Assignments x
20.1. Making QSF Assignments Using the Assignment Editor 20.2. Analog Settings for Arria V Devices 20.3. Analog Settings for Arria V GZ Devices 20.4. Analog Settings for Cyclone V Devices 20.5. Analog Settings for Stratix V Devices
20.2. Analog Settings for Arria V Devices x
20.2.1. Analog Settings for Arria V Devices 20.2.2. Analog Settings Having Global or Computed Values for Arria V Devices
20.2.1. Analog Settings for Arria V Devices x
20.2.1.1. XCVR_IO_PIN_TERMINATION 20.2.1.2. XCVR_REFCLK_PIN_TERMINATION 20.2.1.3. XCVR_TX_SLEW_RATE_CTRL 20.2.1.4. XCVR_VCCR_ VCCT_VOLTAGE
20.2.2. Analog Settings Having Global or Computed Values for Arria V Devices x
20.2.2.1. CDR_BANDWIDTH_PRESET 20.2.2.2. PLL_BANDWIDTH_PRESET 20.2.2.3. XCVR_RX_DC_GAIN 20.2.2.4. XCVR_ANALOG_SETTINGS_PROTOCOL 20.2.2.5. XCVR_RX_COMMON_MODE_VOLTAGE 20.2.2.6. XCVR_RX_LINEAR_EQUALIZER_CONTROL 20.2.2.7. XCVR_RX_SD_ENABLE 20.2.2.8. XCVR_RX_SD_OFF 20.2.2.9. XCVR_RX_SD_ON 20.2.2.10. XCVR_RX_SD_THRESHOLD 20.2.2.11. XCVR_TX_COMMON_MODE_VOLTAGE 20.2.2.12. XCVR_TX_PRE_EMP_1ST_POST_TAP 20.2.2.13. XCVR_TX_RX_DET_ENABLE 20.2.2.14. XCVR_TX_RX_DET_MODE 20.2.2.15. XCVR_TX_VOD 20.2.2.16. XCVR_TX_VOD_PRE_EMP_CTRL_SRC
20.3. Analog Settings for Arria V GZ Devices x
20.3.1. Analog Settings for Arria V GZ Devices 20.3.2. Analog Settings Having Global or Computed Default Values for Arria V GZ Devices
20.3.1. Analog Settings for Arria V GZ Devices x
20.3.1.1. XCVR_IO_PIN_TERMINATION 20.3.1.2. XCVR_REFCLK_PIN_TERMINATION 20.3.1.3. XCVR_RX_BYPASS_EQ_STAGES_234 20.3.1.4. XCVR_TX_SLEW_RATE_CTRL 20.3.1.5. XCVR_VCCA_VOLTAGE 20.3.1.6. XCVR_VCCR_VCCT_VOLTAGE
20.3.2. Analog Settings Having Global or Computed Default Values for Arria V GZ Devices x
20.3.2.1. CDR_BANDWIDTH_PRESET 20.3.2.2. master_ch_number 20.3.2.3. PLL_BANDWIDTH_PRESET 20.3.2.4. reserved_channel 20.3.2.5. XCVR_ANALOG_SETTINGS_PROTOCOL 20.3.2.6. XCVR_RX_DC_GAIN 20.3.2.7. XCVR_RX_LINEAR_EQUALIZER_CONTROL 20.3.2.8. XCVR_RX_COMMON_MODE_VOLTAGE 20.3.2.9. XCVR_RX_ENABLE_LINEAR_EQUALIZER_PCIEMODE 20.3.2.10. XCVR_RX_SD_ENABLE 20.3.2.11. XCVR_RX_SD_OFF 20.3.2.12. XCVR_RX_SD_ON 20.3.2.13. XCVR_RX_SD_THRESHOLD 20.3.2.14. XCVR_TX_COMMON_MODE_VOLTAGE 20.3.2.15. XCVR_TX_PRE_EMP_PRE_TAP_USER 20.3.2.16. XCVR_TX_PRE_EMP_2ND_POST_TAP_USER 20.3.2.17. XCVR_TX_PRE_EMP_1ST_POST_TAP 20.3.2.18. XCVR_TX_PRE_EMP_2ND_POST_TAP 20.3.2.19. XCVR_TX_PRE_EMP_INV_2ND_TAP Pin Planner and Assignment Editor Name Description Options Assign To 20.3.2.20. XCVR_TX_PRE_EMP_INV_PRE_TAP 20.3.2.21. XCVR_TX_PRE_EMP_PRE_TAP 20.3.2.22. XCVR_TX_RX_DET_ENABLE 20.3.2.23. XCVR_TX_RX_DET_MODE 20.3.2.24. XCVR_TX_RX_DET_OUTPUT_SEL 20.3.2.25. XCVR_TX_VOD 20.3.2.26. XCVR_TX_VOD_PRE_EMP_CTRL_SRC
20.4. Analog Settings for Cyclone V Devices x
20.4.1. XCVR_IO_PIN_TERMINATION 20.4.2. XCVR_REFCLK_PIN_TERMINATION 20.4.3. XCVR_TX_SLEW_RATE_CTRL 20.4.4. XCVR_VCCR_ VCCT_VOLTAGE 20.4.5. Analog Settings Having Global or Computed Values for Cyclone V Devices
20.4.5. Analog Settings Having Global or Computed Values for Cyclone V Devices x
20.4.5.1. CDR_BANDWIDTH_PRESET 20.4.5.2. PLL_BANDWIDTH_PRESET 20.4.5.3. XCVR_ANALOG_SETTINGS_PROTOCOL 20.4.5.4. XCVR_RX_DC_GAIN 20.4.5.5. XCVR_RX_LINEAR_EQUALIZER_CONTROL 20.4.5.6. XCVR_RX_COMMON_MODE_VOLTAGE 20.4.5.7. XCVR_RX_SD_ENABLE 20.4.5.8. XCVR_RX_SD_OFF 20.4.5.9. XCVR_RX_SD_ON 20.4.5.10. XCVR_RX_SD_THRESHOLD 20.4.5.11. XCVR_TX_COMMON_MODE_VOLTAGE 20.4.5.12. XCVR_TX_PRE_EMP_1ST_POST_TAP 20.4.5.13. XCVR_TX_RX_DET_ENABLE 20.4.5.14. XCVR_TX_RX_DET_MODE 20.4.5.15. XCVR_TX_VOD 20.4.5.16. XCVR_TX_VOD_PRE_EMP_CTRL_SRC
20.5. Analog Settings for Stratix V Devices x
20.5.1. Analog PCB Settings for Stratix V Devices 20.5.2. Analog Settings Having Global or Computed Default Values for Stratix V Devices
20.5.1. Analog PCB Settings for Stratix V Devices x
20.5.1.1. XCVR_GT_IO_PIN_TERMINATION 20.5.1.2. XCVR_IO_PIN_TERMINATION 20.5.1.3. XCVR_REFCLK_PIN_TERMINATION 20.5.1.4. XCVR_RX_BYPASS_EQ_STAGES_234 20.5.1.5. XCVR_TX_SLEW_RATE_CTRL 20.5.1.6. XCVR_VCCA_VOLTAGE 20.5.1.7. XCVR_VCCR_VCCT_VOLTAGE
20.5.2. Analog Settings Having Global or Computed Default Values for Stratix V Devices x
20.5.2.1. CDR_BANDWIDTH_PRESET 20.5.2.2. master_ch_number 20.5.2.3. PLL_BANDWIDTH_PRESET 20.5.2.4. reserved_channel 20.5.2.5. XCVR_ANALOG_SETTINGS_PROTOCOL 20.5.2.6. XCVR_GT_RX_DC_GAIN 20.5.2.7. XCVR_RX_DC_GAIN 20.5.2.8. XCVR_RX_LINEAR_EQUALIZER_CONTROL 20.5.2.9. XCVR_GT_RX_COMMON_ MODE_VOLTAGE 20.5.2.10. XCVR_GT_RX_CTLE 20.5.2.11. XCVR_GT_TX_COMMON_ MODE_VOLTAGE 20.5.2.12. XCVR_GT_TX_PRE_EMP_1ST_POST_TAP 20.5.2.13. XCVR_GT_TX_PRE_EMP_ INV_PRE_TAP 20.5.2.14. XCVR_GT_TX_PRE_EMP_ PRE_TAP 20.5.2.15. XCVR_GT_TX_VOD_MAIN_TAP 20.5.2.16. XCVR_RX_COMMON_MODE_VOLTAGE 20.5.2.17. XCVR_RX_ENABLE_LINEAR_EQUALIZER_PCIEMODE 20.5.2.18. XCVR_RX_SD_ENABLE 20.5.2.19. XCVR_RX_SD_OFF 20.5.2.20. XCVR_RX_SD_ON 20.5.2.21. XCVR_RX_SD_THRESHOLD 20.5.2.22. XCVR_TX_COMMON_MODE_VOLTAGE 20.5.2.23. XCVR_TX_PRE_EMP_PRE_TAP_USER 20.5.2.24. XCVR_TX_PRE_EMP_2ND_POST_TAP_USER 20.5.2.25. XCVR_TX_PRE_EMP_1ST_POST_TAP 20.5.2.26. XCVR_TX_PRE_EMP_2ND_POST_TAP 20.5.2.27. XCVR_TX_PRE_EMP_INV_2ND_TAP 20.5.2.28. XCVR_TX_PRE_EMP_INV_PRE_TAP 20.5.2.29. XCVR_TX_PRE_EMP_PRE_TAP 20.5.2.30. XCVR_TX_RX_DET_ENABLE 20.5.2.31. XCVR_TX_RX_DET_MODE 20.5.2.32. XCVR_TX_RX_DET_OUTPUT_SEL 20.5.2.33. XCVR_TX_VOD 20.5.2.34. XCVR_TX_VOD_PRE_EMP_CTRL_SRC
21. Migrating from Stratix IV to Stratix V Devices Overview x
21.1. Differences in Dynamic Reconfiguration for Stratix IV and Stratix V Transceivers 21.2. Differences Between XAUI PHY Parameters for Stratix IV and Stratix V Devices 21.3. Differences Between XAUI PHY Ports in Stratix IV and Stratix V Devices 21.4. Differences Between PHY IP Core for PCIe PHY (PIPE) Parameters in Stratix IV and Stratix V Devices 21.5. Differences Between PHY IP Core for PCIe PHY (PIPE) Ports for Stratix IV and Stratix V Devices 21.6. Differences Between Custom PHY Parameters for Stratix IV and Stratix V Devices 21.7. Differences Between Custom PHY Ports in Stratix IV and Stratix V Devices
22. Additional Information for the Transceiver PHY IP Core x
22.1. Revision History for Previous Releases of the Transceiver PHY IP Core 22.2. How to Contact Intel
1. Introduction to the Protocol-Specific and Native Transceiver PHYs
2. Getting Started Overview
3. 10GBASE-R PHY IP Core
4. Backplane Ethernet 10GBASE-KR PHY IP Core
5. 1G/10Gbps Ethernet PHY IP Core
6. 1G/2.5G/5G/10G Multi-rate Ethernet PHY IP Core
7. XAUI PHY IP Core
8. Interlaken PHY IP Core
9. PHY IP Core for PCI Express (PIPE)
10. Custom PHY IP Core
11. Low Latency PHY IP Core
12. Deterministic Latency PHY IP Core
13. Stratix V Transceiver Native PHY IP Core
14. Arria V Transceiver Native PHY IP Core
15. Arria V GZ Transceiver Native PHY IP Core
16. Cyclone V Transceiver Native PHY IP Core Overview
17. Transceiver Reconfiguration Controller IP Core Overview
18. Transceiver PHY Reset Controller IP Core
19. Transceiver PLL IP Core for Stratix V, Arria V, and Arria V GZ Devices
20. Analog Parameters Set Using QSF Assignments
21. Migrating from Stratix IV to Stratix V Devices Overview
22. Additional Information for the Transceiver PHY IP Core

20.3.2.19. XCVR_TX_PRE_EMP_INV_2ND_TAP

Pin Planner and Assignment Editor Name

Transmitter Preemphasis Second Tap Invert

Description

Inverts the transmitter pre-emphasis 2nd post tap.

Options

  • TRUE
  • FALSE

Assign To

Pin - TX serial data

Related Information
Level Two Title