F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP User Guide

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ID 711009
Date 4/11/2024
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Document Table of Contents
Document Table of Contents x
1. About the F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP Core 2. Interface Overview 3. Parameters 4. Designing with the IP Core 5. Block Description 6. Configuration Registers 7. F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP User Guide Archives 8. Document Revision History for the F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP User Guide
1. About the F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP Core x
1.1. Features 1.2. Design Considerations 1.3. Device Family Support 1.4. Resource Utilization 1.5. Release Information
2. Interface Overview x
2.1. Clock Signals 2.2. Reset 2.3. Avalon® Memory-Mapped Interface 2.4. Control and Status Interface
4. Designing with the IP Core x
4.1. Generating Dynamic Reconfiguration Design and Configuration Profiles 4.2. Dynamic Reconfiguration QSF Settings 4.3. Dynamic Reconfiguration Using QSF-driven Flow 4.4. Dynamic Reconfiguration Rules 4.5. Hardware States and Configuration Profiles 4.6. Nios® -Based Dynamic Reconfiguration Flow 4.7. Using the Tile Assignment Editor 4.8. Visualizing Dynamic Reconfiguration Group Placement 4.9. Assigning IP_COLOCATE Hierarchy 4.10. Example: Dynamic Reconfiguration with Multirate IP Flow 4.11. Example: Dynamic Reconfiguration Programming Sequence 4.12. Dynamic Reconfiguration Error Recovery Handling 4.13. Determining Profile Numbers 4.14. Master Clock Channel 4.15. Using the IP_RECONFIG_GROUP_PARENT QSF Assignment 4.16. Simulating the IP Core
4.6. Nios® -Based Dynamic Reconfiguration Flow x
4.6.1. Selecting the Nios® Data Memory Size
4.7. Using the Tile Assignment Editor x
4.7.1. Creating QSF Assignments 4.7.2. Generating the IP_Colocate QSF Assignment
4.14. Master Clock Channel x
4.14.1. Selecting the Master Clock Channel
5. Block Description x
5.1. Clocks 5.2. Reset 5.3. Stack Clocking for Fracturability
6. Configuration Registers x
6.1. Dynamic Reconfiguration New Trigger 6.2. Dynamic Reconfiguration Next Profile 0 6.3. Dynamic Reconfiguration Next Profile 1 6.4. Dynamic Reconfiguration Next Profile 2 6.5. Dynamic Reconfiguration Next Profile 3 6.6. Dynamic Reconfiguration Next Profile 4 6.7. Dynamic Reconfiguration Next Profile 5 6.8. Dynamic Reconfiguration Next Profile 6 6.9. Dynamic Reconfiguration Next Profile 7 6.10. Dynamic Reconfiguration Next Profile 8 6.11. Dynamic Reconfiguration Next Profile 9 6.12. Dynamic Reconfiguration Next Profile 10 6.13. Dynamic Reconfiguration Next Profile 11 6.14. Dynamic Reconfiguration Next Profile 12 6.15. Dynamic Reconfiguration Next Profile 13 6.16. Dynamic Reconfiguration Next Profile 14 6.17. Dynamic Reconfiguration Next Profile 15 6.18. Dynamic Reconfiguration Next Profile 16 6.19. Dynamic Reconfiguration Next Profile 17 6.20. Dynamic Reconfiguration Next Profile 18 6.21. Dynamic Reconfiguration Next Profile 19 6.22. Dynamic Reconfiguration Avalon MM Timeout 6.23. Dynamic Reconfiguration TX Channel Reconfiguration 6.24. Dynamic Reconfiguration RX Channel Reconfiguration 6.25. Dynamic Reconfiguration TX Channel in Reset Acknowledgment 6.26. Dynamic Reconfiguration TX Channel out of Reset 6.27. Dynamic Reconfiguration TX Channel Reset Control Init Status 6.28. Dynamic Reconfiguration TX Channel Source Alarm 6.29. Dynamic Reconfiguration RX Channel in Reset Acknowledgment 6.30. Dynamic Reconfiguration RX Channel out of Reset 6.31. Dynamic Reconfiguration RX Channel Reset Control Init Status 6.32. Dynamic Reconfiguration RX Channel Source Alarm 6.33. Dynamic Reconfiguration Local Error Status
1. About the F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP Core
2. Interface Overview
3. Parameters
4. Designing with the IP Core
5. Block Description
6. Configuration Registers
7. F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP User Guide Archives
8. Document Revision History for the F-Tile Dynamic Reconfiguration Suite Intel® FPGA IP User Guide

5.3. Stack Clocking for Fracturability

The dynamic reconfiguration (DR) suite can switch between different protocols with different data rates on the serial link. To simplify dynamic reconfiguration switching, the MAC, PCS, and FEC run at a fixed system PLL clock frequency.

You choose the highest frequency system clock to receive the highest bandwidth across all possible DR protocols. Any protocols requiring smaller bandwidth rely on the data valid throttling to achieve the effective link bandwidth. The same selected frequency applies regardless of the FEC type.

The dynamic reconfiguration suite doesn't support explicit crediting mechanism between the different MAC, PCS, and FEC blocks. To prevent overrun in the protocol IPs FIFOs, the protocol bandwidth and the link bandwidth must match.

The figure below depicts stack clocking across 16 channels:
  • The system PLL and reference clock to the system PLL are fixed.
  • The protocol with the highest bandwidth determines the system clock frequency. The maximum supported system clock frequency is 1 GHz.
  • The transceiver interface FIFOs are in an elastic mode and the EMIB FIFOs are in phase compensation mode.
Figure 26. Stack Clocking for Fracturability across 16 Streams or Channels
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