Visible to Intel only — GUID: cqn1637280405010
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1. About the F-Tile Dynamic Reconfiguration Suite 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 User Guide
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
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
Visible to Intel only — GUID: cqn1637280405010
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5.2. Reset
This section describes the F-Tile Dynamic Reconfiguration Suite reset domains.
The IP provides multiple reset domains:
- Reset Domain #1: Dynamic reconfiguration multiplexer (DR Mux), dynamic reconfiguration control status registers (DR CSR), Avalon® memory-mapped interface arbiter (AVMM arbiter), and the soft CPU reside in the same reset domain. This allows the IP to hold context such as DR port mapping to the EMIB channel in reset, even though the respective DR ports or EMIB channels are being reset as a part of the DR process.
After power on, you must once assert and deassert this reset domain. Once completed, do not put the domain into reset again. The dynamic reconfiguration can only be executed after this reset domain is released.
While this domain is in reset, the reset domains for the protocol IP(s) in the dynamic reconfiguration groups must stay asserted.
- Port-Based Reset Domain: Each DR port has a dedicated reset pin. The pins are then muxed similar to the corresponding control and data pins.
Figure 25. F-Tile Dynamic Reconfiguration Suite Reset
You must bring the F-Tile Dynamic Reconfiguration Suite out from reset prior to any other soft IPs.