GTS Ethernet Intel® FPGA Hard IP User Guide

ID 817676
Date 4/01/2024
Public

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4.2.2. Reset Sequence

This section shows the sequencing of signals for several typical reset scenarios.

Figure 18. Reset Sequence

The following steps describe the IP core reset sequence as shown in the waveform.

  1. Drive the i_rst_n reset signal high while i_tx_rst_n and i_rx_rst_n reset signals are already deasserted.
  2. The o_rst_ack_n reset signal deasserts. This indicates that the IP core is no longer in the full reset.
    Note:
    • This step does not indicate that the IP core is in fully functional state.
    • The o_tx_rst_ack_n and o_rx_rst_ack_n reset signals also deassert. The exact sequence and timing is not guaranteed.
  3. The IP core is fully out of reset. Assert o_tx_lanes_stable and o_rx_pcs_ready to indicate that the TX and RX data paths are ready for use.
  4. Assert thei_tx_rst_n reset signal.
  5. The o_tx_lanes_stable signal deasserts to indicate that the TX datapath is no longer operational.
  6. The o_tx_rst_ack_n signal asserts indicating that the TX datapath is fully in reset. Then, deassert the i_tx_rst_n signal to bring the TX datapath out of the reset.
  7. Assert the i_rx_rst_n reset signal.
  8. The o_rx_pcs_ready signal deasserts to indicate that the RX datapath is no longer operational.
  9. The o_rx_rst_ack_n signal asserts indicating that the RX datapath is fully in reset. Then, deassert the i_rx_rst_n signal to bring the RX datapath out of the reset.
  10. Assert the i_rst_n reset signal.
  11. The o_tx_lanes_stable and o_rx_pcs_ready signals deassert to indicate that TX and RX datapath are no longer operational.
  12. The o_rst_ack_n signals assert to indicate the IP core is fully in reset. To bring the IP core out of the reset, deassert the i_rst_n reset signal.