Intel® Cyclone® 10 GX Transceiver PHY User Guide

ID 683054
Date 4/14/2023
Public
Document Table of Contents

2.9.2.7. Rate Match FIFO in Basic (Single Width) Mode

Only the rate match FIFO operation is covered in these steps.
  1. Select basic (single width) in the RX rate match FIFO mode list.
  2. Enter values for the following parameters.
    Parameter Value Description
    RX rate match insert/delete +ve pattern (hex) 20 bits of data specified as a hexadecimal string The first 10 bits correspond to the skip pattern and the last 10 bits correspond to the control pattern. The skip pattern must have neutral disparity.
    RX rate match insert/delete –ve pattern (hex) 20 bits of data specified as a hexadecimal string The first 10 bits correspond to the skip pattern and the last 10 bits correspond to the control pattern. The skip pattern must have neutral disparity.

    ve (volt encodes) are NRZ_L conditions where +ve encodes 0 and –ve encodes 1. ve is a running disparity (+/–RD) specifically used with the rate matcher. Depending on the ppm difference (which is defined by protocol) between the recovered clock and the local clock, the rate matcher adds or deletes a maximum of four skip patterns (neutral disparity). The net neutrality is conserved even after the skip word insertion or deletion because the control words alternate between positive and negative disparity.

    In the following figure, the first skip cluster has a /K28.5/ control pattern followed by two /K28.0/ skip patterns. The second skip cluster has a /K28.5/ control pattern followed by four /K28.0/ skip patterns. The rate match FIFO deletes only one /K28.0/ skip pattern from the first skip cluster to maintain at least one skip pattern in the cluster after deletion. Two /K28.0/ skip patterns are deleted from the second cluster for a total of three skip patterns deletion requirement.

    The rate match FIFO can insert a maximum of four skip patterns in a cluster, if there are no more than five skip patterns in the cluster after insertion.

    Figure 97. Rate Match FIFO Deletion with Three Skip Patterns Required for Deletion


    In the following figure, /K28.5/ is the control pattern and neutral disparity /K28.0/ is the skip pattern. The first skip cluster has a /K28.5/ control pattern followed by three /K28.0/ skip patterns. The second skip cluster has a /K28.5/ control pattern followed by two /K28.0/ skip patterns. The rate match FIFO inserts only two /K28.0/ skip patterns into the first skip cluster to maintain a maximum of five skip patterns in the cluster after insertion. One /K28.0/ skip pattern is inserted into the second cluster for a total of three skip patterns to meet the insertion requirement.

    Figure 98. Rate Match FIFO Insertion with Three Skip Patterns Required for Insertion


    The following figure shows the deletion of D5 when the upstream transmitter reference clock frequency is greater than the local receiver reference clock frequency. It asserts rx_std_rmfifo_full for one parallel clock cycle while the deletion takes place.

    Figure 99.  Rate Match FIFO Becoming Full After Receiving D5


    The following figure shows the insertion of skip symbols when the local receiver reference clock frequency is greater than the upstream transmitter reference clock frequency. It asserts rx_std_rmfifo_empty for one parallel clock cycle while the insertion takes place.

    Figure 100. Rate Match FIFO Becoming Empty After Receiving D3