The data line topology is always point-to-point for LPDDR4 implementations, and is separated into two different byte routing groups. Minimize layer transitions during routing. If a layer transition is necessary, then transitioning to a layer using the same reference plane is better. If this cannot be accommodated, then make sure there are nearby ground vias to allow the return currents to transition between reference planes (within ± 250 mils of transition vias). The goal is to provide a low inductance path for the return current. To optimize the length matching, TI recommends routing all nets within a single data routing group (that is, DQS, DQ, DM) together on the same layer or layers where all nets have the exact same number of vias and the same via barrel length. Microstrip routing can be used to implement DDR routing, but doing so provides lower EMI immunity and signal integrity at high data rates. The designer needs to evaluate system requirements carefully to determine that the desired product requirements can be met. High-speed DQ and DQS, DQSn routing on microstrip layers requires special care and DFM consideration because of more variation in signal propagation. Signals from the entire byte group must be routed together.

DQSP and DQSN lines are point-to-point signals routed as a differential pair. Figure 3-6 illustrates the DQSP and DQSN connection topology.

DQ and DM lines are point-to-point signals routed as single-ended. Figure 3-7 illustrates the DQ and DM connection topology.

There are no stubs or termination allowed on the nets of the data group topologies. All test and probe access points must be in line without any branches or stubs.