Typedef xbar_cfg_t
typedef struct packed { /// Number of slave ports of the crossbar. /// This many master modules are connected to it. int unsigned NoSlvPorts; /// Number of master ports of the crossbar. /// This many slave modules are connected to it. int unsigned NoMstPorts; /// Maximum number of open transactions each master connected to the crossbar can have in /// flight at the same time. int unsigned MaxMstTrans; /// Maximum number of open transactions each slave connected to the crossbar can have in /// flight at the same time. int unsigned MaxSlvTrans; /// Determine if the internal FIFOs of the crossbar are instantiated in fallthrough mode. /// 0: No fallthrough /// 1: Fallthrough bit FallThrough; /// The Latency mode of the xbar. This determines if the channels on the ports have /// a spill register instantiated. /// Example configurations are provided with the enum `xbar_latency_e`. bit [9:0] LatencyMode; /// This is the number of `axi_multicut` stages instantiated in the line cross of the channels. /// Having multiple stages can potentially add a large number of FFs! int unsigned PipelineStages; /// AXI ID width of the salve ports. The ID width of the master ports is determined /// Automatically. See `axi_mux` for details. int unsigned AxiIdWidthSlvPorts; /// The used ID portion to determine if a different salve is used for the same ID. /// See `axi_demux` for details. int unsigned AxiIdUsedSlvPorts; /// Are IDs unique? bit UniqueIds; /// AXI4+ATOP address field width. int unsigned AxiAddrWidth; /// AXI4+ATOP data field width. int unsigned AxiDataWidth; /// The number of address rules defined for routing of the transactions. /// Each master port can have multiple rules, should have however at least one. /// If a transaction can not be routed the xbar will answer with an `axi_pkg::RESP_DECERR`. int unsigned NoAddrRules; } xbar_cfg_t;
Configuration for axi_xbar
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