module axis_flat_to_if #(
  parameter int unsigned DATA_W = 64,
  parameter int unsigned KEEP_W = DATA_W / 8,
  parameter int unsigned ID_W   = 8,
  parameter int unsigned DEST_W = 8,
  parameter int unsigned USER_W = 1
)(
  input  logic [DATA_W-1:0] s_axis_tdata,
  input  logic [KEEP_W-1:0] s_axis_tkeep,
  input  logic [KEEP_W-1:0] s_axis_tstrb,
  input  logic              s_axis_tlast,
  input  logic [ID_W-1:0]   s_axis_tid,
  input  logic [DEST_W-1:0] s_axis_tdest,
  input  logic [USER_W-1:0] s_axis_tuser,
  input  logic              s_axis_tvalid,
  output logic              s_axis_tready,

  axis_if.master            m_axis
);
  assign m_axis.req.t.data  = s_axis_tdata;
  assign m_axis.req.t.keep  = s_axis_tkeep;
  assign m_axis.req.t.strb  = s_axis_tstrb;
  assign m_axis.req.t.last  = s_axis_tlast;
  assign m_axis.req.t.id    = s_axis_tid;
  assign m_axis.req.t.dest  = s_axis_tdest;
  assign m_axis.req.t.user  = s_axis_tuser;
  assign m_axis.req.t.valid = s_axis_tvalid;

  assign s_axis_tready = m_axis.resp.ready;
endmodule : axis_flat_to_if