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axi_lfsr.sv
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axi_lfsr.sv
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// Copyright 2022 ETH Zurich and University of Bologna.
// Copyright and related rights are licensed under the Solderpad Hardware
// License, Version 0.51 (the "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of the License at
// http://solderpad.org/licenses/SHL-0.51. Unless required by applicable law
// or agreed to in writing, software, hardware and materials distributed under
// this License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
// CONDITIONS OF ANY KIND, either express or implied. See the License for the
// specific language governing permissions and limitations under the License.
//
// Authors:
// - Thomas Benz <[email protected]>
`include "axi/typedef.svh"
/// AXI4 LFSR Subordinate device. Responds with a pseudo random answer. Serial interface to
/// set the internal state.
module axi_lfsr #(
/// AXI4 Data Width
parameter int unsigned DataWidth = 32'd0,
/// AXI4 Addr Width
parameter int unsigned AddrWidth = 32'd0,
/// AXI4 Id Width
parameter int unsigned IdWidth = 32'd0,
/// AXI4 User Width
parameter int unsigned UserWidth = 32'd0,
/// AXI4 request struct definition
parameter type axi_req_t = logic,
/// AXI4 response struct definition
parameter type axi_rsp_t = logic
)(
/// Rising-edge clock
input logic clk_i,
/// Active-low reset
input logic rst_ni,
/// Testmode
input logic testmode_i,
/// AXI4 request struct
input axi_req_t req_i,
/// AXI4 response struct
output axi_rsp_t rsp_o,
/// Serial shift data in (write)
input logic w_ser_data_i,
/// Serial shift data out (write)
output logic w_ser_data_o,
/// Serial shift enable (write)
input logic w_ser_en_i,
/// Serial shift data in (read)
input logic r_ser_data_i,
/// Serial shift data out (read)
output logic r_ser_data_o,
/// Serial shift enable (read)
input logic r_ser_en_i
);
/// AXI4 Strobe Width
localparam int unsigned StrbWidth = DataWidth / 8;
/// Address Type
typedef logic [AddrWidth-1:0] addr_t;
/// Data type
typedef logic [DataWidth-1:0] data_t;
/// Strobe Type
typedef logic [StrbWidth-1:0] strb_t;
// AXI Lite typedef
`AXI_LITE_TYPEDEF_AW_CHAN_T(axi_lite_aw_chan_t, addr_t)
`AXI_LITE_TYPEDEF_W_CHAN_T(axi_lite_w_chan_t, data_t, strb_t)
`AXI_LITE_TYPEDEF_B_CHAN_T(axi_lite_b_chan_t)
`AXI_LITE_TYPEDEF_AR_CHAN_T(axi_lite_ar_chan_t, addr_t)
`AXI_LITE_TYPEDEF_R_CHAN_T(axi_lite_r_chan_t, data_t)
`AXI_LITE_TYPEDEF_REQ_T(axi_lite_req_t, axi_lite_aw_chan_t, axi_lite_w_chan_t, axi_lite_ar_chan_t)
`AXI_LITE_TYPEDEF_RESP_T(axi_lite_rsp_t, axi_lite_b_chan_t, axi_lite_r_chan_t)
// AXI Lite buses
axi_lite_req_t axi_lite_req;
axi_lite_rsp_t axi_lite_rsp;
axi_to_axi_lite #(
.AxiAddrWidth ( AddrWidth ),
.AxiDataWidth ( DataWidth ),
.AxiIdWidth ( IdWidth ),
.AxiUserWidth ( UserWidth ),
.AxiMaxWriteTxns ( 'd2 ), // We only have 1 cycle latency; 2 is enough
.AxiMaxReadTxns ( 'd2 ), // We only have 1 cycle latency; 2 is enough
.FallThrough ( 1'b0 ),
.full_req_t ( axi_req_t ),
.full_resp_t ( axi_rsp_t ),
.lite_req_t ( axi_lite_req_t ),
.lite_resp_t ( axi_lite_rsp_t )
) i_axi_to_axi_lite (
.clk_i,
.rst_ni,
.test_i ( testmode_i ),
.slv_req_i ( req_i ),
.slv_resp_o ( rsp_o ),
.mst_req_o ( axi_lite_req ),
.mst_resp_i ( axi_lite_rsp )
);
axi_lite_lfsr #(
.DataWidth ( DataWidth ),
.axi_lite_req_t ( axi_lite_req_t ),
.axi_lite_rsp_t ( axi_lite_rsp_t )
) i_axi_lite_lfsr (
.clk_i,
.rst_ni,
.testmode_i,
.w_ser_data_i,
.w_ser_data_o,
.w_ser_en_i,
.r_ser_data_i,
.r_ser_data_o,
.r_ser_en_i,
.req_i ( axi_lite_req ),
.rsp_o ( axi_lite_rsp )
);
endmodule : axi_lfsr