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axi_multicut.sv
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axi_multicut.sv
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// Copyright (c) 2014-2019 ETH Zurich, 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:
// - Wolfgang Roenninger <[email protected]>
// - Andreas Kurth <[email protected]>
// - Fabian Schuiki <[email protected]>
// - Stefan Mach <[email protected]>
// Multiple AXI4 cuts.
//
// These can be used to relax timing pressure on very long AXI busses.
module axi_multicut #(
parameter int unsigned NoCuts = 32'd1, // Number of cuts.
// AXI channel structs
parameter type aw_chan_t = logic,
parameter type w_chan_t = logic,
parameter type b_chan_t = logic,
parameter type ar_chan_t = logic,
parameter type r_chan_t = logic,
// AXI request & response structs
parameter type axi_req_t = logic,
parameter type axi_resp_t = logic
) (
input logic clk_i, // Clock
input logic rst_ni, // Asynchronous reset active low
// slave port
input axi_req_t slv_req_i,
output axi_resp_t slv_resp_o,
// master port
output axi_req_t mst_req_o,
input axi_resp_t mst_resp_i
);
if (NoCuts == '0) begin : gen_no_cut
// degenerate case, connect input to output
assign mst_req_o = slv_req_i;
assign slv_resp_o = mst_resp_i;
end else begin : gen_axi_cut
// instantiate all needed cuts
axi_req_t [NoCuts:0] cut_req;
axi_resp_t [NoCuts:0] cut_resp;
// connect slave to the lowest index
assign cut_req[0] = slv_req_i;
assign slv_resp_o = cut_resp[0];
// AXI cuts
for (genvar i = 0; i < NoCuts; i++) begin : gen_axi_cuts
axi_cut #(
.Bypass ( 1'b0 ),
.aw_chan_t ( aw_chan_t ),
.w_chan_t ( w_chan_t ),
.b_chan_t ( b_chan_t ),
.ar_chan_t ( ar_chan_t ),
.r_chan_t ( r_chan_t ),
.axi_req_t ( axi_req_t ),
.axi_resp_t ( axi_resp_t )
) i_cut (
.clk_i,
.rst_ni,
.slv_req_i ( cut_req[i] ),
.slv_resp_o ( cut_resp[i] ),
.mst_req_o ( cut_req[i+1] ),
.mst_resp_i ( cut_resp[i+1] )
);
end
// connect master to the highest index
assign mst_req_o = cut_req[NoCuts];
assign cut_resp[NoCuts] = mst_resp_i;
end
// Check the invariants
// pragma translate_off
`ifndef VERILATOR
initial begin
assert(NoCuts >= 0);
end
`endif
// pragma translate_on
endmodule
`include "axi/assign.svh"
`include "axi/typedef.svh"
// interface wrapper
module axi_multicut_intf #(
parameter int unsigned ADDR_WIDTH = 0, // The address width.
parameter int unsigned DATA_WIDTH = 0, // The data width.
parameter int unsigned ID_WIDTH = 0, // The ID width.
parameter int unsigned USER_WIDTH = 0, // The user data width.
parameter int unsigned NUM_CUTS = 0 // The number of cuts.
) (
input logic clk_i,
input logic rst_ni,
AXI_BUS.Slave in,
AXI_BUS.Master out
);
typedef logic [ID_WIDTH-1:0] id_t;
typedef logic [ADDR_WIDTH-1:0] addr_t;
typedef logic [DATA_WIDTH-1:0] data_t;
typedef logic [DATA_WIDTH/8-1:0] strb_t;
typedef logic [USER_WIDTH-1:0] user_t;
`AXI_TYPEDEF_AW_CHAN_T(aw_chan_t, addr_t, id_t, user_t)
`AXI_TYPEDEF_W_CHAN_T(w_chan_t, data_t, strb_t, user_t)
`AXI_TYPEDEF_B_CHAN_T(b_chan_t, id_t, user_t)
`AXI_TYPEDEF_AR_CHAN_T(ar_chan_t, addr_t, id_t, user_t)
`AXI_TYPEDEF_R_CHAN_T(r_chan_t, data_t, id_t, user_t)
`AXI_TYPEDEF_REQ_T(axi_req_t, aw_chan_t, w_chan_t, ar_chan_t)
`AXI_TYPEDEF_RESP_T(axi_resp_t, b_chan_t, r_chan_t)
axi_req_t slv_req, mst_req;
axi_resp_t slv_resp, mst_resp;
`AXI_ASSIGN_TO_REQ(slv_req, in)
`AXI_ASSIGN_FROM_RESP(in, slv_resp)
`AXI_ASSIGN_FROM_REQ(out, mst_req)
`AXI_ASSIGN_TO_RESP(mst_resp, out)
axi_multicut #(
.NoCuts ( NUM_CUTS ),
.aw_chan_t ( aw_chan_t ),
.w_chan_t ( w_chan_t ),
.b_chan_t ( b_chan_t ),
.ar_chan_t ( ar_chan_t ),
.r_chan_t ( r_chan_t ),
.axi_req_t ( axi_req_t ),
.axi_resp_t ( axi_resp_t )
) i_axi_multicut (
.clk_i,
.rst_ni,
.slv_req_i ( slv_req ),
.slv_resp_o ( slv_resp ),
.mst_req_o ( mst_req ),
.mst_resp_i ( mst_resp )
);
// Check the invariants.
// pragma translate_off
`ifndef VERILATOR
initial begin
assert (ADDR_WIDTH > 0) else $fatal(1, "Wrong addr width parameter");
assert (DATA_WIDTH > 0) else $fatal(1, "Wrong data width parameter");
assert (ID_WIDTH > 0) else $fatal(1, "Wrong id width parameter");
assert (USER_WIDTH > 0) else $fatal(1, "Wrong user width parameter");
assert (in.AXI_ADDR_WIDTH == ADDR_WIDTH) else $fatal(1, "Wrong interface definition");
assert (in.AXI_DATA_WIDTH == DATA_WIDTH) else $fatal(1, "Wrong interface definition");
assert (in.AXI_ID_WIDTH == ID_WIDTH) else $fatal(1, "Wrong interface definition");
assert (in.AXI_USER_WIDTH == USER_WIDTH) else $fatal(1, "Wrong interface definition");
assert (out.AXI_ADDR_WIDTH == ADDR_WIDTH) else $fatal(1, "Wrong interface definition");
assert (out.AXI_DATA_WIDTH == DATA_WIDTH) else $fatal(1, "Wrong interface definition");
assert (out.AXI_ID_WIDTH == ID_WIDTH) else $fatal(1, "Wrong interface definition");
assert (out.AXI_USER_WIDTH == USER_WIDTH) else $fatal(1, "Wrong interface definition");
end
`endif
// pragma translate_on
endmodule
module axi_lite_multicut_intf #(
// The address width.
parameter int unsigned ADDR_WIDTH = 0,
// The data width.
parameter int unsigned DATA_WIDTH = 0,
// The number of cuts.
parameter int unsigned NUM_CUTS = 0
) (
input logic clk_i ,
input logic rst_ni ,
AXI_LITE.Slave in ,
AXI_LITE.Master out
);
typedef logic [ADDR_WIDTH-1:0] addr_t;
typedef logic [DATA_WIDTH-1:0] data_t;
typedef logic [DATA_WIDTH/8-1:0] strb_t;
`AXI_LITE_TYPEDEF_AW_CHAN_T(aw_chan_t, addr_t)
`AXI_LITE_TYPEDEF_W_CHAN_T(w_chan_t, data_t, strb_t)
`AXI_LITE_TYPEDEF_B_CHAN_T(b_chan_t)
`AXI_LITE_TYPEDEF_AR_CHAN_T(ar_chan_t, addr_t)
`AXI_LITE_TYPEDEF_R_CHAN_T(r_chan_t, data_t)
`AXI_LITE_TYPEDEF_REQ_T(axi_req_t, aw_chan_t, w_chan_t, ar_chan_t)
`AXI_LITE_TYPEDEF_RESP_T(axi_resp_t, b_chan_t, r_chan_t)
axi_req_t slv_req, mst_req;
axi_resp_t slv_resp, mst_resp;
`AXI_LITE_ASSIGN_TO_REQ(slv_req, in)
`AXI_LITE_ASSIGN_FROM_RESP(in, slv_resp)
`AXI_LITE_ASSIGN_FROM_REQ(out, mst_req)
`AXI_LITE_ASSIGN_TO_RESP(mst_resp, out)
axi_multicut #(
.NoCuts ( NUM_CUTS ),
.aw_chan_t ( aw_chan_t ),
.w_chan_t ( w_chan_t ),
.b_chan_t ( b_chan_t ),
.ar_chan_t ( ar_chan_t ),
.r_chan_t ( r_chan_t ),
.axi_req_t ( axi_req_t ),
.axi_resp_t ( axi_resp_t )
) i_axi_multicut (
.clk_i,
.rst_ni,
.slv_req_i ( slv_req ),
.slv_resp_o ( slv_resp ),
.mst_req_o ( mst_req ),
.mst_resp_i ( mst_resp )
);
// Check the invariants.
// pragma translate_off
`ifndef VERILATOR
initial begin
assert (ADDR_WIDTH > 0) else $fatal(1, "Wrong addr width parameter");
assert (DATA_WIDTH > 0) else $fatal(1, "Wrong data width parameter");
assert (in.AXI_ADDR_WIDTH == ADDR_WIDTH) else $fatal(1, "Wrong interface definition");
assert (in.AXI_DATA_WIDTH == DATA_WIDTH) else $fatal(1, "Wrong interface definition");
assert (out.AXI_ADDR_WIDTH == ADDR_WIDTH) else $fatal(1, "Wrong interface definition");
assert (out.AXI_DATA_WIDTH == DATA_WIDTH) else $fatal(1, "Wrong interface definition");
end
`endif
// pragma translate_on
endmodule