Convert generated crosspoint to verilog parametrized crosspoint

2025-01-30 08:32:52 +08:00 · 2018-10-24 13:44:39 -07:00 · 2018-10-24 13:44:39 -07:00 · fe77db822d
commit fe77db822d
parent 553547f661
7 changed files with 523 additions and 1641 deletions
--- a/rtl/axis_crosspoint.py
+++ b/rtl/axis_crosspoint.py
@ -1,227 +0,0 @@
 #!/usr/bin/env python
 """
 Generates an AXI Stream crosspoint switch with the specified number of ports
 """
 from __future__ import print_function
 import argparse
 import math
 from jinja2 import Template
 def main():
    parser = argparse.ArgumentParser(description=__doc__.strip())
    parser.add_argument('-p', '--ports',  type=int, default=[4], nargs='+', help="number of ports")
    parser.add_argument('-n', '--name',   type=str, help="module name")
    parser.add_argument('-o', '--output', type=str, help="output file name")
    args = parser.parse_args()
    try:
        generate(**args.__dict__)
    except IOError as ex:
        print(ex)
        exit(1)
 def generate(ports=4, name=None, output=None):
    if type(ports) is int:
        m = n = ports
    elif len(ports) == 1:
        m = n = ports[0]
    else:
        m, n = ports
    if name is None:
        name = "axis_crosspoint_{0}x{1}".format(m, n)
    if output is None:
        output = name + ".v"
    print("Opening file '{0}'...".format(output))
    output_file = open(output, 'w')
    print("Generating {0}x{1} port AXI Stream crosspoint {2}...".format(m, n, name))
    select_width = int(math.ceil(math.log(m, 2)))
    t = Template(u"""/*
 Copyright (c) 2014-2018 Alex Forencich
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:
 The above copyright notice and this permission notice shall be included in
 all copies or substantial portions of the Software.
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 */
 // Language: Verilog 2001
 `timescale 1ns / 1ps
 /*
 * AXI4-Stream {{m}}x{{n}} crosspoint
 */
 module {{name}} #
 (
    parameter DATA_WIDTH = 8,
    parameter KEEP_ENABLE = (DATA_WIDTH>8),
    parameter KEEP_WIDTH = (DATA_WIDTH/8),
    parameter LAST_ENABLE = 1,
    parameter ID_ENABLE = 0,
    parameter ID_WIDTH = 8,
    parameter DEST_ENABLE = 0,
    parameter DEST_WIDTH = 8,
    parameter USER_ENABLE = 1,
    parameter USER_WIDTH = 1
 )
 (
    input  wire                   clk,
    input  wire                   rst,
    /*
     * AXI Stream inputs
     */
 {%- for p in range(m) %}
    input  wire [DATA_WIDTH-1:0]  input_{{p}}_axis_tdata,
    input  wire [KEEP_WIDTH-1:0]  input_{{p}}_axis_tkeep,
    input  wire                   input_{{p}}_axis_tvalid,
    input  wire                   input_{{p}}_axis_tlast,
    input  wire [ID_WIDTH-1:0]    input_{{p}}_axis_tid,
    input  wire [DEST_WIDTH-1:0]  input_{{p}}_axis_tdest,
    input  wire [USER_WIDTH-1:0]  input_{{p}}_axis_tuser,
 {% endfor %}
    /*
     * AXI Stream outputs
     */
 {%- for p in range(n) %}
    output wire [DATA_WIDTH-1:0]  output_{{p}}_axis_tdata,
    output wire [KEEP_WIDTH-1:0]  output_{{p}}_axis_tkeep,
    output wire                   output_{{p}}_axis_tvalid,
    output wire                   output_{{p}}_axis_tlast,
    output wire [ID_WIDTH-1:0]    output_{{p}}_axis_tid,
    output wire [DEST_WIDTH-1:0]  output_{{p}}_axis_tdest,
    output wire [USER_WIDTH-1:0]  output_{{p}}_axis_tuser,
 {% endfor %}
    /*
     * Control
     */
 {%- for p in range(n) %}
    input  wire [{{w-1}}:0]             output_{{p}}_select{% if not loop.last %},{% endif %}
 {%- endfor %}
 );
 {% for p in range(m) %}
 reg [DATA_WIDTH-1:0]  input_{{p}}_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  input_{{p}}_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   input_{{p}}_axis_tvalid_reg = 1'b0;
 reg                   input_{{p}}_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    input_{{p}}_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  input_{{p}}_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  input_{{p}}_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 {% endfor %}
 {%- for p in range(n) %}
 reg [DATA_WIDTH-1:0]  output_{{p}}_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  output_{{p}}_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   output_{{p}}_axis_tvalid_reg = 1'b0;
 reg                   output_{{p}}_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    output_{{p}}_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  output_{{p}}_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  output_{{p}}_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 {% endfor %}
 {%- for p in range(n) %}
 reg [{{w-1}}:0]             output_{{p}}_select_reg = {{w}}'d0;
 {%- endfor %}
 {% for p in range(n) %}
 assign output_{{p}}_axis_tdata  = output_{{p}}_axis_tdata_reg;
 assign output_{{p}}_axis_tkeep  = KEEP_ENABLE ? output_{{p}}_axis_tkeep_reg : {KEEP_WIDTH{1'b1}};
 assign output_{{p}}_axis_tvalid = output_{{p}}_axis_tvalid_reg;
 assign output_{{p}}_axis_tlast  = LAST_ENABLE ? output_{{p}}_axis_tlast_reg : 1'b1;
 assign output_{{p}}_axis_tid    = ID_ENABLE   ? output_{{p}}_axis_tid_reg   : {ID_WIDTH{1'b0}};
 assign output_{{p}}_axis_tdest  = DEST_ENABLE ? output_{{p}}_axis_tdest_reg : {DEST_WIDTH{1'b0}};
 assign output_{{p}}_axis_tuser  = USER_ENABLE ? output_{{p}}_axis_tuser_reg : {USER_WIDTH{1'b0}};
 {% endfor %}
 always @(posedge clk) begin
    if (rst) begin
 {%- for p in range(n) %}
        output_{{p}}_select_reg <= {{w}}'d0;
 {%- endfor %}
 {% for p in range(m) %}
        input_{{p}}_axis_tvalid_reg <= 1'b0;
 {%- endfor %}
 {% for p in range(n) %}
        output_{{p}}_axis_tvalid_reg <= 1'b0;
 {%- endfor %}
    end else begin
 {%- for p in range(m) %}
        input_{{p}}_axis_tvalid_reg <= input_{{p}}_axis_tvalid;
 {%- endfor %}
 {% for p in range(n) %}
        output_{{p}}_select_reg <= output_{{p}}_select;
 {%- endfor %}
 {%- for p in range(n) %}
        case (output_{{p}}_select_reg)
 {%- for q in range(m) %}
            {{w}}'d{{q}}: output_{{p}}_axis_tvalid_reg <= input_{{q}}_axis_tvalid_reg;
 {%- endfor %}
        endcase
 {%- endfor %}
    end
 {%- for p in range(m) %}
    input_{{p}}_axis_tdata_reg <= input_{{p}}_axis_tdata;
    input_{{p}}_axis_tkeep_reg <= input_{{p}}_axis_tkeep;
    input_{{p}}_axis_tlast_reg <= input_{{p}}_axis_tlast;
    input_{{p}}_axis_tid_reg   <= input_{{p}}_axis_tid;
    input_{{p}}_axis_tdest_reg <= input_{{p}}_axis_tdest;
    input_{{p}}_axis_tuser_reg <= input_{{p}}_axis_tuser;
 {%- endfor %}
 {%- for p in range(n) %}
    case (output_{{p}}_select_reg)
 {%- for q in range(m) %}
        {{w}}'d{{q}}: begin
            output_{{p}}_axis_tdata_reg <= input_{{q}}_axis_tdata_reg;
            output_{{p}}_axis_tkeep_reg <= input_{{q}}_axis_tkeep_reg;
            output_{{p}}_axis_tlast_reg <= input_{{q}}_axis_tlast_reg;
            output_{{p}}_axis_tid_reg   <= input_{{q}}_axis_tid_reg;
            output_{{p}}_axis_tdest_reg <= input_{{q}}_axis_tdest_reg;
            output_{{p}}_axis_tuser_reg <= input_{{q}}_axis_tuser_reg;
        end
 {%- endfor %}
    endcase
 {%- endfor %}
 end
 endmodule
 """)
    output_file.write(t.render(
        m=m,
        n=n,
        w=select_width,
        name=name
    ))
    print("Done")
 if __name__ == "__main__":
    main()
--- a/rtl/axis_crosspoint.v
+++ b/rtl/axis_crosspoint.v
@ -0,0 +1,139 @@
 /*
 Copyright (c) 2014-2018 Alex Forencich
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:
 The above copyright notice and this permission notice shall be included in
 all copies or substantial portions of the Software.
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 */
 // Language: Verilog 2001
 `timescale 1ns / 1ps
 /*
 * AXI4-Stream crosspoint
 */
 module axis_crosspoint #
 (
    parameter S_COUNT = 4,
    parameter M_COUNT = 4,
    parameter DATA_WIDTH = 8,
    parameter KEEP_ENABLE = (DATA_WIDTH>8),
    parameter KEEP_WIDTH = (DATA_WIDTH/8),
    parameter LAST_ENABLE = 1,
    parameter ID_ENABLE = 0,
    parameter ID_WIDTH = 8,
    parameter DEST_ENABLE = 0,
    parameter DEST_WIDTH = 8,
    parameter USER_ENABLE = 1,
    parameter USER_WIDTH = 1
 )
 (
    input  wire                               clk,
    input  wire                               rst,
    /*
     * AXI Stream inputs
     */
    input  wire [S_COUNT*DATA_WIDTH-1:0]      s_axis_tdata,
    input  wire [S_COUNT*KEEP_WIDTH-1:0]      s_axis_tkeep,
    input  wire [S_COUNT-1:0]                 s_axis_tvalid,
    input  wire [S_COUNT-1:0]                 s_axis_tlast,
    input  wire [S_COUNT*ID_WIDTH-1:0]        s_axis_tid,
    input  wire [S_COUNT*DEST_WIDTH-1:0]      s_axis_tdest,
    input  wire [S_COUNT*USER_WIDTH-1:0]      s_axis_tuser,
    /*
     * AXI Stream outputs
     */
    output wire [M_COUNT*DATA_WIDTH-1:0]      m_axis_tdata,
    output wire [M_COUNT*KEEP_WIDTH-1:0]      m_axis_tkeep,
    output wire [M_COUNT-1:0]                 m_axis_tvalid,
    output wire [M_COUNT-1:0]                 m_axis_tlast,
    output wire [M_COUNT*ID_WIDTH-1:0]        m_axis_tid,
    output wire [M_COUNT*DEST_WIDTH-1:0]      m_axis_tdest,
    output wire [M_COUNT*USER_WIDTH-1:0]      m_axis_tuser,
    /*
     * Control
     */
    input  wire [M_COUNT*$clog2(S_COUNT)-1:0] select
 );
 parameter CL_S_COUNT = $clog2(S_COUNT);
 reg [S_COUNT*DATA_WIDTH-1:0] s_axis_tdata_reg = {S_COUNT*DATA_WIDTH{1'b0}};
 reg [S_COUNT*KEEP_WIDTH-1:0] s_axis_tkeep_reg = {S_COUNT*KEEP_WIDTH{1'b0}};
 reg [S_COUNT-1:0]            s_axis_tvalid_reg = {S_COUNT{1'b0}};
 reg [S_COUNT-1:0]            s_axis_tlast_reg = {S_COUNT{1'b0}};
 reg [S_COUNT*ID_WIDTH-1:0]   s_axis_tid_reg = {S_COUNT*ID_WIDTH{1'b0}};
 reg [S_COUNT*DEST_WIDTH-1:0] s_axis_tdest_reg = {S_COUNT*DEST_WIDTH{1'b0}};
 reg [S_COUNT*USER_WIDTH-1:0] s_axis_tuser_reg = {S_COUNT*USER_WIDTH{1'b0}};
 reg [M_COUNT*DATA_WIDTH-1:0] m_axis_tdata_reg = {M_COUNT*DATA_WIDTH{1'b0}};
 reg [M_COUNT*KEEP_WIDTH-1:0] m_axis_tkeep_reg = {M_COUNT*KEEP_WIDTH{1'b0}};
 reg [M_COUNT-1:0]            m_axis_tvalid_reg = {M_COUNT{1'b0}};
 reg [M_COUNT-1:0]            m_axis_tlast_reg = {M_COUNT{1'b0}};
 reg [M_COUNT*ID_WIDTH-1:0]   m_axis_tid_reg = {M_COUNT*ID_WIDTH{1'b0}};
 reg [M_COUNT*DEST_WIDTH-1:0] m_axis_tdest_reg = {M_COUNT*DEST_WIDTH{1'b0}};
 reg [M_COUNT*USER_WIDTH-1:0] m_axis_tuser_reg = {M_COUNT*USER_WIDTH{1'b0}};
 reg [M_COUNT*CL_S_COUNT-1:0] select_reg = {M_COUNT*CL_S_COUNT{1'b0}};
 assign m_axis_tdata  = m_axis_tdata_reg;
 assign m_axis_tkeep  = KEEP_ENABLE ? m_axis_tkeep_reg : {M_COUNT*KEEP_WIDTH{1'b1}};
 assign m_axis_tvalid = m_axis_tvalid_reg;
 assign m_axis_tlast  = LAST_ENABLE ? m_axis_tlast_reg : {M_COUNT{1'b1}};
 assign m_axis_tid    = ID_ENABLE   ? m_axis_tid_reg   : {M_COUNT*ID_WIDTH{1'b0}};
 assign m_axis_tdest  = DEST_ENABLE ? m_axis_tdest_reg : {M_COUNT*DEST_WIDTH{1'b0}};
 assign m_axis_tuser  = USER_ENABLE ? m_axis_tuser_reg : {M_COUNT*USER_WIDTH{1'b0}};
 integer i;
 always @(posedge clk) begin
    if (rst) begin
        s_axis_tvalid_reg <= {S_COUNT{1'b0}};
        m_axis_tvalid_reg <= {S_COUNT{1'b0}};
        select_reg <= {M_COUNT*CL_S_COUNT{1'b0}};
    end else begin
        s_axis_tvalid_reg <= s_axis_tvalid;
        for (i = 0; i < M_COUNT; i = i + 1) begin
            m_axis_tvalid_reg[i] = s_axis_tvalid_reg[select_reg[i*CL_S_COUNT +: CL_S_COUNT]];
        end
        select_reg <= select;
    end
    s_axis_tdata_reg <= s_axis_tdata;
    s_axis_tkeep_reg <= s_axis_tkeep;
    s_axis_tlast_reg <= s_axis_tlast;
    s_axis_tid_reg   <= s_axis_tid;
    s_axis_tdest_reg <= s_axis_tdest;
    s_axis_tuser_reg <= s_axis_tuser;
    for (i = 0; i < M_COUNT; i = i + 1) begin
        m_axis_tdata_reg[i*DATA_WIDTH +: DATA_WIDTH] <= s_axis_tdata_reg[select_reg[i*CL_S_COUNT +: CL_S_COUNT]*DATA_WIDTH +: DATA_WIDTH];
        m_axis_tkeep_reg[i*KEEP_WIDTH +: KEEP_WIDTH] <= s_axis_tkeep_reg[select_reg[i*CL_S_COUNT +: CL_S_COUNT]*KEEP_WIDTH +: KEEP_WIDTH];
        m_axis_tlast_reg[i]                          <= s_axis_tlast_reg[select_reg[i*CL_S_COUNT +: CL_S_COUNT]];
        m_axis_tid_reg[i*ID_WIDTH +: ID_WIDTH]       <= s_axis_tid_reg[select_reg[i*CL_S_COUNT +: CL_S_COUNT]*ID_WIDTH +: ID_WIDTH];
        m_axis_tdest_reg[i*DEST_WIDTH +: DEST_WIDTH] <= s_axis_tdest_reg[select_reg[i*CL_S_COUNT +: CL_S_COUNT]*DEST_WIDTH +: DEST_WIDTH];
        m_axis_tuser_reg[i*USER_WIDTH +: USER_WIDTH] <= s_axis_tuser_reg[select_reg[i*CL_S_COUNT +: CL_S_COUNT]*USER_WIDTH +: USER_WIDTH];
    end
 end
 endmodule
--- a/rtl/axis_crosspoint_4x4.v
+++ b/rtl/axis_crosspoint_4x4.v
@ -1,454 +0,0 @@
 /*
 Copyright (c) 2014-2018 Alex Forencich
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:
 The above copyright notice and this permission notice shall be included in
 all copies or substantial portions of the Software.
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 */
 // Language: Verilog 2001
 `timescale 1ns / 1ps
 /*
 * AXI4-Stream 4x4 crosspoint
 */
 module axis_crosspoint_4x4 #
 (
    parameter DATA_WIDTH = 8,
    parameter KEEP_ENABLE = (DATA_WIDTH>8),
    parameter KEEP_WIDTH = (DATA_WIDTH/8),
    parameter LAST_ENABLE = 1,
    parameter ID_ENABLE = 0,
    parameter ID_WIDTH = 8,
    parameter DEST_ENABLE = 0,
    parameter DEST_WIDTH = 8,
    parameter USER_ENABLE = 1,
    parameter USER_WIDTH = 1
 )
 (
    input  wire                   clk,
    input  wire                   rst,
    /*
     * AXI Stream inputs
     */
    input  wire [DATA_WIDTH-1:0]  input_0_axis_tdata,
    input  wire [KEEP_WIDTH-1:0]  input_0_axis_tkeep,
    input  wire                   input_0_axis_tvalid,
    input  wire                   input_0_axis_tlast,
    input  wire [ID_WIDTH-1:0]    input_0_axis_tid,
    input  wire [DEST_WIDTH-1:0]  input_0_axis_tdest,
    input  wire [USER_WIDTH-1:0]  input_0_axis_tuser,
    input  wire [DATA_WIDTH-1:0]  input_1_axis_tdata,
    input  wire [KEEP_WIDTH-1:0]  input_1_axis_tkeep,
    input  wire                   input_1_axis_tvalid,
    input  wire                   input_1_axis_tlast,
    input  wire [ID_WIDTH-1:0]    input_1_axis_tid,
    input  wire [DEST_WIDTH-1:0]  input_1_axis_tdest,
    input  wire [USER_WIDTH-1:0]  input_1_axis_tuser,
    input  wire [DATA_WIDTH-1:0]  input_2_axis_tdata,
    input  wire [KEEP_WIDTH-1:0]  input_2_axis_tkeep,
    input  wire                   input_2_axis_tvalid,
    input  wire                   input_2_axis_tlast,
    input  wire [ID_WIDTH-1:0]    input_2_axis_tid,
    input  wire [DEST_WIDTH-1:0]  input_2_axis_tdest,
    input  wire [USER_WIDTH-1:0]  input_2_axis_tuser,
    input  wire [DATA_WIDTH-1:0]  input_3_axis_tdata,
    input  wire [KEEP_WIDTH-1:0]  input_3_axis_tkeep,
    input  wire                   input_3_axis_tvalid,
    input  wire                   input_3_axis_tlast,
    input  wire [ID_WIDTH-1:0]    input_3_axis_tid,
    input  wire [DEST_WIDTH-1:0]  input_3_axis_tdest,
    input  wire [USER_WIDTH-1:0]  input_3_axis_tuser,
    /*
     * AXI Stream outputs
     */
    output wire [DATA_WIDTH-1:0]  output_0_axis_tdata,
    output wire [KEEP_WIDTH-1:0]  output_0_axis_tkeep,
    output wire                   output_0_axis_tvalid,
    output wire                   output_0_axis_tlast,
    output wire [ID_WIDTH-1:0]    output_0_axis_tid,
    output wire [DEST_WIDTH-1:0]  output_0_axis_tdest,
    output wire [USER_WIDTH-1:0]  output_0_axis_tuser,
    output wire [DATA_WIDTH-1:0]  output_1_axis_tdata,
    output wire [KEEP_WIDTH-1:0]  output_1_axis_tkeep,
    output wire                   output_1_axis_tvalid,
    output wire                   output_1_axis_tlast,
    output wire [ID_WIDTH-1:0]    output_1_axis_tid,
    output wire [DEST_WIDTH-1:0]  output_1_axis_tdest,
    output wire [USER_WIDTH-1:0]  output_1_axis_tuser,
    output wire [DATA_WIDTH-1:0]  output_2_axis_tdata,
    output wire [KEEP_WIDTH-1:0]  output_2_axis_tkeep,
    output wire                   output_2_axis_tvalid,
    output wire                   output_2_axis_tlast,
    output wire [ID_WIDTH-1:0]    output_2_axis_tid,
    output wire [DEST_WIDTH-1:0]  output_2_axis_tdest,
    output wire [USER_WIDTH-1:0]  output_2_axis_tuser,
    output wire [DATA_WIDTH-1:0]  output_3_axis_tdata,
    output wire [KEEP_WIDTH-1:0]  output_3_axis_tkeep,
    output wire                   output_3_axis_tvalid,
    output wire                   output_3_axis_tlast,
    output wire [ID_WIDTH-1:0]    output_3_axis_tid,
    output wire [DEST_WIDTH-1:0]  output_3_axis_tdest,
    output wire [USER_WIDTH-1:0]  output_3_axis_tuser,
    /*
     * Control
     */
    input  wire [1:0]             output_0_select,
    input  wire [1:0]             output_1_select,
    input  wire [1:0]             output_2_select,
    input  wire [1:0]             output_3_select
 );
 reg [DATA_WIDTH-1:0]  input_0_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  input_0_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   input_0_axis_tvalid_reg = 1'b0;
 reg                   input_0_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    input_0_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  input_0_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  input_0_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [DATA_WIDTH-1:0]  input_1_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  input_1_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   input_1_axis_tvalid_reg = 1'b0;
 reg                   input_1_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    input_1_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  input_1_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  input_1_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [DATA_WIDTH-1:0]  input_2_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  input_2_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   input_2_axis_tvalid_reg = 1'b0;
 reg                   input_2_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    input_2_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  input_2_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  input_2_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [DATA_WIDTH-1:0]  input_3_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  input_3_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   input_3_axis_tvalid_reg = 1'b0;
 reg                   input_3_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    input_3_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  input_3_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  input_3_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [DATA_WIDTH-1:0]  output_0_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  output_0_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   output_0_axis_tvalid_reg = 1'b0;
 reg                   output_0_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    output_0_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  output_0_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  output_0_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [DATA_WIDTH-1:0]  output_1_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  output_1_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   output_1_axis_tvalid_reg = 1'b0;
 reg                   output_1_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    output_1_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  output_1_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  output_1_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [DATA_WIDTH-1:0]  output_2_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  output_2_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   output_2_axis_tvalid_reg = 1'b0;
 reg                   output_2_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    output_2_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  output_2_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  output_2_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [DATA_WIDTH-1:0]  output_3_axis_tdata_reg  = {DATA_WIDTH{1'b0}};
 reg [KEEP_WIDTH-1:0]  output_3_axis_tkeep_reg  = {KEEP_WIDTH{1'b0}};
 reg                   output_3_axis_tvalid_reg = 1'b0;
 reg                   output_3_axis_tlast_reg  = 1'b0;
 reg [ID_WIDTH-1:0]    output_3_axis_tid_reg    = {ID_WIDTH{1'b0}};
 reg [DEST_WIDTH-1:0]  output_3_axis_tdest_reg  = {DEST_WIDTH{1'b0}};
 reg [USER_WIDTH-1:0]  output_3_axis_tuser_reg  = {USER_WIDTH{1'b0}};
 reg [1:0]             output_0_select_reg = 2'd0;
 reg [1:0]             output_1_select_reg = 2'd0;
 reg [1:0]             output_2_select_reg = 2'd0;
 reg [1:0]             output_3_select_reg = 2'd0;
 assign output_0_axis_tdata  = output_0_axis_tdata_reg;
 assign output_0_axis_tkeep  = KEEP_ENABLE ? output_0_axis_tkeep_reg : {KEEP_WIDTH{1'b1}};
 assign output_0_axis_tvalid = output_0_axis_tvalid_reg;
 assign output_0_axis_tlast  = LAST_ENABLE ? output_0_axis_tlast_reg : 1'b1;
 assign output_0_axis_tid    = ID_ENABLE   ? output_0_axis_tid_reg   : {ID_WIDTH{1'b0}};
 assign output_0_axis_tdest  = DEST_ENABLE ? output_0_axis_tdest_reg : {DEST_WIDTH{1'b0}};
 assign output_0_axis_tuser  = USER_ENABLE ? output_0_axis_tuser_reg : {USER_WIDTH{1'b0}};
 assign output_1_axis_tdata  = output_1_axis_tdata_reg;
 assign output_1_axis_tkeep  = KEEP_ENABLE ? output_1_axis_tkeep_reg : {KEEP_WIDTH{1'b1}};
 assign output_1_axis_tvalid = output_1_axis_tvalid_reg;
 assign output_1_axis_tlast  = LAST_ENABLE ? output_1_axis_tlast_reg : 1'b1;
 assign output_1_axis_tid    = ID_ENABLE   ? output_1_axis_tid_reg   : {ID_WIDTH{1'b0}};
 assign output_1_axis_tdest  = DEST_ENABLE ? output_1_axis_tdest_reg : {DEST_WIDTH{1'b0}};
 assign output_1_axis_tuser  = USER_ENABLE ? output_1_axis_tuser_reg : {USER_WIDTH{1'b0}};
 assign output_2_axis_tdata  = output_2_axis_tdata_reg;
 assign output_2_axis_tkeep  = KEEP_ENABLE ? output_2_axis_tkeep_reg : {KEEP_WIDTH{1'b1}};
 assign output_2_axis_tvalid = output_2_axis_tvalid_reg;
 assign output_2_axis_tlast  = LAST_ENABLE ? output_2_axis_tlast_reg : 1'b1;
 assign output_2_axis_tid    = ID_ENABLE   ? output_2_axis_tid_reg   : {ID_WIDTH{1'b0}};
 assign output_2_axis_tdest  = DEST_ENABLE ? output_2_axis_tdest_reg : {DEST_WIDTH{1'b0}};
 assign output_2_axis_tuser  = USER_ENABLE ? output_2_axis_tuser_reg : {USER_WIDTH{1'b0}};
 assign output_3_axis_tdata  = output_3_axis_tdata_reg;
 assign output_3_axis_tkeep  = KEEP_ENABLE ? output_3_axis_tkeep_reg : {KEEP_WIDTH{1'b1}};
 assign output_3_axis_tvalid = output_3_axis_tvalid_reg;
 assign output_3_axis_tlast  = LAST_ENABLE ? output_3_axis_tlast_reg : 1'b1;
 assign output_3_axis_tid    = ID_ENABLE   ? output_3_axis_tid_reg   : {ID_WIDTH{1'b0}};
 assign output_3_axis_tdest  = DEST_ENABLE ? output_3_axis_tdest_reg : {DEST_WIDTH{1'b0}};
 assign output_3_axis_tuser  = USER_ENABLE ? output_3_axis_tuser_reg : {USER_WIDTH{1'b0}};
 always @(posedge clk) begin
    if (rst) begin
        output_0_select_reg <= 2'd0;
        output_1_select_reg <= 2'd0;
        output_2_select_reg <= 2'd0;
        output_3_select_reg <= 2'd0;
        input_0_axis_tvalid_reg <= 1'b0;
        input_1_axis_tvalid_reg <= 1'b0;
        input_2_axis_tvalid_reg <= 1'b0;
        input_3_axis_tvalid_reg <= 1'b0;
        output_0_axis_tvalid_reg <= 1'b0;
        output_1_axis_tvalid_reg <= 1'b0;
        output_2_axis_tvalid_reg <= 1'b0;
        output_3_axis_tvalid_reg <= 1'b0;
    end else begin
        input_0_axis_tvalid_reg <= input_0_axis_tvalid;
        input_1_axis_tvalid_reg <= input_1_axis_tvalid;
        input_2_axis_tvalid_reg <= input_2_axis_tvalid;
        input_3_axis_tvalid_reg <= input_3_axis_tvalid;
        output_0_select_reg <= output_0_select;
        output_1_select_reg <= output_1_select;
        output_2_select_reg <= output_2_select;
        output_3_select_reg <= output_3_select;
        case (output_0_select_reg)
            2'd0: output_0_axis_tvalid_reg <= input_0_axis_tvalid_reg;
            2'd1: output_0_axis_tvalid_reg <= input_1_axis_tvalid_reg;
            2'd2: output_0_axis_tvalid_reg <= input_2_axis_tvalid_reg;
            2'd3: output_0_axis_tvalid_reg <= input_3_axis_tvalid_reg;
        endcase
        case (output_1_select_reg)
            2'd0: output_1_axis_tvalid_reg <= input_0_axis_tvalid_reg;
            2'd1: output_1_axis_tvalid_reg <= input_1_axis_tvalid_reg;
            2'd2: output_1_axis_tvalid_reg <= input_2_axis_tvalid_reg;
            2'd3: output_1_axis_tvalid_reg <= input_3_axis_tvalid_reg;
        endcase
        case (output_2_select_reg)
            2'd0: output_2_axis_tvalid_reg <= input_0_axis_tvalid_reg;
            2'd1: output_2_axis_tvalid_reg <= input_1_axis_tvalid_reg;
            2'd2: output_2_axis_tvalid_reg <= input_2_axis_tvalid_reg;
            2'd3: output_2_axis_tvalid_reg <= input_3_axis_tvalid_reg;
        endcase
        case (output_3_select_reg)
            2'd0: output_3_axis_tvalid_reg <= input_0_axis_tvalid_reg;
            2'd1: output_3_axis_tvalid_reg <= input_1_axis_tvalid_reg;
            2'd2: output_3_axis_tvalid_reg <= input_2_axis_tvalid_reg;
            2'd3: output_3_axis_tvalid_reg <= input_3_axis_tvalid_reg;
        endcase
    end
    input_0_axis_tdata_reg <= input_0_axis_tdata;
    input_0_axis_tkeep_reg <= input_0_axis_tkeep;
    input_0_axis_tlast_reg <= input_0_axis_tlast;
    input_0_axis_tid_reg   <= input_0_axis_tid;
    input_0_axis_tdest_reg <= input_0_axis_tdest;
    input_0_axis_tuser_reg <= input_0_axis_tuser;
    input_1_axis_tdata_reg <= input_1_axis_tdata;
    input_1_axis_tkeep_reg <= input_1_axis_tkeep;
    input_1_axis_tlast_reg <= input_1_axis_tlast;
    input_1_axis_tid_reg   <= input_1_axis_tid;
    input_1_axis_tdest_reg <= input_1_axis_tdest;
    input_1_axis_tuser_reg <= input_1_axis_tuser;
    input_2_axis_tdata_reg <= input_2_axis_tdata;
    input_2_axis_tkeep_reg <= input_2_axis_tkeep;
    input_2_axis_tlast_reg <= input_2_axis_tlast;
    input_2_axis_tid_reg   <= input_2_axis_tid;
    input_2_axis_tdest_reg <= input_2_axis_tdest;
    input_2_axis_tuser_reg <= input_2_axis_tuser;
    input_3_axis_tdata_reg <= input_3_axis_tdata;
    input_3_axis_tkeep_reg <= input_3_axis_tkeep;
    input_3_axis_tlast_reg <= input_3_axis_tlast;
    input_3_axis_tid_reg   <= input_3_axis_tid;
    input_3_axis_tdest_reg <= input_3_axis_tdest;
    input_3_axis_tuser_reg <= input_3_axis_tuser;
    case (output_0_select_reg)
        2'd0: begin
            output_0_axis_tdata_reg <= input_0_axis_tdata_reg;
            output_0_axis_tkeep_reg <= input_0_axis_tkeep_reg;
            output_0_axis_tlast_reg <= input_0_axis_tlast_reg;
            output_0_axis_tid_reg   <= input_0_axis_tid_reg;
            output_0_axis_tdest_reg <= input_0_axis_tdest_reg;
            output_0_axis_tuser_reg <= input_0_axis_tuser_reg;
        end
        2'd1: begin
            output_0_axis_tdata_reg <= input_1_axis_tdata_reg;
            output_0_axis_tkeep_reg <= input_1_axis_tkeep_reg;
            output_0_axis_tlast_reg <= input_1_axis_tlast_reg;
            output_0_axis_tid_reg   <= input_1_axis_tid_reg;
            output_0_axis_tdest_reg <= input_1_axis_tdest_reg;
            output_0_axis_tuser_reg <= input_1_axis_tuser_reg;
        end
        2'd2: begin
            output_0_axis_tdata_reg <= input_2_axis_tdata_reg;
            output_0_axis_tkeep_reg <= input_2_axis_tkeep_reg;
            output_0_axis_tlast_reg <= input_2_axis_tlast_reg;
            output_0_axis_tid_reg   <= input_2_axis_tid_reg;
            output_0_axis_tdest_reg <= input_2_axis_tdest_reg;
            output_0_axis_tuser_reg <= input_2_axis_tuser_reg;
        end
        2'd3: begin
            output_0_axis_tdata_reg <= input_3_axis_tdata_reg;
            output_0_axis_tkeep_reg <= input_3_axis_tkeep_reg;
            output_0_axis_tlast_reg <= input_3_axis_tlast_reg;
            output_0_axis_tid_reg   <= input_3_axis_tid_reg;
            output_0_axis_tdest_reg <= input_3_axis_tdest_reg;
            output_0_axis_tuser_reg <= input_3_axis_tuser_reg;
        end
    endcase
    case (output_1_select_reg)
        2'd0: begin
            output_1_axis_tdata_reg <= input_0_axis_tdata_reg;
            output_1_axis_tkeep_reg <= input_0_axis_tkeep_reg;
            output_1_axis_tlast_reg <= input_0_axis_tlast_reg;
            output_1_axis_tid_reg   <= input_0_axis_tid_reg;
            output_1_axis_tdest_reg <= input_0_axis_tdest_reg;
            output_1_axis_tuser_reg <= input_0_axis_tuser_reg;
        end
        2'd1: begin
            output_1_axis_tdata_reg <= input_1_axis_tdata_reg;
            output_1_axis_tkeep_reg <= input_1_axis_tkeep_reg;
            output_1_axis_tlast_reg <= input_1_axis_tlast_reg;
            output_1_axis_tid_reg   <= input_1_axis_tid_reg;
            output_1_axis_tdest_reg <= input_1_axis_tdest_reg;
            output_1_axis_tuser_reg <= input_1_axis_tuser_reg;
        end
        2'd2: begin
            output_1_axis_tdata_reg <= input_2_axis_tdata_reg;
            output_1_axis_tkeep_reg <= input_2_axis_tkeep_reg;
            output_1_axis_tlast_reg <= input_2_axis_tlast_reg;
            output_1_axis_tid_reg   <= input_2_axis_tid_reg;
            output_1_axis_tdest_reg <= input_2_axis_tdest_reg;
            output_1_axis_tuser_reg <= input_2_axis_tuser_reg;
        end
        2'd3: begin
            output_1_axis_tdata_reg <= input_3_axis_tdata_reg;
            output_1_axis_tkeep_reg <= input_3_axis_tkeep_reg;
            output_1_axis_tlast_reg <= input_3_axis_tlast_reg;
            output_1_axis_tid_reg   <= input_3_axis_tid_reg;
            output_1_axis_tdest_reg <= input_3_axis_tdest_reg;
            output_1_axis_tuser_reg <= input_3_axis_tuser_reg;
        end
    endcase
    case (output_2_select_reg)
        2'd0: begin
            output_2_axis_tdata_reg <= input_0_axis_tdata_reg;
            output_2_axis_tkeep_reg <= input_0_axis_tkeep_reg;
            output_2_axis_tlast_reg <= input_0_axis_tlast_reg;
            output_2_axis_tid_reg   <= input_0_axis_tid_reg;
            output_2_axis_tdest_reg <= input_0_axis_tdest_reg;
            output_2_axis_tuser_reg <= input_0_axis_tuser_reg;
        end
        2'd1: begin
            output_2_axis_tdata_reg <= input_1_axis_tdata_reg;
            output_2_axis_tkeep_reg <= input_1_axis_tkeep_reg;
            output_2_axis_tlast_reg <= input_1_axis_tlast_reg;
            output_2_axis_tid_reg   <= input_1_axis_tid_reg;
            output_2_axis_tdest_reg <= input_1_axis_tdest_reg;
            output_2_axis_tuser_reg <= input_1_axis_tuser_reg;
        end
        2'd2: begin
            output_2_axis_tdata_reg <= input_2_axis_tdata_reg;
            output_2_axis_tkeep_reg <= input_2_axis_tkeep_reg;
            output_2_axis_tlast_reg <= input_2_axis_tlast_reg;
            output_2_axis_tid_reg   <= input_2_axis_tid_reg;
            output_2_axis_tdest_reg <= input_2_axis_tdest_reg;
            output_2_axis_tuser_reg <= input_2_axis_tuser_reg;
        end
        2'd3: begin
            output_2_axis_tdata_reg <= input_3_axis_tdata_reg;
            output_2_axis_tkeep_reg <= input_3_axis_tkeep_reg;
            output_2_axis_tlast_reg <= input_3_axis_tlast_reg;
            output_2_axis_tid_reg   <= input_3_axis_tid_reg;
            output_2_axis_tdest_reg <= input_3_axis_tdest_reg;
            output_2_axis_tuser_reg <= input_3_axis_tuser_reg;
        end
    endcase
    case (output_3_select_reg)
        2'd0: begin
            output_3_axis_tdata_reg <= input_0_axis_tdata_reg;
            output_3_axis_tkeep_reg <= input_0_axis_tkeep_reg;
            output_3_axis_tlast_reg <= input_0_axis_tlast_reg;
            output_3_axis_tid_reg   <= input_0_axis_tid_reg;
            output_3_axis_tdest_reg <= input_0_axis_tdest_reg;
            output_3_axis_tuser_reg <= input_0_axis_tuser_reg;
        end
        2'd1: begin
            output_3_axis_tdata_reg <= input_1_axis_tdata_reg;
            output_3_axis_tkeep_reg <= input_1_axis_tkeep_reg;
            output_3_axis_tlast_reg <= input_1_axis_tlast_reg;
            output_3_axis_tid_reg   <= input_1_axis_tid_reg;
            output_3_axis_tdest_reg <= input_1_axis_tdest_reg;
            output_3_axis_tuser_reg <= input_1_axis_tuser_reg;
        end
        2'd2: begin
            output_3_axis_tdata_reg <= input_2_axis_tdata_reg;
            output_3_axis_tkeep_reg <= input_2_axis_tkeep_reg;
            output_3_axis_tlast_reg <= input_2_axis_tlast_reg;
            output_3_axis_tid_reg   <= input_2_axis_tid_reg;
            output_3_axis_tdest_reg <= input_2_axis_tdest_reg;
            output_3_axis_tuser_reg <= input_2_axis_tuser_reg;
        end
        2'd3: begin
            output_3_axis_tdata_reg <= input_3_axis_tdata_reg;
            output_3_axis_tkeep_reg <= input_3_axis_tkeep_reg;
            output_3_axis_tlast_reg <= input_3_axis_tlast_reg;
            output_3_axis_tid_reg   <= input_3_axis_tid_reg;
            output_3_axis_tdest_reg <= input_3_axis_tdest_reg;
            output_3_axis_tuser_reg <= input_3_axis_tuser_reg;
        end
    endcase
 end
 endmodule
--- a/tb/test_axis_crosspoint_4x4.py
+++ b/tb/test_axis_crosspoint_4x4.py
@ -27,9 +27,10 @@ from myhdl import *
 import os
 import axis_ep
 import math
-module = 'axis_crosspoint_4x4'
+module = 'axis_crosspoint'
-testbench = 'test_%s' % module
+testbench = 'test_%s_4x4' % module
 srcs = []
@ -43,6 +44,8 @@ build_cmd = "iverilog -o %s.vvp %s" % (testbench, src)
 def bench():
    # Parameters
    S_COUNT = 4
    M_COUNT = 4
    DATA_WIDTH = 8
    KEEP_ENABLE = (DATA_WIDTH>8)
    KEEP_WIDTH = (DATA_WIDTH/8)
@ -59,207 +62,92 @@ def bench():
    rst = Signal(bool(0))
    current_test = Signal(intbv(0)[8:])
-    input_0_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+    s_axis_tdata_list = [Signal(intbv(0)[DATA_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
+    s_axis_tkeep_list = [Signal(intbv(1)[KEEP_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tvalid = Signal(bool(0))
+    s_axis_tvalid_list = [Signal(bool(0)) for i in range(S_COUNT)]
-    input_0_axis_tlast = Signal(bool(0))
+    s_axis_tlast_list = [Signal(bool(0)) for i in range(S_COUNT)]
-    input_0_axis_tid = Signal(intbv(0)[ID_WIDTH:])
+    s_axis_tid_list = [Signal(intbv(0)[ID_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
+    s_axis_tdest_list = [Signal(intbv(0)[DEST_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
+    s_axis_tuser_list = [Signal(intbv(0)[USER_WIDTH:]) for i in range(S_COUNT)]
    input_1_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    input_1_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    input_1_axis_tvalid = Signal(bool(0))
    input_1_axis_tlast = Signal(bool(0))
    input_1_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    input_1_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    input_1_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    input_2_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    input_2_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    input_2_axis_tvalid = Signal(bool(0))
    input_2_axis_tlast = Signal(bool(0))
    input_2_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    input_2_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    input_2_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    input_3_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    input_3_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    input_3_axis_tvalid = Signal(bool(0))
    input_3_axis_tlast = Signal(bool(0))
    input_3_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    input_3_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    input_3_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
-    output_0_select = Signal(intbv(0)[2:])
+    s_axis_tdata = ConcatSignal(*reversed(s_axis_tdata_list))
-    output_1_select = Signal(intbv(0)[2:])
+    s_axis_tkeep = ConcatSignal(*reversed(s_axis_tkeep_list))
-    output_2_select = Signal(intbv(0)[2:])
+    s_axis_tvalid = ConcatSignal(*reversed(s_axis_tvalid_list))
-    output_3_select = Signal(intbv(0)[2:])
+    s_axis_tlast = ConcatSignal(*reversed(s_axis_tlast_list))
    s_axis_tid = ConcatSignal(*reversed(s_axis_tid_list))
    s_axis_tdest = ConcatSignal(*reversed(s_axis_tdest_list))
    s_axis_tuser = ConcatSignal(*reversed(s_axis_tuser_list))
    select_list = [Signal(intbv(0)[math.ceil(math.log(S_COUNT, 2)):]) for i in range(M_COUNT)]
    select = ConcatSignal(*reversed(select_list))
    # Outputs
-    output_0_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+    m_axis_tdata = Signal(intbv(0)[M_COUNT*DATA_WIDTH:])
-    output_0_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
+    m_axis_tkeep = Signal(intbv(0xf)[M_COUNT*KEEP_WIDTH:])
-    output_0_axis_tvalid = Signal(bool(0))
+    m_axis_tvalid = Signal(intbv(0)[M_COUNT:])
-    output_0_axis_tlast = Signal(bool(0))
+    m_axis_tlast = Signal(intbv(0)[M_COUNT:])
-    output_0_axis_tid = Signal(intbv(0)[ID_WIDTH:])
+    m_axis_tid = Signal(intbv(0)[M_COUNT*ID_WIDTH:])
-    output_0_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
+    m_axis_tdest = Signal(intbv(0)[M_COUNT*DEST_WIDTH:])
-    output_0_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
+    m_axis_tuser = Signal(intbv(0)[M_COUNT*USER_WIDTH:])
-    output_1_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+
-    output_1_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
+    m_axis_tdata_list = [m_axis_tdata((i+1)*DATA_WIDTH, i*DATA_WIDTH) for i in range(M_COUNT)]
-    output_1_axis_tvalid = Signal(bool(0))
+    m_axis_tkeep_list = [m_axis_tkeep((i+1)*KEEP_WIDTH, i*KEEP_WIDTH) for i in range(M_COUNT)]
-    output_1_axis_tlast = Signal(bool(0))
+    m_axis_tvalid_list = [m_axis_tvalid(i) for i in range(M_COUNT)]
-    output_1_axis_tid = Signal(intbv(0)[ID_WIDTH:])
+    m_axis_tlast_list = [m_axis_tlast(i) for i in range(M_COUNT)]
-    output_1_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
+    m_axis_tid_list = [m_axis_tid((i+1)*ID_WIDTH, i*ID_WIDTH) for i in range(M_COUNT)]
-    output_1_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
+    m_axis_tdest_list = [m_axis_tdest((i+1)*DEST_WIDTH, i*DEST_WIDTH) for i in range(M_COUNT)]
-    output_2_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+    m_axis_tuser_list = [m_axis_tuser((i+1)*USER_WIDTH, i*USER_WIDTH) for i in range(M_COUNT)]
    output_2_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    output_2_axis_tvalid = Signal(bool(0))
    output_2_axis_tlast = Signal(bool(0))
    output_2_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    output_2_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    output_2_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    output_3_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    output_3_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    output_3_axis_tvalid = Signal(bool(0))
    output_3_axis_tlast = Signal(bool(0))
    output_3_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    output_3_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    output_3_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    # sources and sinks
-    source_0_pause = Signal(bool(0))
+    source_pause_list = []
-    source_1_pause = Signal(bool(0))
+    source_list = []
-    source_2_pause = Signal(bool(0))
+    source_logic_list = []
-    source_3_pause = Signal(bool(0))
+    sink_pause_list = []
-    sink_0_pause = Signal(bool(0))
+    sink_list = []
-    sink_1_pause = Signal(bool(0))
+    sink_logic_list = []
    sink_2_pause = Signal(bool(0))
    sink_3_pause = Signal(bool(0))
-    source_0 = axis_ep.AXIStreamSource()
+    for k in range(S_COUNT):
        s = axis_ep.AXIStreamSource()
        p = Signal(bool(0))
-    source_0_logic = source_0.create_logic(
+        source_list.append(s)
-        clk,
+        source_pause_list.append(p)
        rst,
        tdata=input_0_axis_tdata,
        tkeep=input_0_axis_tkeep,
        tvalid=input_0_axis_tvalid,
        tlast=input_0_axis_tlast,
        tid=input_0_axis_tid,
        tdest=input_0_axis_tdest,
        tuser=input_0_axis_tuser,
        pause=source_0_pause,
        name='source_0'
    )
-    source_1 = axis_ep.AXIStreamSource()
+        source_logic_list.append(s.create_logic(
            clk,
            rst,
            tdata=s_axis_tdata_list[k],
            tkeep=s_axis_tkeep_list[k],
            tvalid=s_axis_tvalid_list[k],
            tlast=s_axis_tlast_list[k],
            tid=s_axis_tid_list[k],
            tdest=s_axis_tdest_list[k],
            tuser=s_axis_tuser_list[k],
            pause=p,
            name='source_%d' % k
        ))
-    source_1_logic = source_1.create_logic(
+    for k in range(M_COUNT):
-        clk,
+        s = axis_ep.AXIStreamSink()
-        rst,
+        p = Signal(bool(0))
        tdata=input_1_axis_tdata,
        tkeep=input_1_axis_tkeep,
        tvalid=input_1_axis_tvalid,
        tlast=input_1_axis_tlast,
        tid=input_1_axis_tid,
        tdest=input_1_axis_tdest,
        tuser=input_1_axis_tuser,
        pause=source_1_pause,
        name='source_1'
    )
-    source_2 = axis_ep.AXIStreamSource()
+        sink_list.append(s)
        sink_pause_list.append(p)
-    source_2_logic = source_2.create_logic(
+        sink_logic_list.append(s.create_logic(
-        clk,
+            clk,
-        rst,
+            rst,
-        tdata=input_2_axis_tdata,
+            tdata=m_axis_tdata_list[k],
-        tkeep=input_2_axis_tkeep,
+            tkeep=m_axis_tkeep_list[k],
-        tvalid=input_2_axis_tvalid,
+            tvalid=m_axis_tvalid_list[k],
-        tlast=input_2_axis_tlast,
+            tlast=m_axis_tlast_list[k],
-        tid=input_2_axis_tid,
+            tid=m_axis_tid_list[k],
-        tdest=input_2_axis_tdest,
+            tdest=m_axis_tdest_list[k],
-        tuser=input_2_axis_tuser,
+            tuser=m_axis_tuser_list[k],
-        pause=source_2_pause,
+            pause=p,
-        name='source_2'
+            name='sink_%d' % k
-    )
+        ))
    source_3 = axis_ep.AXIStreamSource()
    source_3_logic = source_3.create_logic(
        clk,
        rst,
        tdata=input_3_axis_tdata,
        tkeep=input_3_axis_tkeep,
        tvalid=input_3_axis_tvalid,
        tlast=input_3_axis_tlast,
        tid=input_3_axis_tid,
        tdest=input_3_axis_tdest,
        tuser=input_3_axis_tuser,
        pause=source_3_pause,
        name='source_3'
    )
    sink_0 = axis_ep.AXIStreamSink()
    sink_0_logic = sink_0.create_logic(
        clk,
        rst,
        tdata=output_0_axis_tdata,
        tkeep=output_0_axis_tkeep,
        tvalid=output_0_axis_tvalid,
        tlast=output_0_axis_tlast,
        tid=output_0_axis_tid,
        tdest=output_0_axis_tdest,
        tuser=output_0_axis_tuser,
        pause=sink_0_pause,
        name='sink_0'
    )
    sink_1 = axis_ep.AXIStreamSink()
    sink_1_logic = sink_1.create_logic(
        clk,
        rst,
        tdata=output_1_axis_tdata,
        tkeep=output_1_axis_tkeep,
        tvalid=output_1_axis_tvalid,
        tlast=output_1_axis_tlast,
        tid=output_1_axis_tid,
        tdest=output_1_axis_tdest,
        tuser=output_1_axis_tuser,
        pause=sink_1_pause,
        name='sink_1'
    )
    sink_2 = axis_ep.AXIStreamSink()
    sink_2_logic = sink_2.create_logic(
        clk,
        rst,
        tdata=output_2_axis_tdata,
        tkeep=output_2_axis_tkeep,
        tvalid=output_2_axis_tvalid,
        tlast=output_2_axis_tlast,
        tid=output_2_axis_tid,
        tdest=output_2_axis_tdest,
        tuser=output_2_axis_tuser,
        pause=sink_2_pause,
        name='sink_2'
    )
    sink_3 = axis_ep.AXIStreamSink()
    sink_3_logic = sink_3.create_logic(
        clk,
        rst,
        tdata=output_3_axis_tdata,
        tkeep=output_3_axis_tkeep,
        tvalid=output_3_axis_tvalid,
        tlast=output_3_axis_tlast,
        tid=output_3_axis_tid,
        tdest=output_3_axis_tdest,
        tuser=output_3_axis_tuser,
        pause=sink_3_pause,
        name='sink_3'
    )
    # DUT
    if os.system(build_cmd):
@ -271,68 +159,23 @@ def bench():
        rst=rst,
        current_test=current_test,
-        input_0_axis_tdata=input_0_axis_tdata,
+        s_axis_tdata=s_axis_tdata,
-        input_0_axis_tkeep=input_0_axis_tkeep,
+        s_axis_tkeep=s_axis_tkeep,
-        input_0_axis_tvalid=input_0_axis_tvalid,
+        s_axis_tvalid=s_axis_tvalid,
-        input_0_axis_tlast=input_0_axis_tlast,
+        s_axis_tlast=s_axis_tlast,
-        input_0_axis_tid=input_0_axis_tid,
+        s_axis_tid=s_axis_tid,
-        input_0_axis_tdest=input_0_axis_tdest,
+        s_axis_tdest=s_axis_tdest,
-        input_0_axis_tuser=input_0_axis_tuser,
+        s_axis_tuser=s_axis_tuser,
        input_1_axis_tdata=input_1_axis_tdata,
        input_1_axis_tkeep=input_1_axis_tkeep,
        input_1_axis_tvalid=input_1_axis_tvalid,
        input_1_axis_tlast=input_1_axis_tlast,
        input_1_axis_tid=input_1_axis_tid,
        input_1_axis_tdest=input_1_axis_tdest,
        input_1_axis_tuser=input_1_axis_tuser,
        input_2_axis_tdata=input_2_axis_tdata,
        input_2_axis_tkeep=input_2_axis_tkeep,
        input_2_axis_tvalid=input_2_axis_tvalid,
        input_2_axis_tlast=input_2_axis_tlast,
        input_2_axis_tid=input_2_axis_tid,
        input_2_axis_tdest=input_2_axis_tdest,
        input_2_axis_tuser=input_2_axis_tuser,
        input_3_axis_tdata=input_3_axis_tdata,
        input_3_axis_tkeep=input_3_axis_tkeep,
        input_3_axis_tvalid=input_3_axis_tvalid,
        input_3_axis_tlast=input_3_axis_tlast,
        input_3_axis_tid=input_3_axis_tid,
        input_3_axis_tdest=input_3_axis_tdest,
        input_3_axis_tuser=input_3_axis_tuser,
-        output_0_axis_tdata=output_0_axis_tdata,
+        m_axis_tdata=m_axis_tdata,
-        output_0_axis_tkeep=output_0_axis_tkeep,
+        m_axis_tkeep=m_axis_tkeep,
-        output_0_axis_tvalid=output_0_axis_tvalid,
+        m_axis_tvalid=m_axis_tvalid,
-        output_0_axis_tlast=output_0_axis_tlast,
+        m_axis_tlast=m_axis_tlast,
-        output_0_axis_tid=output_0_axis_tid,
+        m_axis_tid=m_axis_tid,
-        output_0_axis_tdest=output_0_axis_tdest,
+        m_axis_tdest=m_axis_tdest,
-        output_0_axis_tuser=output_0_axis_tuser,
+        m_axis_tuser=m_axis_tuser,
        output_1_axis_tdata=output_1_axis_tdata,
        output_1_axis_tkeep=output_1_axis_tkeep,
        output_1_axis_tvalid=output_1_axis_tvalid,
        output_1_axis_tlast=output_1_axis_tlast,
        output_1_axis_tid=output_1_axis_tid,
        output_1_axis_tdest=output_1_axis_tdest,
        output_1_axis_tuser=output_1_axis_tuser,
        output_2_axis_tdata=output_2_axis_tdata,
        output_2_axis_tkeep=output_2_axis_tkeep,
        output_2_axis_tvalid=output_2_axis_tvalid,
        output_2_axis_tlast=output_2_axis_tlast,
        output_2_axis_tid=output_2_axis_tid,
        output_2_axis_tdest=output_2_axis_tdest,
        output_2_axis_tuser=output_2_axis_tuser,
        output_3_axis_tdata=output_3_axis_tdata,
        output_3_axis_tkeep=output_3_axis_tkeep,
        output_3_axis_tvalid=output_3_axis_tvalid,
        output_3_axis_tlast=output_3_axis_tlast,
        output_3_axis_tid=output_3_axis_tid,
        output_3_axis_tdest=output_3_axis_tdest,
        output_3_axis_tuser=output_3_axis_tuser,
-        output_0_select=output_0_select,
+        select=select
        output_1_select=output_1_select,
        output_2_select=output_2_select,
        output_3_select=output_3_select
    )
    @always(delay(4))
@ -356,37 +199,37 @@ def bench():
        print("test 1: 0123 -> 0123")
        current_test.next = 1
-        output_0_select.next = 0
+        select_list[0].next = 0
-        output_1_select.next = 1
+        select_list[1].next = 1
-        output_2_select.next = 2
+        select_list[2].next = 2
-        output_3_select.next = 3
+        select_list[3].next = 3
        test_frame0 = axis_ep.AXIStreamFrame(b'\x01\x00\x00\xFF\x01\x02\x03\x04', id=0, dest=0)
        test_frame1 = axis_ep.AXIStreamFrame(b'\x01\x01\x01\xFF\x01\x02\x03\x04', id=1, dest=1)
        test_frame2 = axis_ep.AXIStreamFrame(b'\x01\x02\x02\xFF\x01\x02\x03\x04', id=2, dest=2)
        test_frame3 = axis_ep.AXIStreamFrame(b'\x01\x03\x03\xFF\x01\x02\x03\x04', id=3, dest=3)
-        source_0.send(test_frame0)
+        source_list[0].send(test_frame0)
-        source_1.send(test_frame1)
+        source_list[1].send(test_frame1)
-        source_2.send(test_frame2)
+        source_list[2].send(test_frame2)
-        source_3.send(test_frame3)
+        source_list[3].send(test_frame3)
-        yield sink_0.wait()
+        yield sink_list[0].wait()
-        rx_frame0 = sink_0.recv()
+        rx_frame0 = sink_list[0].recv()
        assert rx_frame0 == test_frame0
-        yield sink_1.wait()
+        yield sink_list[1].wait()
-        rx_frame1 = sink_1.recv()
+        rx_frame1 = sink_list[1].recv()
        assert rx_frame1 == test_frame1
-        yield sink_2.wait()
+        yield sink_list[2].wait()
-        rx_frame2 = sink_2.recv()
+        rx_frame2 = sink_list[2].recv()
        assert rx_frame2 == test_frame2
-        yield sink_3.wait()
+        yield sink_list[3].wait()
-        rx_frame3 = sink_3.recv()
+        rx_frame3 = sink_list[3].recv()
        assert rx_frame3 == test_frame3
@ -396,37 +239,37 @@ def bench():
        print("test 2: 0123 -> 3210")
        current_test.next = 2
-        output_0_select.next = 3
+        select_list[0].next = 3
-        output_1_select.next = 2
+        select_list[1].next = 2
-        output_2_select.next = 1
+        select_list[2].next = 1
-        output_3_select.next = 0
+        select_list[3].next = 0
        test_frame0 = axis_ep.AXIStreamFrame(b'\x02\x00\x03\xFF\x01\x02\x03\x04', id=0, dest=3)
        test_frame1 = axis_ep.AXIStreamFrame(b'\x02\x01\x02\xFF\x01\x02\x03\x04', id=1, dest=2)
        test_frame2 = axis_ep.AXIStreamFrame(b'\x02\x02\x01\xFF\x01\x02\x03\x04', id=2, dest=1)
        test_frame3 = axis_ep.AXIStreamFrame(b'\x02\x03\x00\xFF\x01\x02\x03\x04', id=3, dest=0)
-        source_0.send(test_frame0)
+        source_list[0].send(test_frame0)
-        source_1.send(test_frame1)
+        source_list[1].send(test_frame1)
-        source_2.send(test_frame2)
+        source_list[2].send(test_frame2)
-        source_3.send(test_frame3)
+        source_list[3].send(test_frame3)
-        yield sink_0.wait()
+        yield sink_list[0].wait()
-        rx_frame0 = sink_0.recv()
+        rx_frame0 = sink_list[0].recv()
        assert rx_frame0 == test_frame3
-        yield sink_1.wait()
+        yield sink_list[1].wait()
-        rx_frame1 = sink_1.recv()
+        rx_frame1 = sink_list[1].recv()
        assert rx_frame1 == test_frame2
-        yield sink_2.wait()
+        yield sink_list[2].wait()
-        rx_frame2 = sink_2.recv()
+        rx_frame2 = sink_list[2].recv()
        assert rx_frame2 == test_frame1
-        yield sink_3.wait()
+        yield sink_list[3].wait()
-        rx_frame3 = sink_3.recv()
+        rx_frame3 = sink_list[3].recv()
        assert rx_frame3 == test_frame0
@ -436,31 +279,31 @@ def bench():
        print("test 3: 0000 -> 0123")
        current_test.next = 3
-        output_0_select.next = 0
+        select_list[0].next = 0
-        output_1_select.next = 0
+        select_list[1].next = 0
-        output_2_select.next = 0
+        select_list[2].next = 0
-        output_3_select.next = 0
+        select_list[3].next = 0
        test_frame0 = axis_ep.AXIStreamFrame(b'\x03\x00\xFF\xFF\x01\x02\x03\x04', id=0, dest=0)
-        source_0.send(test_frame0)
+        source_list[0].send(test_frame0)
-        yield sink_0.wait()
+        yield sink_list[0].wait()
-        rx_frame0 = sink_0.recv()
+        rx_frame0 = sink_list[0].recv()
        assert rx_frame0 == test_frame0
-        yield sink_1.wait()
+        yield sink_list[1].wait()
-        rx_frame1 = sink_1.recv()
+        rx_frame1 = sink_list[1].recv()
        assert rx_frame1 == test_frame0
-        yield sink_2.wait()
+        yield sink_list[2].wait()
-        rx_frame2 = sink_2.recv()
+        rx_frame2 = sink_list[2].recv()
        assert rx_frame2 == test_frame0
-        yield sink_3.wait()
+        yield sink_list[3].wait()
-        rx_frame3 = sink_3.recv()
+        rx_frame3 = sink_list[3].recv()
        assert rx_frame3 == test_frame0
--- a/tb/test_axis_crosspoint_4x4.v
+++ b/tb/test_axis_crosspoint_4x4.v
@ -27,11 +27,13 @@ THE SOFTWARE.
 `timescale 1ns / 1ps
 /*
- * Testbench for axis_crosspoint_4x4
+ * Testbench for axis_crosspoint
 */
 module test_axis_crosspoint_4x4;
 // Parameters
 parameter S_COUNT = 4;
 parameter M_COUNT = 4;
 parameter DATA_WIDTH = 8;
 parameter KEEP_ENABLE = (DATA_WIDTH>8);
 parameter KEEP_WIDTH = (DATA_WIDTH/8);
@ -48,69 +50,24 @@ reg clk = 0;
 reg rst = 0;
 reg [7:0] current_test = 0;
-reg [DATA_WIDTH-1:0] input_0_axis_tdata = 0;
+reg [S_COUNT*DATA_WIDTH-1:0] s_axis_tdata = 0;
-reg [KEEP_WIDTH-1:0] input_0_axis_tkeep = 0;
+reg [S_COUNT*KEEP_WIDTH-1:0] s_axis_tkeep = 0;
-reg input_0_axis_tvalid = 0;
+reg [S_COUNT-1:0] s_axis_tvalid = 0;
-reg input_0_axis_tlast = 0;
+reg [S_COUNT-1:0] s_axis_tlast = 0;
-reg [ID_WIDTH-1:0] input_0_axis_tid = 0;
+reg [S_COUNT*ID_WIDTH-1:0] s_axis_tid = 0;
-reg [DEST_WIDTH-1:0] input_0_axis_tdest = 0;
+reg [S_COUNT*DEST_WIDTH-1:0] s_axis_tdest = 0;
-reg [USER_WIDTH-1:0] input_0_axis_tuser = 0;
+reg [S_COUNT*USER_WIDTH-1:0] s_axis_tuser = 0;
 reg [DATA_WIDTH-1:0] input_1_axis_tdata = 0;
 reg [KEEP_WIDTH-1:0] input_1_axis_tkeep = 0;
 reg input_1_axis_tvalid = 0;
 reg input_1_axis_tlast = 0;
 reg [ID_WIDTH-1:0] input_1_axis_tid = 0;
 reg [DEST_WIDTH-1:0] input_1_axis_tdest = 0;
 reg [USER_WIDTH-1:0] input_1_axis_tuser = 0;
 reg [DATA_WIDTH-1:0] input_2_axis_tdata = 0;
 reg [KEEP_WIDTH-1:0] input_2_axis_tkeep = 0;
 reg input_2_axis_tvalid = 0;
 reg input_2_axis_tlast = 0;
 reg [ID_WIDTH-1:0] input_2_axis_tid = 0;
 reg [DEST_WIDTH-1:0] input_2_axis_tdest = 0;
 reg [USER_WIDTH-1:0] input_2_axis_tuser = 0;
 reg [DATA_WIDTH-1:0] input_3_axis_tdata = 0;
 reg [KEEP_WIDTH-1:0] input_3_axis_tkeep = 0;
 reg input_3_axis_tvalid = 0;
 reg input_3_axis_tlast = 0;
 reg [ID_WIDTH-1:0] input_3_axis_tid = 0;
 reg [DEST_WIDTH-1:0] input_3_axis_tdest = 0;
 reg [USER_WIDTH-1:0] input_3_axis_tuser = 0;
-reg [1:0] output_0_select = 0;
+reg [M_COUNT*$clog2(S_COUNT)-1:0] select = 0;
 reg [1:0] output_1_select = 0;
 reg [1:0] output_2_select = 0;
 reg [1:0] output_3_select = 0;
 // Outputs
-wire [DATA_WIDTH-1:0] output_0_axis_tdata;
+wire [M_COUNT*DATA_WIDTH-1:0] m_axis_tdata;
-wire [KEEP_WIDTH-1:0] output_0_axis_tkeep;
+wire [M_COUNT*KEEP_WIDTH-1:0] m_axis_tkeep;
-wire output_0_axis_tvalid;
+wire [M_COUNT-1:0] m_axis_tvalid;
-wire output_0_axis_tlast;
+wire [M_COUNT-1:0] m_axis_tlast;
-wire [ID_WIDTH-1:0] output_0_axis_tid;
+wire [M_COUNT*ID_WIDTH-1:0] m_axis_tid;
-wire [DEST_WIDTH-1:0] output_0_axis_tdest;
+wire [M_COUNT*DEST_WIDTH-1:0] m_axis_tdest;
-wire [USER_WIDTH-1:0] output_0_axis_tuser;
+wire [M_COUNT*USER_WIDTH-1:0] m_axis_tuser;
 wire [DATA_WIDTH-1:0] output_1_axis_tdata;
 wire [KEEP_WIDTH-1:0] output_1_axis_tkeep;
 wire output_1_axis_tvalid;
 wire output_1_axis_tlast;
 wire [ID_WIDTH-1:0] output_1_axis_tid;
 wire [DEST_WIDTH-1:0] output_1_axis_tdest;
 wire [USER_WIDTH-1:0] output_1_axis_tuser;
 wire [DATA_WIDTH-1:0] output_2_axis_tdata;
 wire [KEEP_WIDTH-1:0] output_2_axis_tkeep;
 wire output_2_axis_tvalid;
 wire output_2_axis_tlast;
 wire [ID_WIDTH-1:0] output_2_axis_tid;
 wire [DEST_WIDTH-1:0] output_2_axis_tdest;
 wire [USER_WIDTH-1:0] output_2_axis_tuser;
 wire [DATA_WIDTH-1:0] output_3_axis_tdata;
 wire [KEEP_WIDTH-1:0] output_3_axis_tkeep;
 wire output_3_axis_tvalid;
 wire output_3_axis_tlast;
 wire [ID_WIDTH-1:0] output_3_axis_tid;
 wire [DEST_WIDTH-1:0] output_3_axis_tdest;
 wire [USER_WIDTH-1:0] output_3_axis_tuser;
 initial begin
    // myhdl integration
@ -118,68 +75,23 @@ initial begin
        clk,
        rst,
        current_test,
-        input_0_axis_tdata,
+        s_axis_tdata,
-        input_0_axis_tkeep,
+        s_axis_tkeep,
-        input_0_axis_tvalid,
+        s_axis_tvalid,
-        input_0_axis_tlast,
+        s_axis_tlast,
-        input_0_axis_tid,
+        s_axis_tid,
-        input_0_axis_tdest,
+        s_axis_tdest,
-        input_0_axis_tuser,
+        s_axis_tuser,
-        input_1_axis_tdata,
+        select
        input_1_axis_tkeep,
        input_1_axis_tvalid,
        input_1_axis_tlast,
        input_1_axis_tid,
        input_1_axis_tdest,
        input_1_axis_tuser,
        input_2_axis_tdata,
        input_2_axis_tkeep,
        input_2_axis_tvalid,
        input_2_axis_tlast,
        input_2_axis_tid,
        input_2_axis_tdest,
        input_2_axis_tuser,
        input_3_axis_tdata,
        input_3_axis_tkeep,
        input_3_axis_tvalid,
        input_3_axis_tlast,
        input_3_axis_tid,
        input_3_axis_tdest,
        input_3_axis_tuser,
        output_0_select,
        output_1_select,
        output_2_select,
        output_3_select
    );
    $to_myhdl(
-        output_0_axis_tdata,
+        m_axis_tdata,
-        output_0_axis_tkeep,
+        m_axis_tkeep,
-        output_0_axis_tvalid,
+        m_axis_tvalid,
-        output_0_axis_tlast,
+        m_axis_tlast,
-        output_0_axis_tid,
+        m_axis_tid,
-        output_0_axis_tdest,
+        m_axis_tdest,
-        output_0_axis_tuser,
+        m_axis_tuser
        output_1_axis_tdata,
        output_1_axis_tkeep,
        output_1_axis_tvalid,
        output_1_axis_tlast,
        output_1_axis_tid,
        output_1_axis_tdest,
        output_1_axis_tuser,
        output_2_axis_tdata,
        output_2_axis_tkeep,
        output_2_axis_tvalid,
        output_2_axis_tlast,
        output_2_axis_tid,
        output_2_axis_tdest,
        output_2_axis_tuser,
        output_3_axis_tdata,
        output_3_axis_tkeep,
        output_3_axis_tvalid,
        output_3_axis_tlast,
        output_3_axis_tid,
        output_3_axis_tdest,
        output_3_axis_tuser
    );
    // dump file
@ -187,7 +99,9 @@ initial begin
    $dumpvars(0, test_axis_crosspoint_4x4);
 end
-axis_crosspoint_4x4 #(
+axis_crosspoint #(
    .S_COUNT(S_COUNT),
    .M_COUNT(M_COUNT),
    .DATA_WIDTH(DATA_WIDTH),
    .KEEP_ENABLE(KEEP_ENABLE),
    .KEEP_WIDTH(KEEP_WIDTH),
@ -203,68 +117,23 @@ UUT (
    .clk(clk),
    .rst(rst),
    // AXI inputs
-    .input_0_axis_tdata(input_0_axis_tdata),
+    .s_axis_tdata(s_axis_tdata),
-    .input_0_axis_tkeep(input_0_axis_tkeep),
+    .s_axis_tkeep(s_axis_tkeep),
-    .input_0_axis_tvalid(input_0_axis_tvalid),
+    .s_axis_tvalid(s_axis_tvalid),
-    .input_0_axis_tlast(input_0_axis_tlast),
+    .s_axis_tlast(s_axis_tlast),
-    .input_0_axis_tid(input_0_axis_tid),
+    .s_axis_tid(s_axis_tid),
-    .input_0_axis_tdest(input_0_axis_tdest),
+    .s_axis_tdest(s_axis_tdest),
-    .input_0_axis_tuser(input_0_axis_tuser),
+    .s_axis_tuser(s_axis_tuser),
-    .input_1_axis_tdata(input_1_axis_tdata),
+    // AXI output
-    .input_1_axis_tkeep(input_1_axis_tkeep),
+    .m_axis_tdata(m_axis_tdata),
-    .input_1_axis_tvalid(input_1_axis_tvalid),
+    .m_axis_tkeep(m_axis_tkeep),
-    .input_1_axis_tlast(input_1_axis_tlast),
+    .m_axis_tvalid(m_axis_tvalid),
-    .input_1_axis_tid(input_1_axis_tid),
+    .m_axis_tlast(m_axis_tlast),
-    .input_1_axis_tdest(input_1_axis_tdest),
+    .m_axis_tid(m_axis_tid),
-    .input_1_axis_tuser(input_1_axis_tuser),
+    .m_axis_tdest(m_axis_tdest),
-    .input_2_axis_tdata(input_2_axis_tdata),
+    .m_axis_tuser(m_axis_tuser),
    .input_2_axis_tkeep(input_2_axis_tkeep),
    .input_2_axis_tvalid(input_2_axis_tvalid),
    .input_2_axis_tlast(input_2_axis_tlast),
    .input_2_axis_tid(input_2_axis_tid),
    .input_2_axis_tdest(input_2_axis_tdest),
    .input_2_axis_tuser(input_2_axis_tuser),
    .input_3_axis_tdata(input_3_axis_tdata),
    .input_3_axis_tkeep(input_3_axis_tkeep),
    .input_3_axis_tvalid(input_3_axis_tvalid),
    .input_3_axis_tlast(input_3_axis_tlast),
    .input_3_axis_tid(input_3_axis_tid),
    .input_3_axis_tdest(input_3_axis_tdest),
    .input_3_axis_tuser(input_3_axis_tuser),
    // AXI outputs
    .output_0_axis_tdata(output_0_axis_tdata),
    .output_0_axis_tkeep(output_0_axis_tkeep),
    .output_0_axis_tvalid(output_0_axis_tvalid),
    .output_0_axis_tlast(output_0_axis_tlast),
    .output_0_axis_tid(output_0_axis_tid),
    .output_0_axis_tdest(output_0_axis_tdest),
    .output_0_axis_tuser(output_0_axis_tuser),
    .output_1_axis_tdata(output_1_axis_tdata),
    .output_1_axis_tkeep(output_1_axis_tkeep),
    .output_1_axis_tvalid(output_1_axis_tvalid),
    .output_1_axis_tlast(output_1_axis_tlast),
    .output_1_axis_tid(output_1_axis_tid),
    .output_1_axis_tdest(output_1_axis_tdest),
    .output_1_axis_tuser(output_1_axis_tuser),
    .output_2_axis_tdata(output_2_axis_tdata),
    .output_2_axis_tkeep(output_2_axis_tkeep),
    .output_2_axis_tvalid(output_2_axis_tvalid),
    .output_2_axis_tlast(output_2_axis_tlast),
    .output_2_axis_tid(output_2_axis_tid),
    .output_2_axis_tdest(output_2_axis_tdest),
    .output_2_axis_tuser(output_2_axis_tuser),
    .output_3_axis_tdata(output_3_axis_tdata),
    .output_3_axis_tkeep(output_3_axis_tkeep),
    .output_3_axis_tvalid(output_3_axis_tvalid),
    .output_3_axis_tlast(output_3_axis_tlast),
    .output_3_axis_tid(output_3_axis_tid),
    .output_3_axis_tdest(output_3_axis_tdest),
    .output_3_axis_tuser(output_3_axis_tuser),
    // Control
-    .output_0_select(output_0_select),
+    .select(select)
    .output_1_select(output_1_select),
    .output_2_select(output_2_select),
    .output_3_select(output_3_select)
 );
 endmodule
--- a/tb/test_axis_crosspoint_4x4_64.py
+++ b/tb/test_axis_crosspoint_4x4_64.py
@ -27,9 +27,10 @@ from myhdl import *
 import os
 import axis_ep
 import math
-module = 'axis_crosspoint_4x4'
+module = 'axis_crosspoint'
-testbench = 'test_%s_64' % module
+testbench = 'test_%s_4x4_64' % module
 srcs = []
@ -43,6 +44,8 @@ build_cmd = "iverilog -o %s.vvp %s" % (testbench, src)
 def bench():
    # Parameters
    S_COUNT = 4
    M_COUNT = 4
    DATA_WIDTH = 64
    KEEP_ENABLE = (DATA_WIDTH>8)
    KEEP_WIDTH = (DATA_WIDTH/8)
@ -59,207 +62,92 @@ def bench():
    rst = Signal(bool(0))
    current_test = Signal(intbv(0)[8:])
-    input_0_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+    s_axis_tdata_list = [Signal(intbv(0)[DATA_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
+    s_axis_tkeep_list = [Signal(intbv(1)[KEEP_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tvalid = Signal(bool(0))
+    s_axis_tvalid_list = [Signal(bool(0)) for i in range(S_COUNT)]
-    input_0_axis_tlast = Signal(bool(0))
+    s_axis_tlast_list = [Signal(bool(0)) for i in range(S_COUNT)]
-    input_0_axis_tid = Signal(intbv(0)[ID_WIDTH:])
+    s_axis_tid_list = [Signal(intbv(0)[ID_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
+    s_axis_tdest_list = [Signal(intbv(0)[DEST_WIDTH:]) for i in range(S_COUNT)]
-    input_0_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
+    s_axis_tuser_list = [Signal(intbv(0)[USER_WIDTH:]) for i in range(S_COUNT)]
    input_1_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    input_1_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    input_1_axis_tvalid = Signal(bool(0))
    input_1_axis_tlast = Signal(bool(0))
    input_1_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    input_1_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    input_1_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    input_2_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    input_2_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    input_2_axis_tvalid = Signal(bool(0))
    input_2_axis_tlast = Signal(bool(0))
    input_2_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    input_2_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    input_2_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    input_3_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    input_3_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    input_3_axis_tvalid = Signal(bool(0))
    input_3_axis_tlast = Signal(bool(0))
    input_3_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    input_3_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    input_3_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
-    output_0_select = Signal(intbv(0)[2:])
+    s_axis_tdata = ConcatSignal(*reversed(s_axis_tdata_list))
-    output_1_select = Signal(intbv(0)[2:])
+    s_axis_tkeep = ConcatSignal(*reversed(s_axis_tkeep_list))
-    output_2_select = Signal(intbv(0)[2:])
+    s_axis_tvalid = ConcatSignal(*reversed(s_axis_tvalid_list))
-    output_3_select = Signal(intbv(0)[2:])
+    s_axis_tlast = ConcatSignal(*reversed(s_axis_tlast_list))
    s_axis_tid = ConcatSignal(*reversed(s_axis_tid_list))
    s_axis_tdest = ConcatSignal(*reversed(s_axis_tdest_list))
    s_axis_tuser = ConcatSignal(*reversed(s_axis_tuser_list))
    select_list = [Signal(intbv(0)[math.ceil(math.log(S_COUNT, 2)):]) for i in range(M_COUNT)]
    select = ConcatSignal(*reversed(select_list))
    # Outputs
-    output_0_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+    m_axis_tdata = Signal(intbv(0)[M_COUNT*DATA_WIDTH:])
-    output_0_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
+    m_axis_tkeep = Signal(intbv(0xf)[M_COUNT*KEEP_WIDTH:])
-    output_0_axis_tvalid = Signal(bool(0))
+    m_axis_tvalid = Signal(intbv(0)[M_COUNT:])
-    output_0_axis_tlast = Signal(bool(0))
+    m_axis_tlast = Signal(intbv(0)[M_COUNT:])
-    output_0_axis_tid = Signal(intbv(0)[ID_WIDTH:])
+    m_axis_tid = Signal(intbv(0)[M_COUNT*ID_WIDTH:])
-    output_0_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
+    m_axis_tdest = Signal(intbv(0)[M_COUNT*DEST_WIDTH:])
-    output_0_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
+    m_axis_tuser = Signal(intbv(0)[M_COUNT*USER_WIDTH:])
-    output_1_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+
-    output_1_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
+    m_axis_tdata_list = [m_axis_tdata((i+1)*DATA_WIDTH, i*DATA_WIDTH) for i in range(M_COUNT)]
-    output_1_axis_tvalid = Signal(bool(0))
+    m_axis_tkeep_list = [m_axis_tkeep((i+1)*KEEP_WIDTH, i*KEEP_WIDTH) for i in range(M_COUNT)]
-    output_1_axis_tlast = Signal(bool(0))
+    m_axis_tvalid_list = [m_axis_tvalid(i) for i in range(M_COUNT)]
-    output_1_axis_tid = Signal(intbv(0)[ID_WIDTH:])
+    m_axis_tlast_list = [m_axis_tlast(i) for i in range(M_COUNT)]
-    output_1_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
+    m_axis_tid_list = [m_axis_tid((i+1)*ID_WIDTH, i*ID_WIDTH) for i in range(M_COUNT)]
-    output_1_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
+    m_axis_tdest_list = [m_axis_tdest((i+1)*DEST_WIDTH, i*DEST_WIDTH) for i in range(M_COUNT)]
-    output_2_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
+    m_axis_tuser_list = [m_axis_tuser((i+1)*USER_WIDTH, i*USER_WIDTH) for i in range(M_COUNT)]
    output_2_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    output_2_axis_tvalid = Signal(bool(0))
    output_2_axis_tlast = Signal(bool(0))
    output_2_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    output_2_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    output_2_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    output_3_axis_tdata = Signal(intbv(0)[DATA_WIDTH:])
    output_3_axis_tkeep = Signal(intbv(1)[KEEP_WIDTH:])
    output_3_axis_tvalid = Signal(bool(0))
    output_3_axis_tlast = Signal(bool(0))
    output_3_axis_tid = Signal(intbv(0)[ID_WIDTH:])
    output_3_axis_tdest = Signal(intbv(0)[DEST_WIDTH:])
    output_3_axis_tuser = Signal(intbv(0)[USER_WIDTH:])
    # sources and sinks
-    source_0_pause = Signal(bool(0))
+    source_pause_list = []
-    source_1_pause = Signal(bool(0))
+    source_list = []
-    source_2_pause = Signal(bool(0))
+    source_logic_list = []
-    source_3_pause = Signal(bool(0))
+    sink_pause_list = []
-    sink_0_pause = Signal(bool(0))
+    sink_list = []
-    sink_1_pause = Signal(bool(0))
+    sink_logic_list = []
    sink_2_pause = Signal(bool(0))
    sink_3_pause = Signal(bool(0))
-    source_0 = axis_ep.AXIStreamSource()
+    for k in range(S_COUNT):
        s = axis_ep.AXIStreamSource()
        p = Signal(bool(0))
-    source_0_logic = source_0.create_logic(
+        source_list.append(s)
-        clk,
+        source_pause_list.append(p)
        rst,
        tdata=input_0_axis_tdata,
        tkeep=input_0_axis_tkeep,
        tvalid=input_0_axis_tvalid,
        tlast=input_0_axis_tlast,
        tid=input_0_axis_tid,
        tdest=input_0_axis_tdest,
        tuser=input_0_axis_tuser,
        pause=source_0_pause,
        name='source_0'
    )
-    source_1 = axis_ep.AXIStreamSource()
+        source_logic_list.append(s.create_logic(
            clk,
            rst,
            tdata=s_axis_tdata_list[k],
            tkeep=s_axis_tkeep_list[k],
            tvalid=s_axis_tvalid_list[k],
            tlast=s_axis_tlast_list[k],
            tid=s_axis_tid_list[k],
            tdest=s_axis_tdest_list[k],
            tuser=s_axis_tuser_list[k],
            pause=p,
            name='source_%d' % k
        ))
-    source_1_logic = source_1.create_logic(
+    for k in range(M_COUNT):
-        clk,
+        s = axis_ep.AXIStreamSink()
-        rst,
+        p = Signal(bool(0))
        tdata=input_1_axis_tdata,
        tkeep=input_1_axis_tkeep,
        tvalid=input_1_axis_tvalid,
        tlast=input_1_axis_tlast,
        tid=input_1_axis_tid,
        tdest=input_1_axis_tdest,
        tuser=input_1_axis_tuser,
        pause=source_1_pause,
        name='source_1'
    )
-    source_2 = axis_ep.AXIStreamSource()
+        sink_list.append(s)
        sink_pause_list.append(p)
-    source_2_logic = source_2.create_logic(
+        sink_logic_list.append(s.create_logic(
-        clk,
+            clk,
-        rst,
+            rst,
-        tdata=input_2_axis_tdata,
+            tdata=m_axis_tdata_list[k],
-        tkeep=input_2_axis_tkeep,
+            tkeep=m_axis_tkeep_list[k],
-        tvalid=input_2_axis_tvalid,
+            tvalid=m_axis_tvalid_list[k],
-        tlast=input_2_axis_tlast,
+            tlast=m_axis_tlast_list[k],
-        tid=input_2_axis_tid,
+            tid=m_axis_tid_list[k],
-        tdest=input_2_axis_tdest,
+            tdest=m_axis_tdest_list[k],
-        tuser=input_2_axis_tuser,
+            tuser=m_axis_tuser_list[k],
-        pause=source_2_pause,
+            pause=p,
-        name='source_2'
+            name='sink_%d' % k
-    )
+        ))
    source_3 = axis_ep.AXIStreamSource()
    source_3_logic = source_3.create_logic(
        clk,
        rst,
        tdata=input_3_axis_tdata,
        tkeep=input_3_axis_tkeep,
        tvalid=input_3_axis_tvalid,
        tlast=input_3_axis_tlast,
        tid=input_3_axis_tid,
        tdest=input_3_axis_tdest,
        tuser=input_3_axis_tuser,
        pause=source_3_pause,
        name='source_3'
    )
    sink_0 = axis_ep.AXIStreamSink()
    sink_0_logic = sink_0.create_logic(
        clk,
        rst,
        tdata=output_0_axis_tdata,
        tkeep=output_0_axis_tkeep,
        tvalid=output_0_axis_tvalid,
        tlast=output_0_axis_tlast,
        tid=output_0_axis_tid,
        tdest=output_0_axis_tdest,
        tuser=output_0_axis_tuser,
        pause=sink_0_pause,
        name='sink_0'
    )
    sink_1 = axis_ep.AXIStreamSink()
    sink_1_logic = sink_1.create_logic(
        clk,
        rst,
        tdata=output_1_axis_tdata,
        tkeep=output_1_axis_tkeep,
        tvalid=output_1_axis_tvalid,
        tlast=output_1_axis_tlast,
        tid=output_1_axis_tid,
        tdest=output_1_axis_tdest,
        tuser=output_1_axis_tuser,
        pause=sink_1_pause,
        name='sink_1'
    )
    sink_2 = axis_ep.AXIStreamSink()
    sink_2_logic = sink_2.create_logic(
        clk,
        rst,
        tdata=output_2_axis_tdata,
        tkeep=output_2_axis_tkeep,
        tvalid=output_2_axis_tvalid,
        tlast=output_2_axis_tlast,
        tid=output_2_axis_tid,
        tdest=output_2_axis_tdest,
        tuser=output_2_axis_tuser,
        pause=sink_2_pause,
        name='sink_2'
    )
    sink_3 = axis_ep.AXIStreamSink()
    sink_3_logic = sink_3.create_logic(
        clk,
        rst,
        tdata=output_3_axis_tdata,
        tkeep=output_3_axis_tkeep,
        tvalid=output_3_axis_tvalid,
        tlast=output_3_axis_tlast,
        tid=output_3_axis_tid,
        tdest=output_3_axis_tdest,
        tuser=output_3_axis_tuser,
        pause=sink_3_pause,
        name='sink_3'
    )
    # DUT
    if os.system(build_cmd):
@ -271,68 +159,23 @@ def bench():
        rst=rst,
        current_test=current_test,
-        input_0_axis_tdata=input_0_axis_tdata,
+        s_axis_tdata=s_axis_tdata,
-        input_0_axis_tkeep=input_0_axis_tkeep,
+        s_axis_tkeep=s_axis_tkeep,
-        input_0_axis_tvalid=input_0_axis_tvalid,
+        s_axis_tvalid=s_axis_tvalid,
-        input_0_axis_tlast=input_0_axis_tlast,
+        s_axis_tlast=s_axis_tlast,
-        input_0_axis_tid=input_0_axis_tid,
+        s_axis_tid=s_axis_tid,
-        input_0_axis_tdest=input_0_axis_tdest,
+        s_axis_tdest=s_axis_tdest,
-        input_0_axis_tuser=input_0_axis_tuser,
+        s_axis_tuser=s_axis_tuser,
        input_1_axis_tdata=input_1_axis_tdata,
        input_1_axis_tkeep=input_1_axis_tkeep,
        input_1_axis_tvalid=input_1_axis_tvalid,
        input_1_axis_tlast=input_1_axis_tlast,
        input_1_axis_tid=input_1_axis_tid,
        input_1_axis_tdest=input_1_axis_tdest,
        input_1_axis_tuser=input_1_axis_tuser,
        input_2_axis_tdata=input_2_axis_tdata,
        input_2_axis_tkeep=input_2_axis_tkeep,
        input_2_axis_tvalid=input_2_axis_tvalid,
        input_2_axis_tlast=input_2_axis_tlast,
        input_2_axis_tid=input_2_axis_tid,
        input_2_axis_tdest=input_2_axis_tdest,
        input_2_axis_tuser=input_2_axis_tuser,
        input_3_axis_tdata=input_3_axis_tdata,
        input_3_axis_tkeep=input_3_axis_tkeep,
        input_3_axis_tvalid=input_3_axis_tvalid,
        input_3_axis_tlast=input_3_axis_tlast,
        input_3_axis_tid=input_3_axis_tid,
        input_3_axis_tdest=input_3_axis_tdest,
        input_3_axis_tuser=input_3_axis_tuser,
-        output_0_axis_tdata=output_0_axis_tdata,
+        m_axis_tdata=m_axis_tdata,
-        output_0_axis_tkeep=output_0_axis_tkeep,
+        m_axis_tkeep=m_axis_tkeep,
-        output_0_axis_tvalid=output_0_axis_tvalid,
+        m_axis_tvalid=m_axis_tvalid,
-        output_0_axis_tlast=output_0_axis_tlast,
+        m_axis_tlast=m_axis_tlast,
-        output_0_axis_tid=output_0_axis_tid,
+        m_axis_tid=m_axis_tid,
-        output_0_axis_tdest=output_0_axis_tdest,
+        m_axis_tdest=m_axis_tdest,
-        output_0_axis_tuser=output_0_axis_tuser,
+        m_axis_tuser=m_axis_tuser,
        output_1_axis_tdata=output_1_axis_tdata,
        output_1_axis_tkeep=output_1_axis_tkeep,
        output_1_axis_tvalid=output_1_axis_tvalid,
        output_1_axis_tlast=output_1_axis_tlast,
        output_1_axis_tid=output_1_axis_tid,
        output_1_axis_tdest=output_1_axis_tdest,
        output_1_axis_tuser=output_1_axis_tuser,
        output_2_axis_tdata=output_2_axis_tdata,
        output_2_axis_tkeep=output_2_axis_tkeep,
        output_2_axis_tvalid=output_2_axis_tvalid,
        output_2_axis_tlast=output_2_axis_tlast,
        output_2_axis_tid=output_2_axis_tid,
        output_2_axis_tdest=output_2_axis_tdest,
        output_2_axis_tuser=output_2_axis_tuser,
        output_3_axis_tdata=output_3_axis_tdata,
        output_3_axis_tkeep=output_3_axis_tkeep,
        output_3_axis_tvalid=output_3_axis_tvalid,
        output_3_axis_tlast=output_3_axis_tlast,
        output_3_axis_tid=output_3_axis_tid,
        output_3_axis_tdest=output_3_axis_tdest,
        output_3_axis_tuser=output_3_axis_tuser,
-        output_0_select=output_0_select,
+        select=select
        output_1_select=output_1_select,
        output_2_select=output_2_select,
        output_3_select=output_3_select
    )
    @always(delay(4))
@ -356,37 +199,37 @@ def bench():
        print("test 1: 0123 -> 0123")
        current_test.next = 1
-        output_0_select.next = 0
+        select_list[0].next = 0
-        output_1_select.next = 1
+        select_list[1].next = 1
-        output_2_select.next = 2
+        select_list[2].next = 2
-        output_3_select.next = 3
+        select_list[3].next = 3
        test_frame0 = axis_ep.AXIStreamFrame(b'\x01\x00\x00\xFF\x01\x02\x03\x04', id=0, dest=0)
        test_frame1 = axis_ep.AXIStreamFrame(b'\x01\x01\x01\xFF\x01\x02\x03\x04', id=1, dest=1)
        test_frame2 = axis_ep.AXIStreamFrame(b'\x01\x02\x02\xFF\x01\x02\x03\x04', id=2, dest=2)
        test_frame3 = axis_ep.AXIStreamFrame(b'\x01\x03\x03\xFF\x01\x02\x03\x04', id=3, dest=3)
-        source_0.send(test_frame0)
+        source_list[0].send(test_frame0)
-        source_1.send(test_frame1)
+        source_list[1].send(test_frame1)
-        source_2.send(test_frame2)
+        source_list[2].send(test_frame2)
-        source_3.send(test_frame3)
+        source_list[3].send(test_frame3)
-        yield sink_0.wait()
+        yield sink_list[0].wait()
-        rx_frame0 = sink_0.recv()
+        rx_frame0 = sink_list[0].recv()
        assert rx_frame0 == test_frame0
-        yield sink_1.wait()
+        yield sink_list[1].wait()
-        rx_frame1 = sink_1.recv()
+        rx_frame1 = sink_list[1].recv()
        assert rx_frame1 == test_frame1
-        yield sink_2.wait()
+        yield sink_list[2].wait()
-        rx_frame2 = sink_2.recv()
+        rx_frame2 = sink_list[2].recv()
        assert rx_frame2 == test_frame2
-        yield sink_3.wait()
+        yield sink_list[3].wait()
-        rx_frame3 = sink_3.recv()
+        rx_frame3 = sink_list[3].recv()
        assert rx_frame3 == test_frame3
@ -396,37 +239,37 @@ def bench():
        print("test 2: 0123 -> 3210")
        current_test.next = 2
-        output_0_select.next = 3
+        select_list[0].next = 3
-        output_1_select.next = 2
+        select_list[1].next = 2
-        output_2_select.next = 1
+        select_list[2].next = 1
-        output_3_select.next = 0
+        select_list[3].next = 0
        test_frame0 = axis_ep.AXIStreamFrame(b'\x02\x00\x03\xFF\x01\x02\x03\x04', id=0, dest=3)
        test_frame1 = axis_ep.AXIStreamFrame(b'\x02\x01\x02\xFF\x01\x02\x03\x04', id=1, dest=2)
        test_frame2 = axis_ep.AXIStreamFrame(b'\x02\x02\x01\xFF\x01\x02\x03\x04', id=2, dest=1)
        test_frame3 = axis_ep.AXIStreamFrame(b'\x02\x03\x00\xFF\x01\x02\x03\x04', id=3, dest=0)
-        source_0.send(test_frame0)
+        source_list[0].send(test_frame0)
-        source_1.send(test_frame1)
+        source_list[1].send(test_frame1)
-        source_2.send(test_frame2)
+        source_list[2].send(test_frame2)
-        source_3.send(test_frame3)
+        source_list[3].send(test_frame3)
-        yield sink_0.wait()
+        yield sink_list[0].wait()
-        rx_frame0 = sink_0.recv()
+        rx_frame0 = sink_list[0].recv()
        assert rx_frame0 == test_frame3
-        yield sink_1.wait()
+        yield sink_list[1].wait()
-        rx_frame1 = sink_1.recv()
+        rx_frame1 = sink_list[1].recv()
        assert rx_frame1 == test_frame2
-        yield sink_2.wait()
+        yield sink_list[2].wait()
-        rx_frame2 = sink_2.recv()
+        rx_frame2 = sink_list[2].recv()
        assert rx_frame2 == test_frame1
-        yield sink_3.wait()
+        yield sink_list[3].wait()
-        rx_frame3 = sink_3.recv()
+        rx_frame3 = sink_list[3].recv()
        assert rx_frame3 == test_frame0
@ -436,31 +279,31 @@ def bench():
        print("test 3: 0000 -> 0123")
        current_test.next = 3
-        output_0_select.next = 0
+        select_list[0].next = 0
-        output_1_select.next = 0
+        select_list[1].next = 0
-        output_2_select.next = 0
+        select_list[2].next = 0
-        output_3_select.next = 0
+        select_list[3].next = 0
        test_frame0 = axis_ep.AXIStreamFrame(b'\x03\x00\xFF\xFF\x01\x02\x03\x04', id=0, dest=0)
-        source_0.send(test_frame0)
+        source_list[0].send(test_frame0)
-        yield sink_0.wait()
+        yield sink_list[0].wait()
-        rx_frame0 = sink_0.recv()
+        rx_frame0 = sink_list[0].recv()
        assert rx_frame0 == test_frame0
-        yield sink_1.wait()
+        yield sink_list[1].wait()
-        rx_frame1 = sink_1.recv()
+        rx_frame1 = sink_list[1].recv()
        assert rx_frame1 == test_frame0
-        yield sink_2.wait()
+        yield sink_list[2].wait()
-        rx_frame2 = sink_2.recv()
+        rx_frame2 = sink_list[2].recv()
        assert rx_frame2 == test_frame0
-        yield sink_3.wait()
+        yield sink_list[3].wait()
-        rx_frame3 = sink_3.recv()
+        rx_frame3 = sink_list[3].recv()
        assert rx_frame3 == test_frame0
--- a/tb/test_axis_crosspoint_4x4_64.v
+++ b/tb/test_axis_crosspoint_4x4_64.v
@ -27,11 +27,13 @@ THE SOFTWARE.
 `timescale 1ns / 1ps
 /*
- * Testbench for axis_crosspoint_4x4
+ * Testbench for axis_crosspoint
 */
 module test_axis_crosspoint_4x4_64;
 // Parameters
 parameter S_COUNT = 4;
 parameter M_COUNT = 4;
 parameter DATA_WIDTH = 64;
 parameter KEEP_ENABLE = (DATA_WIDTH>8);
 parameter KEEP_WIDTH = (DATA_WIDTH/8);
@ -48,69 +50,24 @@ reg clk = 0;
 reg rst = 0;
 reg [7:0] current_test = 0;
-reg [DATA_WIDTH-1:0] input_0_axis_tdata = 0;
+reg [S_COUNT*DATA_WIDTH-1:0] s_axis_tdata = 0;
-reg [KEEP_WIDTH-1:0] input_0_axis_tkeep = 0;
+reg [S_COUNT*KEEP_WIDTH-1:0] s_axis_tkeep = 0;
-reg input_0_axis_tvalid = 0;
+reg [S_COUNT-1:0] s_axis_tvalid = 0;
-reg input_0_axis_tlast = 0;
+reg [S_COUNT-1:0] s_axis_tlast = 0;
-reg [ID_WIDTH-1:0] input_0_axis_tid = 0;
+reg [S_COUNT*ID_WIDTH-1:0] s_axis_tid = 0;
-reg [DEST_WIDTH-1:0] input_0_axis_tdest = 0;
+reg [S_COUNT*DEST_WIDTH-1:0] s_axis_tdest = 0;
-reg [USER_WIDTH-1:0] input_0_axis_tuser = 0;
+reg [S_COUNT*USER_WIDTH-1:0] s_axis_tuser = 0;
 reg [DATA_WIDTH-1:0] input_1_axis_tdata = 0;
 reg [KEEP_WIDTH-1:0] input_1_axis_tkeep = 0;
 reg input_1_axis_tvalid = 0;
 reg input_1_axis_tlast = 0;
 reg [ID_WIDTH-1:0] input_1_axis_tid = 0;
 reg [DEST_WIDTH-1:0] input_1_axis_tdest = 0;
 reg [USER_WIDTH-1:0] input_1_axis_tuser = 0;
 reg [DATA_WIDTH-1:0] input_2_axis_tdata = 0;
 reg [KEEP_WIDTH-1:0] input_2_axis_tkeep = 0;
 reg input_2_axis_tvalid = 0;
 reg input_2_axis_tlast = 0;
 reg [ID_WIDTH-1:0] input_2_axis_tid = 0;
 reg [DEST_WIDTH-1:0] input_2_axis_tdest = 0;
 reg [USER_WIDTH-1:0] input_2_axis_tuser = 0;
 reg [DATA_WIDTH-1:0] input_3_axis_tdata = 0;
 reg [KEEP_WIDTH-1:0] input_3_axis_tkeep = 0;
 reg input_3_axis_tvalid = 0;
 reg input_3_axis_tlast = 0;
 reg [ID_WIDTH-1:0] input_3_axis_tid = 0;
 reg [DEST_WIDTH-1:0] input_3_axis_tdest = 0;
 reg [USER_WIDTH-1:0] input_3_axis_tuser = 0;
-reg [1:0] output_0_select = 0;
+reg [M_COUNT*$clog2(S_COUNT)-1:0] select = 0;
 reg [1:0] output_1_select = 0;
 reg [1:0] output_2_select = 0;
 reg [1:0] output_3_select = 0;
 // Outputs
-wire [DATA_WIDTH-1:0] output_0_axis_tdata;
+wire [M_COUNT*DATA_WIDTH-1:0] m_axis_tdata;
-wire [KEEP_WIDTH-1:0] output_0_axis_tkeep;
+wire [M_COUNT*KEEP_WIDTH-1:0] m_axis_tkeep;
-wire output_0_axis_tvalid;
+wire [M_COUNT-1:0] m_axis_tvalid;
-wire output_0_axis_tlast;
+wire [M_COUNT-1:0] m_axis_tlast;
-wire [ID_WIDTH-1:0] output_0_axis_tid;
+wire [M_COUNT*ID_WIDTH-1:0] m_axis_tid;
-wire [DEST_WIDTH-1:0] output_0_axis_tdest;
+wire [M_COUNT*DEST_WIDTH-1:0] m_axis_tdest;
-wire [USER_WIDTH-1:0] output_0_axis_tuser;
+wire [M_COUNT*USER_WIDTH-1:0] m_axis_tuser;
 wire [DATA_WIDTH-1:0] output_1_axis_tdata;
 wire [KEEP_WIDTH-1:0] output_1_axis_tkeep;
 wire output_1_axis_tvalid;
 wire output_1_axis_tlast;
 wire [ID_WIDTH-1:0] output_1_axis_tid;
 wire [DEST_WIDTH-1:0] output_1_axis_tdest;
 wire [USER_WIDTH-1:0] output_1_axis_tuser;
 wire [DATA_WIDTH-1:0] output_2_axis_tdata;
 wire [KEEP_WIDTH-1:0] output_2_axis_tkeep;
 wire output_2_axis_tvalid;
 wire output_2_axis_tlast;
 wire [ID_WIDTH-1:0] output_2_axis_tid;
 wire [DEST_WIDTH-1:0] output_2_axis_tdest;
 wire [USER_WIDTH-1:0] output_2_axis_tuser;
 wire [DATA_WIDTH-1:0] output_3_axis_tdata;
 wire [KEEP_WIDTH-1:0] output_3_axis_tkeep;
 wire output_3_axis_tvalid;
 wire output_3_axis_tlast;
 wire [ID_WIDTH-1:0] output_3_axis_tid;
 wire [DEST_WIDTH-1:0] output_3_axis_tdest;
 wire [USER_WIDTH-1:0] output_3_axis_tuser;
 initial begin
    // myhdl integration
@ -118,68 +75,23 @@ initial begin
        clk,
        rst,
        current_test,
-        input_0_axis_tdata,
+        s_axis_tdata,
-        input_0_axis_tkeep,
+        s_axis_tkeep,
-        input_0_axis_tvalid,
+        s_axis_tvalid,
-        input_0_axis_tlast,
+        s_axis_tlast,
-        input_0_axis_tid,
+        s_axis_tid,
-        input_0_axis_tdest,
+        s_axis_tdest,
-        input_0_axis_tuser,
+        s_axis_tuser,
-        input_1_axis_tdata,
+        select
        input_1_axis_tkeep,
        input_1_axis_tvalid,
        input_1_axis_tlast,
        input_1_axis_tid,
        input_1_axis_tdest,
        input_1_axis_tuser,
        input_2_axis_tdata,
        input_2_axis_tkeep,
        input_2_axis_tvalid,
        input_2_axis_tlast,
        input_2_axis_tid,
        input_2_axis_tdest,
        input_2_axis_tuser,
        input_3_axis_tdata,
        input_3_axis_tkeep,
        input_3_axis_tvalid,
        input_3_axis_tlast,
        input_3_axis_tid,
        input_3_axis_tdest,
        input_3_axis_tuser,
        output_0_select,
        output_1_select,
        output_2_select,
        output_3_select
    );
    $to_myhdl(
-        output_0_axis_tdata,
+        m_axis_tdata,
-        output_0_axis_tkeep,
+        m_axis_tkeep,
-        output_0_axis_tvalid,
+        m_axis_tvalid,
-        output_0_axis_tlast,
+        m_axis_tlast,
-        output_0_axis_tid,
+        m_axis_tid,
-        output_0_axis_tdest,
+        m_axis_tdest,
-        output_0_axis_tuser,
+        m_axis_tuser
        output_1_axis_tdata,
        output_1_axis_tkeep,
        output_1_axis_tvalid,
        output_1_axis_tlast,
        output_1_axis_tid,
        output_1_axis_tdest,
        output_1_axis_tuser,
        output_2_axis_tdata,
        output_2_axis_tkeep,
        output_2_axis_tvalid,
        output_2_axis_tlast,
        output_2_axis_tid,
        output_2_axis_tdest,
        output_2_axis_tuser,
        output_3_axis_tdata,
        output_3_axis_tkeep,
        output_3_axis_tvalid,
        output_3_axis_tlast,
        output_3_axis_tid,
        output_3_axis_tdest,
        output_3_axis_tuser
    );
    // dump file
@ -187,7 +99,9 @@ initial begin
    $dumpvars(0, test_axis_crosspoint_4x4_64);
 end
-axis_crosspoint_4x4 #(
+axis_crosspoint #(
    .S_COUNT(S_COUNT),
    .M_COUNT(M_COUNT),
    .DATA_WIDTH(DATA_WIDTH),
    .KEEP_ENABLE(KEEP_ENABLE),
    .KEEP_WIDTH(KEEP_WIDTH),
@ -203,68 +117,23 @@ UUT (
    .clk(clk),
    .rst(rst),
    // AXI inputs
-    .input_0_axis_tdata(input_0_axis_tdata),
+    .s_axis_tdata(s_axis_tdata),
-    .input_0_axis_tkeep(input_0_axis_tkeep),
+    .s_axis_tkeep(s_axis_tkeep),
-    .input_0_axis_tvalid(input_0_axis_tvalid),
+    .s_axis_tvalid(s_axis_tvalid),
-    .input_0_axis_tlast(input_0_axis_tlast),
+    .s_axis_tlast(s_axis_tlast),
-    .input_0_axis_tid(input_0_axis_tid),
+    .s_axis_tid(s_axis_tid),
-    .input_0_axis_tdest(input_0_axis_tdest),
+    .s_axis_tdest(s_axis_tdest),
-    .input_0_axis_tuser(input_0_axis_tuser),
+    .s_axis_tuser(s_axis_tuser),
-    .input_1_axis_tdata(input_1_axis_tdata),
+    // AXI output
-    .input_1_axis_tkeep(input_1_axis_tkeep),
+    .m_axis_tdata(m_axis_tdata),
-    .input_1_axis_tvalid(input_1_axis_tvalid),
+    .m_axis_tkeep(m_axis_tkeep),
-    .input_1_axis_tlast(input_1_axis_tlast),
+    .m_axis_tvalid(m_axis_tvalid),
-    .input_1_axis_tid(input_1_axis_tid),
+    .m_axis_tlast(m_axis_tlast),
-    .input_1_axis_tdest(input_1_axis_tdest),
+    .m_axis_tid(m_axis_tid),
-    .input_1_axis_tuser(input_1_axis_tuser),
+    .m_axis_tdest(m_axis_tdest),
-    .input_2_axis_tdata(input_2_axis_tdata),
+    .m_axis_tuser(m_axis_tuser),
    .input_2_axis_tkeep(input_2_axis_tkeep),
    .input_2_axis_tvalid(input_2_axis_tvalid),
    .input_2_axis_tlast(input_2_axis_tlast),
    .input_2_axis_tid(input_2_axis_tid),
    .input_2_axis_tdest(input_2_axis_tdest),
    .input_2_axis_tuser(input_2_axis_tuser),
    .input_3_axis_tdata(input_3_axis_tdata),
    .input_3_axis_tkeep(input_3_axis_tkeep),
    .input_3_axis_tvalid(input_3_axis_tvalid),
    .input_3_axis_tlast(input_3_axis_tlast),
    .input_3_axis_tid(input_3_axis_tid),
    .input_3_axis_tdest(input_3_axis_tdest),
    .input_3_axis_tuser(input_3_axis_tuser),
    // AXI outputs
    .output_0_axis_tdata(output_0_axis_tdata),
    .output_0_axis_tkeep(output_0_axis_tkeep),
    .output_0_axis_tvalid(output_0_axis_tvalid),
    .output_0_axis_tlast(output_0_axis_tlast),
    .output_0_axis_tid(output_0_axis_tid),
    .output_0_axis_tdest(output_0_axis_tdest),
    .output_0_axis_tuser(output_0_axis_tuser),
    .output_1_axis_tdata(output_1_axis_tdata),
    .output_1_axis_tkeep(output_1_axis_tkeep),
    .output_1_axis_tvalid(output_1_axis_tvalid),
    .output_1_axis_tlast(output_1_axis_tlast),
    .output_1_axis_tid(output_1_axis_tid),
    .output_1_axis_tdest(output_1_axis_tdest),
    .output_1_axis_tuser(output_1_axis_tuser),
    .output_2_axis_tdata(output_2_axis_tdata),
    .output_2_axis_tkeep(output_2_axis_tkeep),
    .output_2_axis_tvalid(output_2_axis_tvalid),
    .output_2_axis_tlast(output_2_axis_tlast),
    .output_2_axis_tid(output_2_axis_tid),
    .output_2_axis_tdest(output_2_axis_tdest),
    .output_2_axis_tuser(output_2_axis_tuser),
    .output_3_axis_tdata(output_3_axis_tdata),
    .output_3_axis_tkeep(output_3_axis_tkeep),
    .output_3_axis_tvalid(output_3_axis_tvalid),
    .output_3_axis_tlast(output_3_axis_tlast),
    .output_3_axis_tid(output_3_axis_tid),
    .output_3_axis_tdest(output_3_axis_tdest),
    .output_3_axis_tuser(output_3_axis_tuser),
    // Control
-    .output_0_select(output_0_select),
+    .select(select)
    .output_1_select(output_1_select),
    .output_2_select(output_2_select),
    .output_3_select(output_3_select)
 );
 endmodule