pluto_hdl_adi/projects/common/a5gte/system_top.v

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// ***************************************************************************
// ***************************************************************************
// Copyright 2011(c) Analog Devices, Inc.
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//
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
// - Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// - Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in
// the documentation and/or other materials provided with the
// distribution.
// - Neither the name of Analog Devices, Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
// - The use of this software may or may not infringe the patent rights
// of one or more patent holders. This license does not release you
// from the requirement that you obtain separate licenses from these
// patent holders to use this software.
// - Use of the software either in source or binary form, must be run
// on or directly connected to an Analog Devices Inc. component.
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//
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// THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
// INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A
// PARTICULAR PURPOSE ARE DISCLAIMED.
//
// IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY
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// RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
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// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/100ps
module system_top (
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// fpga-fpga interface
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eth_rx_clk,
eth_rx_cntrl,
eth_rx_data,
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eth_tx_clk,
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eth_tx_cntrl,
eth_tx_data,
eth_mdc,
eth_mdio_i,
eth_mdio_o,
eth_mdio_t,
eth_phy_resetn,
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// phy interface
phy_resetn,
phy_rx_clk,
phy_rx_cntrl,
phy_rx_data,
phy_tx_clk_out,
phy_tx_cntrl,
phy_tx_data,
phy_mdc,
phy_mdio);
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// fpga-fpga interface
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output eth_rx_clk;
output eth_rx_cntrl;
output [ 3:0] eth_rx_data;
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input eth_tx_clk;
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input eth_tx_cntrl;
input [ 3:0] eth_tx_data;
input eth_mdc;
output eth_mdio_i;
input eth_mdio_o;
input eth_mdio_t;
input eth_phy_resetn;
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// phy interface
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output phy_resetn;
input phy_rx_clk;
input phy_rx_cntrl;
input [ 3:0] phy_rx_data;
output phy_tx_clk_out;
output phy_tx_cntrl;
output [ 3:0] phy_tx_data;
output phy_mdc;
inout phy_mdio;
wire eth_rx_clk_90;
wire eth_tx_clk_90;
wire [ 4:0] eth_tx_data_h;
wire [ 4:0] eth_tx_data_l;
wire [ 4:0] phy_rx_data_h;
wire [ 4:0] phy_rx_data_l;
reg [ 4:0] eth_tx_data_h_d;
reg [ 4:0] phy_rx_data_h_d;
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reg [ 4:0] phy_rx_data_h_d1;
reg [ 4:0] phy_rx_data_l_d;
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// RX path
altera_pll #(
.fractional_vco_multiplier("false"),
.reference_clock_frequency("125.0 MHz"),
.operation_mode("normal"),
.number_of_clocks(1),
.output_clock_frequency0("125.000000 MHz"),
.phase_shift0("2000 ps"),
.duty_cycle0(50),
.output_clock_frequency1("0 MHz"),
.phase_shift1("0 ps"),
.duty_cycle1(50),
.output_clock_frequency2("0 MHz"),
.phase_shift2("0 ps"),
.duty_cycle2(50),
.output_clock_frequency3("0 MHz"),
.phase_shift3("0 ps"),
.duty_cycle3(50),
.output_clock_frequency4("0 MHz"),
.phase_shift4("0 ps"),
.duty_cycle4(50),
.output_clock_frequency5("0 MHz"),
.phase_shift5("0 ps"),
.duty_cycle5(50),
.output_clock_frequency6("0 MHz"),
.phase_shift6("0 ps"),
.duty_cycle6(50),
.output_clock_frequency7("0 MHz"),
.phase_shift7("0 ps"),
.duty_cycle7(50),
.output_clock_frequency8("0 MHz"),
.phase_shift8("0 ps"),
.duty_cycle8(50),
.output_clock_frequency9("0 MHz"),
.phase_shift9("0 ps"),
.duty_cycle9(50),
.output_clock_frequency10("0 MHz"),
.phase_shift10("0 ps"),
.duty_cycle10(50),
.output_clock_frequency11("0 MHz"),
.phase_shift11("0 ps"),
.duty_cycle11(50),
.output_clock_frequency12("0 MHz"),
.phase_shift12("0 ps"),
.duty_cycle12(50),
.output_clock_frequency13("0 MHz"),
.phase_shift13("0 ps"),
.duty_cycle13(50),
.output_clock_frequency14("0 MHz"),
.phase_shift14("0 ps"),
.duty_cycle14(50),
.output_clock_frequency15("0 MHz"),
.phase_shift15("0 ps"),
.duty_cycle15(50),
.output_clock_frequency16("0 MHz"),
.phase_shift16("0 ps"),
.duty_cycle16(50),
.output_clock_frequency17("0 MHz"),
.phase_shift17("0 ps"),
.duty_cycle17(50),
.pll_type("General"),
.pll_subtype("General")
) eth_rx_pll_i (
.rst (~eth_phy_resetn),
.outclk (eth_rx_clk_90),
.locked (),
.fboutclk ( ),
.fbclk (1'b0),
.refclk (phy_rx_clk)
);
altddio_in #(
.intended_device_family("Arria V"),
.invert_input_clocks("OFF"),
.lpm_hint("UNUSED"),
.lpm_type("altddio_in"),
.power_up_high("OFF"),
.width(5)
) eth_rx_path_in (
.datain ({phy_rx_cntrl,phy_rx_data}),
.inclock (phy_rx_clk),
.dataout_h (phy_rx_data_h),
.dataout_l (phy_rx_data_l),
.aclr (~eth_phy_resetn),
.aset (1'b0),
.inclocken (1'b1),
.sclr (1'b0),
.sset (1'b0));
always @(posedge phy_rx_clk)
begin
phy_rx_data_h_d <= phy_rx_data_h;
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phy_rx_data_h_d1 <= phy_rx_data_h_d;
phy_rx_data_l_d <= phy_rx_data_l;
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end
altddio_out #(
.extend_oe_disable("OFF"),
.intended_device_family("Arria V"),
.invert_output("OFF"),
.lpm_hint("UNUSED"),
.lpm_type("altddio_out"),
.oe_reg("UNREGISTERED"),
.power_up_high("OFF"),
.width(5)
) eth_rx_path_out (
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.datain_h (phy_rx_data_h_d1),
.datain_l (phy_rx_data_l_d),
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.outclock (phy_rx_clk),
.dataout ({eth_rx_cntrl,eth_rx_data}),
.aclr (~eth_phy_resetn),
.aset (1'b0),
.oe (1'b1),
.oe_out (),
.outclocken (1'b1),
.sclr (1'b0),
.sset (1'b0));
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altddio_out #(.width(1)) i_eth_rx_clk (
.aset (1'b0),
.sset (1'b0),
.sclr (1'b0),
.oe (1'b1),
.oe_out (),
.datain_h (1'b1),
.datain_l (1'b0),
.outclocken (1'b1),
.aclr (1'b0),
.outclock (eth_rx_clk_90),
.dataout (eth_rx_clk));
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// assign eth_rx_clk = eth_rx_clk_90;
// TX path
altera_pll #(
.fractional_vco_multiplier("false"),
.reference_clock_frequency("125.0 MHz"),
.operation_mode("normal"),
.number_of_clocks(1),
.output_clock_frequency0("125.000000 MHz"),
.phase_shift0("2000 ps"),
.duty_cycle0(50),
.output_clock_frequency1("0 MHz"),
.phase_shift1("0 ps"),
.duty_cycle1(50),
.output_clock_frequency2("0 MHz"),
.phase_shift2("0 ps"),
.duty_cycle2(50),
.output_clock_frequency3("0 MHz"),
.phase_shift3("0 ps"),
.duty_cycle3(50),
.output_clock_frequency4("0 MHz"),
.phase_shift4("0 ps"),
.duty_cycle4(50),
.output_clock_frequency5("0 MHz"),
.phase_shift5("0 ps"),
.duty_cycle5(50),
.output_clock_frequency6("0 MHz"),
.phase_shift6("0 ps"),
.duty_cycle6(50),
.output_clock_frequency7("0 MHz"),
.phase_shift7("0 ps"),
.duty_cycle7(50),
.output_clock_frequency8("0 MHz"),
.phase_shift8("0 ps"),
.duty_cycle8(50),
.output_clock_frequency9("0 MHz"),
.phase_shift9("0 ps"),
.duty_cycle9(50),
.output_clock_frequency10("0 MHz"),
.phase_shift10("0 ps"),
.duty_cycle10(50),
.output_clock_frequency11("0 MHz"),
.phase_shift11("0 ps"),
.duty_cycle11(50),
.output_clock_frequency12("0 MHz"),
.phase_shift12("0 ps"),
.duty_cycle12(50),
.output_clock_frequency13("0 MHz"),
.phase_shift13("0 ps"),
.duty_cycle13(50),
.output_clock_frequency14("0 MHz"),
.phase_shift14("0 ps"),
.duty_cycle14(50),
.output_clock_frequency15("0 MHz"),
.phase_shift15("0 ps"),
.duty_cycle15(50),
.output_clock_frequency16("0 MHz"),
.phase_shift16("0 ps"),
.duty_cycle16(50),
.output_clock_frequency17("0 MHz"),
.phase_shift17("0 ps"),
.duty_cycle17(50),
.pll_type("General"),
.pll_subtype("General")
) eth_tx_pll_i (
.rst (~eth_phy_resetn),
.outclk (eth_tx_clk_90),
.locked (),
.fboutclk ( ),
.fbclk (1'b0),
.refclk (eth_tx_clk)
);
altddio_in #(
.intended_device_family("Arria V"),
.invert_input_clocks("OFF"),
.lpm_hint("UNUSED"),
.lpm_type("altddio_in"),
.power_up_high("OFF"),
.width(5))
eth_tx_path_in (
.datain({eth_tx_cntrl,eth_tx_data}),
.inclock(eth_tx_clk_90),
.dataout_h(eth_tx_data_h),
.dataout_l(eth_tx_data_l));
always @(posedge eth_tx_clk_90)
begin
eth_tx_data_h_d <= eth_tx_data_h;
end
altddio_out #(
.extend_oe_disable("OFF"),
.intended_device_family("Arria V"),
.invert_output("OFF"),
.lpm_hint("UNUSED"),
.lpm_type("altddio_out"),
.oe_reg("UNREGISTERED"),
.power_up_high("OFF"),
.width(5)
) eth_tx_path_out (
.datain_h (eth_tx_data_h_d),
.datain_l (eth_tx_data_l),
.outclock (eth_tx_clk_90),
.dataout ({phy_tx_cntrl,phy_tx_data}),
.aclr (~eth_phy_resetn),
.aset (1'b0),
.oe (1'b1),
.oe_out (),
.outclocken (1'b1),
.sclr (1'b0),
.sset (1'b0));
altddio_out #(.width(1)) i_phy_tx_clk_out (
.aset (1'b0),
.sset (1'b0),
.sclr (1'b0),
.oe (1'b1),
.oe_out (),
.datain_h (1'b1),
.datain_l (1'b0),
.outclocken (1'b1),
.aclr (1'b0),
.outclock (eth_tx_clk_90),
.dataout (phy_tx_clk_out));
// assign phy_tx_clk_out = eth_tx_clk_90;
// MDIO
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assign phy_mdc = eth_mdc;
assign phy_mdio = (eth_mdio_t == 1'b0) ? eth_mdio_o : 1'bz;
assign eth_mdio_i = phy_mdio;
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// Reset
assign phy_resetn = eth_phy_resetn ;
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endmodule
// ***************************************************************************
// ***************************************************************************