//----------------------------------------------------------------------------
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//----------------------------------------------------------------------------
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// Copyright (C) 2009 , Olivier Girard
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// Copyright (C) 2009 , Olivier Girard
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//
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//
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// Redistribution and use in source and binary forms, with or without
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions
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// modification, are permitted provided that the following conditions
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// are met:
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// are met:
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// * Redistributions of source code must retain the above copyright
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above copyright
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// * Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution.
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// documentation and/or other materials provided with the distribution.
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// * Neither the name of the authors nor the names of its contributors
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// * Neither the name of the authors nor the names of its contributors
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// may be used to endorse or promote products derived from this software
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// may be used to endorse or promote products derived from this software
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// without specific prior written permission.
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// without specific prior written permission.
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//
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
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// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
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// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
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// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
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// OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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// OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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// THE POSSIBILITY OF SUCH DAMAGE
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// THE POSSIBILITY OF SUCH DAMAGE
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//
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//
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//----------------------------------------------------------------------------
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//----------------------------------------------------------------------------
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//
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//
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// *File Name: omsp_gpio.v
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// *File Name: omsp_gpio.v
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//
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//
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// *Module Description:
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// *Module Description:
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// Digital I/O interface
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// Digital I/O interface
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//
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//
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// *Author(s):
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// *Author(s):
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// - Olivier Girard, olgirard@gmail.com
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// - Olivier Girard, olgirard@gmail.com
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//
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//
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//----------------------------------------------------------------------------
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//----------------------------------------------------------------------------
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// $Rev: 117 $
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// $Rev: 134 $
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// $LastChangedBy: olivier.girard $
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// $LastChangedBy: olivier.girard $
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// $LastChangedDate: 2011-06-23 21:30:51 +0200 (Thu, 23 Jun 2011) $
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// $LastChangedDate: 2012-03-22 21:31:06 +0100 (Thu, 22 Mar 2012) $
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//----------------------------------------------------------------------------
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//----------------------------------------------------------------------------
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module omsp_gpio (
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module omsp_gpio (
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// OUTPUTs
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// OUTPUTs
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irq_port1, // Port 1 interrupt
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irq_port1, // Port 1 interrupt
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irq_port2, // Port 2 interrupt
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irq_port2, // Port 2 interrupt
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p1_dout, // Port 1 data output
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p1_dout, // Port 1 data output
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p1_dout_en, // Port 1 data output enable
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p1_dout_en, // Port 1 data output enable
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p1_sel, // Port 1 function select
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p1_sel, // Port 1 function select
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p2_dout, // Port 2 data output
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p2_dout, // Port 2 data output
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p2_dout_en, // Port 2 data output enable
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p2_dout_en, // Port 2 data output enable
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p2_sel, // Port 2 function select
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p2_sel, // Port 2 function select
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p3_dout, // Port 3 data output
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p3_dout, // Port 3 data output
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p3_dout_en, // Port 3 data output enable
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p3_dout_en, // Port 3 data output enable
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p3_sel, // Port 3 function select
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p3_sel, // Port 3 function select
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p4_dout, // Port 4 data output
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p4_dout, // Port 4 data output
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p4_dout_en, // Port 4 data output enable
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p4_dout_en, // Port 4 data output enable
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p4_sel, // Port 4 function select
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p4_sel, // Port 4 function select
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p5_dout, // Port 5 data output
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p5_dout, // Port 5 data output
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p5_dout_en, // Port 5 data output enable
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p5_dout_en, // Port 5 data output enable
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p5_sel, // Port 5 function select
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p5_sel, // Port 5 function select
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p6_dout, // Port 6 data output
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p6_dout, // Port 6 data output
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p6_dout_en, // Port 6 data output enable
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p6_dout_en, // Port 6 data output enable
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p6_sel, // Port 6 function select
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p6_sel, // Port 6 function select
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per_dout, // Peripheral data output
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per_dout, // Peripheral data output
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// INPUTs
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// INPUTs
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mclk, // Main system clock
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mclk, // Main system clock
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p1_din, // Port 1 data input
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p1_din, // Port 1 data input
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p2_din, // Port 2 data input
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p2_din, // Port 2 data input
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p3_din, // Port 3 data input
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p3_din, // Port 3 data input
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p4_din, // Port 4 data input
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p4_din, // Port 4 data input
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p5_din, // Port 5 data input
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p5_din, // Port 5 data input
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p6_din, // Port 6 data input
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p6_din, // Port 6 data input
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per_addr, // Peripheral address
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per_addr, // Peripheral address
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per_din, // Peripheral data input
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per_din, // Peripheral data input
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per_en, // Peripheral enable (high active)
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per_en, // Peripheral enable (high active)
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per_we, // Peripheral write enable (high active)
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per_we, // Peripheral write enable (high active)
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puc_rst // Main system reset
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puc_rst // Main system reset
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);
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);
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// PARAMETERs
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// PARAMETERs
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//============
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//============
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parameter P1_EN = 1'b1; // Enable Port 1
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parameter P1_EN = 1'b1; // Enable Port 1
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parameter P2_EN = 1'b1; // Enable Port 2
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parameter P2_EN = 1'b1; // Enable Port 2
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parameter P3_EN = 1'b0; // Enable Port 3
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parameter P3_EN = 1'b0; // Enable Port 3
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parameter P4_EN = 1'b0; // Enable Port 4
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parameter P4_EN = 1'b0; // Enable Port 4
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parameter P5_EN = 1'b0; // Enable Port 5
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parameter P5_EN = 1'b0; // Enable Port 5
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parameter P6_EN = 1'b0; // Enable Port 6
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parameter P6_EN = 1'b0; // Enable Port 6
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// OUTPUTs
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// OUTPUTs
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//=========
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//=========
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output irq_port1; // Port 1 interrupt
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output irq_port1; // Port 1 interrupt
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output irq_port2; // Port 2 interrupt
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output irq_port2; // Port 2 interrupt
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output [7:0] p1_dout; // Port 1 data output
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output [7:0] p1_dout; // Port 1 data output
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output [7:0] p1_dout_en; // Port 1 data output enable
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output [7:0] p1_dout_en; // Port 1 data output enable
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output [7:0] p1_sel; // Port 1 function select
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output [7:0] p1_sel; // Port 1 function select
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output [7:0] p2_dout; // Port 2 data output
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output [7:0] p2_dout; // Port 2 data output
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output [7:0] p2_dout_en; // Port 2 data output enable
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output [7:0] p2_dout_en; // Port 2 data output enable
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output [7:0] p2_sel; // Port 2 function select
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output [7:0] p2_sel; // Port 2 function select
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output [7:0] p3_dout; // Port 3 data output
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output [7:0] p3_dout; // Port 3 data output
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output [7:0] p3_dout_en; // Port 3 data output enable
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output [7:0] p3_dout_en; // Port 3 data output enable
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output [7:0] p3_sel; // Port 3 function select
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output [7:0] p3_sel; // Port 3 function select
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output [7:0] p4_dout; // Port 4 data output
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output [7:0] p4_dout; // Port 4 data output
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output [7:0] p4_dout_en; // Port 4 data output enable
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output [7:0] p4_dout_en; // Port 4 data output enable
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output [7:0] p4_sel; // Port 4 function select
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output [7:0] p4_sel; // Port 4 function select
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output [7:0] p5_dout; // Port 5 data output
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output [7:0] p5_dout; // Port 5 data output
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output [7:0] p5_dout_en; // Port 5 data output enable
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output [7:0] p5_dout_en; // Port 5 data output enable
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output [7:0] p5_sel; // Port 5 function select
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output [7:0] p5_sel; // Port 5 function select
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output [7:0] p6_dout; // Port 6 data output
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output [7:0] p6_dout; // Port 6 data output
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output [7:0] p6_dout_en; // Port 6 data output enable
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output [7:0] p6_dout_en; // Port 6 data output enable
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output [7:0] p6_sel; // Port 6 function select
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output [7:0] p6_sel; // Port 6 function select
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output [15:0] per_dout; // Peripheral data output
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output [15:0] per_dout; // Peripheral data output
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// INPUTs
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// INPUTs
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//=========
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//=========
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input mclk; // Main system clock
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input mclk; // Main system clock
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input [7:0] p1_din; // Port 1 data input
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input [7:0] p1_din; // Port 1 data input
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input [7:0] p2_din; // Port 2 data input
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input [7:0] p2_din; // Port 2 data input
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input [7:0] p3_din; // Port 3 data input
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input [7:0] p3_din; // Port 3 data input
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input [7:0] p4_din; // Port 4 data input
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input [7:0] p4_din; // Port 4 data input
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input [7:0] p5_din; // Port 5 data input
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input [7:0] p5_din; // Port 5 data input
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input [7:0] p6_din; // Port 6 data input
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input [7:0] p6_din; // Port 6 data input
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input [13:0] per_addr; // Peripheral address
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input [13:0] per_addr; // Peripheral address
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input [15:0] per_din; // Peripheral data input
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input [15:0] per_din; // Peripheral data input
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input per_en; // Peripheral enable (high active)
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input per_en; // Peripheral enable (high active)
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input [1:0] per_we; // Peripheral write enable (high active)
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input [1:0] per_we; // Peripheral write enable (high active)
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input puc_rst; // Main system reset
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input puc_rst; // Main system reset
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//=============================================================================
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//=============================================================================
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// 1) PARAMETER DECLARATION
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// 1) PARAMETER DECLARATION
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//=============================================================================
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//=============================================================================
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// Masks
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// Masks
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parameter P1_EN_MSK = {8{P1_EN[0]}};
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parameter P1_EN_MSK = {8{P1_EN[0]}};
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parameter P2_EN_MSK = {8{P2_EN[0]}};
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parameter P2_EN_MSK = {8{P2_EN[0]}};
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parameter P3_EN_MSK = {8{P3_EN[0]}};
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parameter P3_EN_MSK = {8{P3_EN[0]}};
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parameter P4_EN_MSK = {8{P4_EN[0]}};
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parameter P4_EN_MSK = {8{P4_EN[0]}};
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parameter P5_EN_MSK = {8{P5_EN[0]}};
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parameter P5_EN_MSK = {8{P5_EN[0]}};
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parameter P6_EN_MSK = {8{P6_EN[0]}};
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parameter P6_EN_MSK = {8{P6_EN[0]}};
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// Register base address (must be aligned to decoder bit width)
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// Register base address (must be aligned to decoder bit width)
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parameter [14:0] BASE_ADDR = 15'h0000;
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parameter [14:0] BASE_ADDR = 15'h0000;
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// Decoder bit width (defines how many bits are considered for address decoding)
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// Decoder bit width (defines how many bits are considered for address decoding)
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parameter DEC_WD = 6;
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parameter DEC_WD = 6;
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// Register addresses offset
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// Register addresses offset
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parameter [DEC_WD-1:0] P1IN = 'h20, // Port 1
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parameter [DEC_WD-1:0] P1IN = 'h20, // Port 1
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P1OUT = 'h21,
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P1OUT = 'h21,
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P1DIR = 'h22,
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P1DIR = 'h22,
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P1IFG = 'h23,
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P1IFG = 'h23,
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P1IES = 'h24,
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P1IES = 'h24,
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P1IE = 'h25,
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P1IE = 'h25,
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P1SEL = 'h26,
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P1SEL = 'h26,
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P2IN = 'h28, // Port 2
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P2IN = 'h28, // Port 2
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P2OUT = 'h29,
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P2OUT = 'h29,
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P2DIR = 'h2A,
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P2DIR = 'h2A,
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P2IFG = 'h2B,
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P2IFG = 'h2B,
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P2IES = 'h2C,
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P2IES = 'h2C,
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P2IE = 'h2D,
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P2IE = 'h2D,
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P2SEL = 'h2E,
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P2SEL = 'h2E,
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P3IN = 'h18, // Port 3
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P3IN = 'h18, // Port 3
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P3OUT = 'h19,
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P3OUT = 'h19,
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P3DIR = 'h1A,
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P3DIR = 'h1A,
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P3SEL = 'h1B,
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P3SEL = 'h1B,
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P4IN = 'h1C, // Port 4
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P4IN = 'h1C, // Port 4
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P4OUT = 'h1D,
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P4OUT = 'h1D,
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P4DIR = 'h1E,
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P4DIR = 'h1E,
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P4SEL = 'h1F,
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P4SEL = 'h1F,
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P5IN = 'h30, // Port 5
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P5IN = 'h30, // Port 5
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P5OUT = 'h31,
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P5OUT = 'h31,
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P5DIR = 'h32,
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P5DIR = 'h32,
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P5SEL = 'h33,
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P5SEL = 'h33,
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P6IN = 'h34, // Port 6
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P6IN = 'h34, // Port 6
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P6OUT = 'h35,
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P6OUT = 'h35,
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P6DIR = 'h36,
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P6DIR = 'h36,
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P6SEL = 'h37;
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P6SEL = 'h37;
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// Register one-hot decoder utilities
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// Register one-hot decoder utilities
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parameter DEC_SZ = 2**DEC_WD;
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parameter DEC_SZ = (1 << DEC_WD);
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parameter [DEC_SZ-1:0] BASE_REG = {{DEC_SZ-1{1'b0}}, 1'b1};
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parameter [DEC_SZ-1:0] BASE_REG = {{DEC_SZ-1{1'b0}}, 1'b1};
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// Register one-hot decoder
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// Register one-hot decoder
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parameter [DEC_SZ-1:0] P1IN_D = (BASE_REG << P1IN), // Port 1
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parameter [DEC_SZ-1:0] P1IN_D = (BASE_REG << P1IN), // Port 1
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P1OUT_D = (BASE_REG << P1OUT),
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P1OUT_D = (BASE_REG << P1OUT),
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P1DIR_D = (BASE_REG << P1DIR),
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P1DIR_D = (BASE_REG << P1DIR),
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P1IFG_D = (BASE_REG << P1IFG),
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P1IFG_D = (BASE_REG << P1IFG),
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P1IES_D = (BASE_REG << P1IES),
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P1IES_D = (BASE_REG << P1IES),
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P1IE_D = (BASE_REG << P1IE),
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P1IE_D = (BASE_REG << P1IE),
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P1SEL_D = (BASE_REG << P1SEL),
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P1SEL_D = (BASE_REG << P1SEL),
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P2IN_D = (BASE_REG << P2IN), // Port 2
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P2IN_D = (BASE_REG << P2IN), // Port 2
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P2OUT_D = (BASE_REG << P2OUT),
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P2OUT_D = (BASE_REG << P2OUT),
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P2DIR_D = (BASE_REG << P2DIR),
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P2DIR_D = (BASE_REG << P2DIR),
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P2IFG_D = (BASE_REG << P2IFG),
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P2IFG_D = (BASE_REG << P2IFG),
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P2IES_D = (BASE_REG << P2IES),
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P2IES_D = (BASE_REG << P2IES),
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P2IE_D = (BASE_REG << P2IE),
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P2IE_D = (BASE_REG << P2IE),
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P2SEL_D = (BASE_REG << P2SEL),
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P2SEL_D = (BASE_REG << P2SEL),
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P3IN_D = (BASE_REG << P3IN), // Port 3
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P3IN_D = (BASE_REG << P3IN), // Port 3
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P3OUT_D = (BASE_REG << P3OUT),
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P3OUT_D = (BASE_REG << P3OUT),
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P3DIR_D = (BASE_REG << P3DIR),
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P3DIR_D = (BASE_REG << P3DIR),
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P3SEL_D = (BASE_REG << P3SEL),
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P3SEL_D = (BASE_REG << P3SEL),
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P4IN_D = (BASE_REG << P4IN), // Port 4
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P4IN_D = (BASE_REG << P4IN), // Port 4
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P4OUT_D = (BASE_REG << P4OUT),
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P4OUT_D = (BASE_REG << P4OUT),
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P4DIR_D = (BASE_REG << P4DIR),
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P4DIR_D = (BASE_REG << P4DIR),
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P4SEL_D = (BASE_REG << P4SEL),
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P4SEL_D = (BASE_REG << P4SEL),
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P5IN_D = (BASE_REG << P5IN), // Port 5
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P5IN_D = (BASE_REG << P5IN), // Port 5
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P5OUT_D = (BASE_REG << P5OUT),
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P5OUT_D = (BASE_REG << P5OUT),
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P5DIR_D = (BASE_REG << P5DIR),
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P5DIR_D = (BASE_REG << P5DIR),
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P5SEL_D = (BASE_REG << P5SEL),
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P5SEL_D = (BASE_REG << P5SEL),
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P6IN_D = (BASE_REG << P6IN), // Port 6
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P6IN_D = (BASE_REG << P6IN), // Port 6
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P6OUT_D = (BASE_REG << P6OUT),
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P6OUT_D = (BASE_REG << P6OUT),
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P6DIR_D = (BASE_REG << P6DIR),
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P6DIR_D = (BASE_REG << P6DIR),
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P6SEL_D = (BASE_REG << P6SEL);
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P6SEL_D = (BASE_REG << P6SEL);
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//============================================================================
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//============================================================================
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// 2) REGISTER DECODER
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// 2) REGISTER DECODER
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//============================================================================
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//============================================================================
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// Local register selection
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// Local register selection
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wire reg_sel = per_en & (per_addr[13:DEC_WD-1]==BASE_ADDR[14:DEC_WD]);
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wire reg_sel = per_en & (per_addr[13:DEC_WD-1]==BASE_ADDR[14:DEC_WD]);
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// Register local address
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// Register local address
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wire [DEC_WD-1:0] reg_addr = {1'b0, per_addr[DEC_WD-2:0]};
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wire [DEC_WD-1:0] reg_addr = {1'b0, per_addr[DEC_WD-2:0]};
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// Register address decode
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// Register address decode
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wire [DEC_SZ-1:0] reg_dec = (P1IN_D & {DEC_SZ{(reg_addr==(P1IN >>1)) & P1_EN[0]}}) |
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wire [DEC_SZ-1:0] reg_dec = (P1IN_D & {DEC_SZ{(reg_addr==(P1IN >>1)) & P1_EN[0]}}) |
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(P1OUT_D & {DEC_SZ{(reg_addr==(P1OUT >>1)) & P1_EN[0]}}) |
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(P1OUT_D & {DEC_SZ{(reg_addr==(P1OUT >>1)) & P1_EN[0]}}) |
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(P1DIR_D & {DEC_SZ{(reg_addr==(P1DIR >>1)) & P1_EN[0]}}) |
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(P1DIR_D & {DEC_SZ{(reg_addr==(P1DIR >>1)) & P1_EN[0]}}) |
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(P1IFG_D & {DEC_SZ{(reg_addr==(P1IFG >>1)) & P1_EN[0]}}) |
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(P1IFG_D & {DEC_SZ{(reg_addr==(P1IFG >>1)) & P1_EN[0]}}) |
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(P1IES_D & {DEC_SZ{(reg_addr==(P1IES >>1)) & P1_EN[0]}}) |
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(P1IES_D & {DEC_SZ{(reg_addr==(P1IES >>1)) & P1_EN[0]}}) |
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(P1IE_D & {DEC_SZ{(reg_addr==(P1IE >>1)) & P1_EN[0]}}) |
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(P1IE_D & {DEC_SZ{(reg_addr==(P1IE >>1)) & P1_EN[0]}}) |
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(P1SEL_D & {DEC_SZ{(reg_addr==(P1SEL >>1)) & P1_EN[0]}}) |
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(P1SEL_D & {DEC_SZ{(reg_addr==(P1SEL >>1)) & P1_EN[0]}}) |
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(P2IN_D & {DEC_SZ{(reg_addr==(P2IN >>1)) & P2_EN[0]}}) |
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(P2IN_D & {DEC_SZ{(reg_addr==(P2IN >>1)) & P2_EN[0]}}) |
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(P2OUT_D & {DEC_SZ{(reg_addr==(P2OUT >>1)) & P2_EN[0]}}) |
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(P2OUT_D & {DEC_SZ{(reg_addr==(P2OUT >>1)) & P2_EN[0]}}) |
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(P2DIR_D & {DEC_SZ{(reg_addr==(P2DIR >>1)) & P2_EN[0]}}) |
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(P2DIR_D & {DEC_SZ{(reg_addr==(P2DIR >>1)) & P2_EN[0]}}) |
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(P2IFG_D & {DEC_SZ{(reg_addr==(P2IFG >>1)) & P2_EN[0]}}) |
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(P2IFG_D & {DEC_SZ{(reg_addr==(P2IFG >>1)) & P2_EN[0]}}) |
|
(P2IES_D & {DEC_SZ{(reg_addr==(P2IES >>1)) & P2_EN[0]}}) |
|
(P2IES_D & {DEC_SZ{(reg_addr==(P2IES >>1)) & P2_EN[0]}}) |
|
(P2IE_D & {DEC_SZ{(reg_addr==(P2IE >>1)) & P2_EN[0]}}) |
|
(P2IE_D & {DEC_SZ{(reg_addr==(P2IE >>1)) & P2_EN[0]}}) |
|
(P2SEL_D & {DEC_SZ{(reg_addr==(P2SEL >>1)) & P2_EN[0]}}) |
|
(P2SEL_D & {DEC_SZ{(reg_addr==(P2SEL >>1)) & P2_EN[0]}}) |
|
(P3IN_D & {DEC_SZ{(reg_addr==(P3IN >>1)) & P3_EN[0]}}) |
|
(P3IN_D & {DEC_SZ{(reg_addr==(P3IN >>1)) & P3_EN[0]}}) |
|
(P3OUT_D & {DEC_SZ{(reg_addr==(P3OUT >>1)) & P3_EN[0]}}) |
|
(P3OUT_D & {DEC_SZ{(reg_addr==(P3OUT >>1)) & P3_EN[0]}}) |
|
(P3DIR_D & {DEC_SZ{(reg_addr==(P3DIR >>1)) & P3_EN[0]}}) |
|
(P3DIR_D & {DEC_SZ{(reg_addr==(P3DIR >>1)) & P3_EN[0]}}) |
|
(P3SEL_D & {DEC_SZ{(reg_addr==(P3SEL >>1)) & P3_EN[0]}}) |
|
(P3SEL_D & {DEC_SZ{(reg_addr==(P3SEL >>1)) & P3_EN[0]}}) |
|
(P4IN_D & {DEC_SZ{(reg_addr==(P4IN >>1)) & P4_EN[0]}}) |
|
(P4IN_D & {DEC_SZ{(reg_addr==(P4IN >>1)) & P4_EN[0]}}) |
|
(P4OUT_D & {DEC_SZ{(reg_addr==(P4OUT >>1)) & P4_EN[0]}}) |
|
(P4OUT_D & {DEC_SZ{(reg_addr==(P4OUT >>1)) & P4_EN[0]}}) |
|
(P4DIR_D & {DEC_SZ{(reg_addr==(P4DIR >>1)) & P4_EN[0]}}) |
|
(P4DIR_D & {DEC_SZ{(reg_addr==(P4DIR >>1)) & P4_EN[0]}}) |
|
(P4SEL_D & {DEC_SZ{(reg_addr==(P4SEL >>1)) & P4_EN[0]}}) |
|
(P4SEL_D & {DEC_SZ{(reg_addr==(P4SEL >>1)) & P4_EN[0]}}) |
|
(P5IN_D & {DEC_SZ{(reg_addr==(P5IN >>1)) & P5_EN[0]}}) |
|
(P5IN_D & {DEC_SZ{(reg_addr==(P5IN >>1)) & P5_EN[0]}}) |
|
(P5OUT_D & {DEC_SZ{(reg_addr==(P5OUT >>1)) & P5_EN[0]}}) |
|
(P5OUT_D & {DEC_SZ{(reg_addr==(P5OUT >>1)) & P5_EN[0]}}) |
|
(P5DIR_D & {DEC_SZ{(reg_addr==(P5DIR >>1)) & P5_EN[0]}}) |
|
(P5DIR_D & {DEC_SZ{(reg_addr==(P5DIR >>1)) & P5_EN[0]}}) |
|
(P5SEL_D & {DEC_SZ{(reg_addr==(P5SEL >>1)) & P5_EN[0]}}) |
|
(P5SEL_D & {DEC_SZ{(reg_addr==(P5SEL >>1)) & P5_EN[0]}}) |
|
(P6IN_D & {DEC_SZ{(reg_addr==(P6IN >>1)) & P6_EN[0]}}) |
|
(P6IN_D & {DEC_SZ{(reg_addr==(P6IN >>1)) & P6_EN[0]}}) |
|
(P6OUT_D & {DEC_SZ{(reg_addr==(P6OUT >>1)) & P6_EN[0]}}) |
|
(P6OUT_D & {DEC_SZ{(reg_addr==(P6OUT >>1)) & P6_EN[0]}}) |
|
(P6DIR_D & {DEC_SZ{(reg_addr==(P6DIR >>1)) & P6_EN[0]}}) |
|
(P6DIR_D & {DEC_SZ{(reg_addr==(P6DIR >>1)) & P6_EN[0]}}) |
|
(P6SEL_D & {DEC_SZ{(reg_addr==(P6SEL >>1)) & P6_EN[0]}});
|
(P6SEL_D & {DEC_SZ{(reg_addr==(P6SEL >>1)) & P6_EN[0]}});
|
|
|
// Read/Write probes
|
// Read/Write probes
|
wire reg_lo_write = per_we[0] & reg_sel;
|
wire reg_lo_write = per_we[0] & reg_sel;
|
wire reg_hi_write = per_we[1] & reg_sel;
|
wire reg_hi_write = per_we[1] & reg_sel;
|
wire reg_read = ~|per_we & reg_sel;
|
wire reg_read = ~|per_we & reg_sel;
|
|
|
// Read/Write vectors
|
// Read/Write vectors
|
wire [DEC_SZ-1:0] reg_hi_wr = reg_dec & {DEC_SZ{reg_hi_write}};
|
wire [DEC_SZ-1:0] reg_hi_wr = reg_dec & {DEC_SZ{reg_hi_write}};
|
wire [DEC_SZ-1:0] reg_lo_wr = reg_dec & {DEC_SZ{reg_lo_write}};
|
wire [DEC_SZ-1:0] reg_lo_wr = reg_dec & {DEC_SZ{reg_lo_write}};
|
wire [DEC_SZ-1:0] reg_rd = reg_dec & {DEC_SZ{reg_read}};
|
wire [DEC_SZ-1:0] reg_rd = reg_dec & {DEC_SZ{reg_read}};
|
|
|
//============================================================================
|
//============================================================================
|
// 3) REGISTERS
|
// 3) REGISTERS
|
//============================================================================
|
//============================================================================
|
|
|
// P1IN Register
|
// P1IN Register
|
//---------------
|
//---------------
|
wire [7:0] p1in;
|
wire [7:0] p1in;
|
|
|
omsp_sync_cell sync_cell_p1in_0 (.data_out(p1in[0]), .clk(mclk), .data_in(p1_din[0] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_0 (.data_out(p1in[0]), .data_in(p1_din[0] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_1 (.data_out(p1in[1]), .clk(mclk), .data_in(p1_din[1] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_1 (.data_out(p1in[1]), .data_in(p1_din[1] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_2 (.data_out(p1in[2]), .clk(mclk), .data_in(p1_din[2] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_2 (.data_out(p1in[2]), .data_in(p1_din[2] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_3 (.data_out(p1in[3]), .clk(mclk), .data_in(p1_din[3] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_3 (.data_out(p1in[3]), .data_in(p1_din[3] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_4 (.data_out(p1in[4]), .clk(mclk), .data_in(p1_din[4] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_4 (.data_out(p1in[4]), .data_in(p1_din[4] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_5 (.data_out(p1in[5]), .clk(mclk), .data_in(p1_din[5] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_5 (.data_out(p1in[5]), .data_in(p1_din[5] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_6 (.data_out(p1in[6]), .clk(mclk), .data_in(p1_din[6] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_6 (.data_out(p1in[6]), .data_in(p1_din[6] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_7 (.data_out(p1in[7]), .clk(mclk), .data_in(p1_din[7] & P1_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p1in_7 (.data_out(p1in[7]), .data_in(p1_din[7] & P1_EN[0]), .clk(mclk), .rst(puc_rst));
|
|
|
|
|
// P1OUT Register
|
// P1OUT Register
|
//----------------
|
//----------------
|
reg [7:0] p1out;
|
reg [7:0] p1out;
|
|
|
wire p1out_wr = P1OUT[0] ? reg_hi_wr[P1OUT] : reg_lo_wr[P1OUT];
|
wire p1out_wr = P1OUT[0] ? reg_hi_wr[P1OUT] : reg_lo_wr[P1OUT];
|
wire [7:0] p1out_nxt = P1OUT[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p1out_nxt = P1OUT[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p1out <= 8'h00;
|
if (puc_rst) p1out <= 8'h00;
|
else if (p1out_wr) p1out <= p1out_nxt & P1_EN_MSK;
|
else if (p1out_wr) p1out <= p1out_nxt & P1_EN_MSK;
|
|
|
assign p1_dout = p1out;
|
assign p1_dout = p1out;
|
|
|
|
|
// P1DIR Register
|
// P1DIR Register
|
//----------------
|
//----------------
|
reg [7:0] p1dir;
|
reg [7:0] p1dir;
|
|
|
wire p1dir_wr = P1DIR[0] ? reg_hi_wr[P1DIR] : reg_lo_wr[P1DIR];
|
wire p1dir_wr = P1DIR[0] ? reg_hi_wr[P1DIR] : reg_lo_wr[P1DIR];
|
wire [7:0] p1dir_nxt = P1DIR[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p1dir_nxt = P1DIR[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p1dir <= 8'h00;
|
if (puc_rst) p1dir <= 8'h00;
|
else if (p1dir_wr) p1dir <= p1dir_nxt & P1_EN_MSK;
|
else if (p1dir_wr) p1dir <= p1dir_nxt & P1_EN_MSK;
|
|
|
assign p1_dout_en = p1dir;
|
assign p1_dout_en = p1dir;
|
|
|
|
|
// P1IFG Register
|
// P1IFG Register
|
//----------------
|
//----------------
|
reg [7:0] p1ifg;
|
reg [7:0] p1ifg;
|
|
|
wire p1ifg_wr = P1IFG[0] ? reg_hi_wr[P1IFG] : reg_lo_wr[P1IFG];
|
wire p1ifg_wr = P1IFG[0] ? reg_hi_wr[P1IFG] : reg_lo_wr[P1IFG];
|
wire [7:0] p1ifg_nxt = P1IFG[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p1ifg_nxt = P1IFG[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p1ifg_set;
|
wire [7:0] p1ifg_set;
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p1ifg <= 8'h00;
|
if (puc_rst) p1ifg <= 8'h00;
|
else if (p1ifg_wr) p1ifg <= (p1ifg_nxt | p1ifg_set) & P1_EN_MSK;
|
else if (p1ifg_wr) p1ifg <= (p1ifg_nxt | p1ifg_set) & P1_EN_MSK;
|
else p1ifg <= (p1ifg | p1ifg_set) & P1_EN_MSK;
|
else p1ifg <= (p1ifg | p1ifg_set) & P1_EN_MSK;
|
|
|
// P1IES Register
|
// P1IES Register
|
//----------------
|
//----------------
|
reg [7:0] p1ies;
|
reg [7:0] p1ies;
|
|
|
wire p1ies_wr = P1IES[0] ? reg_hi_wr[P1IES] : reg_lo_wr[P1IES];
|
wire p1ies_wr = P1IES[0] ? reg_hi_wr[P1IES] : reg_lo_wr[P1IES];
|
wire [7:0] p1ies_nxt = P1IES[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p1ies_nxt = P1IES[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p1ies <= 8'h00;
|
if (puc_rst) p1ies <= 8'h00;
|
else if (p1ies_wr) p1ies <= p1ies_nxt & P1_EN_MSK;
|
else if (p1ies_wr) p1ies <= p1ies_nxt & P1_EN_MSK;
|
|
|
|
|
// P1IE Register
|
// P1IE Register
|
//----------------
|
//----------------
|
reg [7:0] p1ie;
|
reg [7:0] p1ie;
|
|
|
wire p1ie_wr = P1IE[0] ? reg_hi_wr[P1IE] : reg_lo_wr[P1IE];
|
wire p1ie_wr = P1IE[0] ? reg_hi_wr[P1IE] : reg_lo_wr[P1IE];
|
wire [7:0] p1ie_nxt = P1IE[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p1ie_nxt = P1IE[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p1ie <= 8'h00;
|
if (puc_rst) p1ie <= 8'h00;
|
else if (p1ie_wr) p1ie <= p1ie_nxt & P1_EN_MSK;
|
else if (p1ie_wr) p1ie <= p1ie_nxt & P1_EN_MSK;
|
|
|
|
|
// P1SEL Register
|
// P1SEL Register
|
//----------------
|
//----------------
|
reg [7:0] p1sel;
|
reg [7:0] p1sel;
|
|
|
wire p1sel_wr = P1SEL[0] ? reg_hi_wr[P1SEL] : reg_lo_wr[P1SEL];
|
wire p1sel_wr = P1SEL[0] ? reg_hi_wr[P1SEL] : reg_lo_wr[P1SEL];
|
wire [7:0] p1sel_nxt = P1SEL[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p1sel_nxt = P1SEL[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p1sel <= 8'h00;
|
if (puc_rst) p1sel <= 8'h00;
|
else if (p1sel_wr) p1sel <= p1sel_nxt & P1_EN_MSK;
|
else if (p1sel_wr) p1sel <= p1sel_nxt & P1_EN_MSK;
|
|
|
assign p1_sel = p1sel;
|
assign p1_sel = p1sel;
|
|
|
|
|
// P2IN Register
|
// P2IN Register
|
//---------------
|
//---------------
|
wire [7:0] p2in;
|
wire [7:0] p2in;
|
|
|
omsp_sync_cell sync_cell_p2in_0 (.data_out(p2in[0]), .clk(mclk), .data_in(p2_din[0] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_0 (.data_out(p2in[0]), .data_in(p2_din[0] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_1 (.data_out(p2in[1]), .clk(mclk), .data_in(p2_din[1] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_1 (.data_out(p2in[1]), .data_in(p2_din[1] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_2 (.data_out(p2in[2]), .clk(mclk), .data_in(p2_din[2] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_2 (.data_out(p2in[2]), .data_in(p2_din[2] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_3 (.data_out(p2in[3]), .clk(mclk), .data_in(p2_din[3] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_3 (.data_out(p2in[3]), .data_in(p2_din[3] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_4 (.data_out(p2in[4]), .clk(mclk), .data_in(p2_din[4] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_4 (.data_out(p2in[4]), .data_in(p2_din[4] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_5 (.data_out(p2in[5]), .clk(mclk), .data_in(p2_din[5] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_5 (.data_out(p2in[5]), .data_in(p2_din[5] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_6 (.data_out(p2in[6]), .clk(mclk), .data_in(p2_din[6] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_6 (.data_out(p2in[6]), .data_in(p2_din[6] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_7 (.data_out(p2in[7]), .clk(mclk), .data_in(p2_din[7] & P2_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p2in_7 (.data_out(p2in[7]), .data_in(p2_din[7] & P2_EN[0]), .clk(mclk), .rst(puc_rst));
|
|
|
|
|
// P2OUT Register
|
// P2OUT Register
|
//----------------
|
//----------------
|
reg [7:0] p2out;
|
reg [7:0] p2out;
|
|
|
wire p2out_wr = P2OUT[0] ? reg_hi_wr[P2OUT] : reg_lo_wr[P2OUT];
|
wire p2out_wr = P2OUT[0] ? reg_hi_wr[P2OUT] : reg_lo_wr[P2OUT];
|
wire [7:0] p2out_nxt = P2OUT[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p2out_nxt = P2OUT[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p2out <= 8'h00;
|
if (puc_rst) p2out <= 8'h00;
|
else if (p2out_wr) p2out <= p2out_nxt & P2_EN_MSK;
|
else if (p2out_wr) p2out <= p2out_nxt & P2_EN_MSK;
|
|
|
assign p2_dout = p2out;
|
assign p2_dout = p2out;
|
|
|
|
|
// P2DIR Register
|
// P2DIR Register
|
//----------------
|
//----------------
|
reg [7:0] p2dir;
|
reg [7:0] p2dir;
|
|
|
wire p2dir_wr = P2DIR[0] ? reg_hi_wr[P2DIR] : reg_lo_wr[P2DIR];
|
wire p2dir_wr = P2DIR[0] ? reg_hi_wr[P2DIR] : reg_lo_wr[P2DIR];
|
wire [7:0] p2dir_nxt = P2DIR[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p2dir_nxt = P2DIR[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p2dir <= 8'h00;
|
if (puc_rst) p2dir <= 8'h00;
|
else if (p2dir_wr) p2dir <= p2dir_nxt & P2_EN_MSK;
|
else if (p2dir_wr) p2dir <= p2dir_nxt & P2_EN_MSK;
|
|
|
assign p2_dout_en = p2dir;
|
assign p2_dout_en = p2dir;
|
|
|
|
|
// P2IFG Register
|
// P2IFG Register
|
//----------------
|
//----------------
|
reg [7:0] p2ifg;
|
reg [7:0] p2ifg;
|
|
|
wire p2ifg_wr = P2IFG[0] ? reg_hi_wr[P2IFG] : reg_lo_wr[P2IFG];
|
wire p2ifg_wr = P2IFG[0] ? reg_hi_wr[P2IFG] : reg_lo_wr[P2IFG];
|
wire [7:0] p2ifg_nxt = P2IFG[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p2ifg_nxt = P2IFG[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p2ifg_set;
|
wire [7:0] p2ifg_set;
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p2ifg <= 8'h00;
|
if (puc_rst) p2ifg <= 8'h00;
|
else if (p2ifg_wr) p2ifg <= (p2ifg_nxt | p2ifg_set) & P2_EN_MSK;
|
else if (p2ifg_wr) p2ifg <= (p2ifg_nxt | p2ifg_set) & P2_EN_MSK;
|
else p2ifg <= (p2ifg | p2ifg_set) & P2_EN_MSK;
|
else p2ifg <= (p2ifg | p2ifg_set) & P2_EN_MSK;
|
|
|
|
|
// P2IES Register
|
// P2IES Register
|
//----------------
|
//----------------
|
reg [7:0] p2ies;
|
reg [7:0] p2ies;
|
|
|
wire p2ies_wr = P2IES[0] ? reg_hi_wr[P2IES] : reg_lo_wr[P2IES];
|
wire p2ies_wr = P2IES[0] ? reg_hi_wr[P2IES] : reg_lo_wr[P2IES];
|
wire [7:0] p2ies_nxt = P2IES[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p2ies_nxt = P2IES[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p2ies <= 8'h00;
|
if (puc_rst) p2ies <= 8'h00;
|
else if (p2ies_wr) p2ies <= p2ies_nxt & P2_EN_MSK;
|
else if (p2ies_wr) p2ies <= p2ies_nxt & P2_EN_MSK;
|
|
|
|
|
// P2IE Register
|
// P2IE Register
|
//----------------
|
//----------------
|
reg [7:0] p2ie;
|
reg [7:0] p2ie;
|
|
|
wire p2ie_wr = P2IE[0] ? reg_hi_wr[P2IE] : reg_lo_wr[P2IE];
|
wire p2ie_wr = P2IE[0] ? reg_hi_wr[P2IE] : reg_lo_wr[P2IE];
|
wire [7:0] p2ie_nxt = P2IE[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p2ie_nxt = P2IE[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p2ie <= 8'h00;
|
if (puc_rst) p2ie <= 8'h00;
|
else if (p2ie_wr) p2ie <= p2ie_nxt & P2_EN_MSK;
|
else if (p2ie_wr) p2ie <= p2ie_nxt & P2_EN_MSK;
|
|
|
|
|
// P2SEL Register
|
// P2SEL Register
|
//----------------
|
//----------------
|
reg [7:0] p2sel;
|
reg [7:0] p2sel;
|
|
|
wire p2sel_wr = P2SEL[0] ? reg_hi_wr[P2SEL] : reg_lo_wr[P2SEL];
|
wire p2sel_wr = P2SEL[0] ? reg_hi_wr[P2SEL] : reg_lo_wr[P2SEL];
|
wire [7:0] p2sel_nxt = P2SEL[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p2sel_nxt = P2SEL[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p2sel <= 8'h00;
|
if (puc_rst) p2sel <= 8'h00;
|
else if (p2sel_wr) p2sel <= p2sel_nxt & P2_EN_MSK;
|
else if (p2sel_wr) p2sel <= p2sel_nxt & P2_EN_MSK;
|
|
|
assign p2_sel = p2sel;
|
assign p2_sel = p2sel;
|
|
|
|
|
// P3IN Register
|
// P3IN Register
|
//---------------
|
//---------------
|
wire [7:0] p3in;
|
wire [7:0] p3in;
|
|
|
omsp_sync_cell sync_cell_p3in_0 (.data_out(p3in[0]), .clk(mclk), .data_in(p3_din[0] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_0 (.data_out(p3in[0]), .data_in(p3_din[0] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_1 (.data_out(p3in[1]), .clk(mclk), .data_in(p3_din[1] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_1 (.data_out(p3in[1]), .data_in(p3_din[1] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_2 (.data_out(p3in[2]), .clk(mclk), .data_in(p3_din[2] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_2 (.data_out(p3in[2]), .data_in(p3_din[2] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_3 (.data_out(p3in[3]), .clk(mclk), .data_in(p3_din[3] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_3 (.data_out(p3in[3]), .data_in(p3_din[3] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_4 (.data_out(p3in[4]), .clk(mclk), .data_in(p3_din[4] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_4 (.data_out(p3in[4]), .data_in(p3_din[4] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_5 (.data_out(p3in[5]), .clk(mclk), .data_in(p3_din[5] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_5 (.data_out(p3in[5]), .data_in(p3_din[5] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_6 (.data_out(p3in[6]), .clk(mclk), .data_in(p3_din[6] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_6 (.data_out(p3in[6]), .data_in(p3_din[6] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_7 (.data_out(p3in[7]), .clk(mclk), .data_in(p3_din[7] & P3_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p3in_7 (.data_out(p3in[7]), .data_in(p3_din[7] & P3_EN[0]), .clk(mclk), .rst(puc_rst));
|
|
|
|
|
// P3OUT Register
|
// P3OUT Register
|
//----------------
|
//----------------
|
reg [7:0] p3out;
|
reg [7:0] p3out;
|
|
|
wire p3out_wr = P3OUT[0] ? reg_hi_wr[P3OUT] : reg_lo_wr[P3OUT];
|
wire p3out_wr = P3OUT[0] ? reg_hi_wr[P3OUT] : reg_lo_wr[P3OUT];
|
wire [7:0] p3out_nxt = P3OUT[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p3out_nxt = P3OUT[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p3out <= 8'h00;
|
if (puc_rst) p3out <= 8'h00;
|
else if (p3out_wr) p3out <= p3out_nxt & P3_EN_MSK;
|
else if (p3out_wr) p3out <= p3out_nxt & P3_EN_MSK;
|
|
|
assign p3_dout = p3out;
|
assign p3_dout = p3out;
|
|
|
|
|
// P3DIR Register
|
// P3DIR Register
|
//----------------
|
//----------------
|
reg [7:0] p3dir;
|
reg [7:0] p3dir;
|
|
|
wire p3dir_wr = P3DIR[0] ? reg_hi_wr[P3DIR] : reg_lo_wr[P3DIR];
|
wire p3dir_wr = P3DIR[0] ? reg_hi_wr[P3DIR] : reg_lo_wr[P3DIR];
|
wire [7:0] p3dir_nxt = P3DIR[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p3dir_nxt = P3DIR[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p3dir <= 8'h00;
|
if (puc_rst) p3dir <= 8'h00;
|
else if (p3dir_wr) p3dir <= p3dir_nxt & P3_EN_MSK;
|
else if (p3dir_wr) p3dir <= p3dir_nxt & P3_EN_MSK;
|
|
|
assign p3_dout_en = p3dir;
|
assign p3_dout_en = p3dir;
|
|
|
|
|
// P3SEL Register
|
// P3SEL Register
|
//----------------
|
//----------------
|
reg [7:0] p3sel;
|
reg [7:0] p3sel;
|
|
|
wire p3sel_wr = P3SEL[0] ? reg_hi_wr[P3SEL] : reg_lo_wr[P3SEL];
|
wire p3sel_wr = P3SEL[0] ? reg_hi_wr[P3SEL] : reg_lo_wr[P3SEL];
|
wire [7:0] p3sel_nxt = P3SEL[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p3sel_nxt = P3SEL[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p3sel <= 8'h00;
|
if (puc_rst) p3sel <= 8'h00;
|
else if (p3sel_wr) p3sel <= p3sel_nxt & P3_EN_MSK;
|
else if (p3sel_wr) p3sel <= p3sel_nxt & P3_EN_MSK;
|
|
|
assign p3_sel = p3sel;
|
assign p3_sel = p3sel;
|
|
|
|
|
// P4IN Register
|
// P4IN Register
|
//---------------
|
//---------------
|
wire [7:0] p4in;
|
wire [7:0] p4in;
|
|
|
omsp_sync_cell sync_cell_p4in_0 (.data_out(p4in[0]), .clk(mclk), .data_in(p4_din[0] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_0 (.data_out(p4in[0]), .data_in(p4_din[0] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_1 (.data_out(p4in[1]), .clk(mclk), .data_in(p4_din[1] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_1 (.data_out(p4in[1]), .data_in(p4_din[1] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_2 (.data_out(p4in[2]), .clk(mclk), .data_in(p4_din[2] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_2 (.data_out(p4in[2]), .data_in(p4_din[2] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_3 (.data_out(p4in[3]), .clk(mclk), .data_in(p4_din[3] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_3 (.data_out(p4in[3]), .data_in(p4_din[3] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_4 (.data_out(p4in[4]), .clk(mclk), .data_in(p4_din[4] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_4 (.data_out(p4in[4]), .data_in(p4_din[4] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_5 (.data_out(p4in[5]), .clk(mclk), .data_in(p4_din[5] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_5 (.data_out(p4in[5]), .data_in(p4_din[5] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_6 (.data_out(p4in[6]), .clk(mclk), .data_in(p4_din[6] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_6 (.data_out(p4in[6]), .data_in(p4_din[6] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_7 (.data_out(p4in[7]), .clk(mclk), .data_in(p4_din[7] & P4_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p4in_7 (.data_out(p4in[7]), .data_in(p4_din[7] & P4_EN[0]), .clk(mclk), .rst(puc_rst));
|
|
|
|
|
// P4OUT Register
|
// P4OUT Register
|
//----------------
|
//----------------
|
reg [7:0] p4out;
|
reg [7:0] p4out;
|
|
|
wire p4out_wr = P4OUT[0] ? reg_hi_wr[P4OUT] : reg_lo_wr[P4OUT];
|
wire p4out_wr = P4OUT[0] ? reg_hi_wr[P4OUT] : reg_lo_wr[P4OUT];
|
wire [7:0] p4out_nxt = P4OUT[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p4out_nxt = P4OUT[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p4out <= 8'h00;
|
if (puc_rst) p4out <= 8'h00;
|
else if (p4out_wr) p4out <= p4out_nxt & P4_EN_MSK;
|
else if (p4out_wr) p4out <= p4out_nxt & P4_EN_MSK;
|
|
|
assign p4_dout = p4out;
|
assign p4_dout = p4out;
|
|
|
|
|
// P4DIR Register
|
// P4DIR Register
|
//----------------
|
//----------------
|
reg [7:0] p4dir;
|
reg [7:0] p4dir;
|
|
|
wire p4dir_wr = P4DIR[0] ? reg_hi_wr[P4DIR] : reg_lo_wr[P4DIR];
|
wire p4dir_wr = P4DIR[0] ? reg_hi_wr[P4DIR] : reg_lo_wr[P4DIR];
|
wire [7:0] p4dir_nxt = P4DIR[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p4dir_nxt = P4DIR[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p4dir <= 8'h00;
|
if (puc_rst) p4dir <= 8'h00;
|
else if (p4dir_wr) p4dir <= p4dir_nxt & P4_EN_MSK;
|
else if (p4dir_wr) p4dir <= p4dir_nxt & P4_EN_MSK;
|
|
|
assign p4_dout_en = p4dir;
|
assign p4_dout_en = p4dir;
|
|
|
|
|
// P4SEL Register
|
// P4SEL Register
|
//----------------
|
//----------------
|
reg [7:0] p4sel;
|
reg [7:0] p4sel;
|
|
|
wire p4sel_wr = P4SEL[0] ? reg_hi_wr[P4SEL] : reg_lo_wr[P4SEL];
|
wire p4sel_wr = P4SEL[0] ? reg_hi_wr[P4SEL] : reg_lo_wr[P4SEL];
|
wire [7:0] p4sel_nxt = P4SEL[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p4sel_nxt = P4SEL[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p4sel <= 8'h00;
|
if (puc_rst) p4sel <= 8'h00;
|
else if (p4sel_wr) p4sel <= p4sel_nxt & P4_EN_MSK;
|
else if (p4sel_wr) p4sel <= p4sel_nxt & P4_EN_MSK;
|
|
|
assign p4_sel = p4sel;
|
assign p4_sel = p4sel;
|
|
|
|
|
// P5IN Register
|
// P5IN Register
|
//---------------
|
//---------------
|
wire [7:0] p5in;
|
wire [7:0] p5in;
|
|
|
omsp_sync_cell sync_cell_p5in_0 (.data_out(p5in[0]), .clk(mclk), .data_in(p5_din[0] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_0 (.data_out(p5in[0]), .data_in(p5_din[0] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_1 (.data_out(p5in[1]), .clk(mclk), .data_in(p5_din[1] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_1 (.data_out(p5in[1]), .data_in(p5_din[1] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_2 (.data_out(p5in[2]), .clk(mclk), .data_in(p5_din[2] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_2 (.data_out(p5in[2]), .data_in(p5_din[2] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_3 (.data_out(p5in[3]), .clk(mclk), .data_in(p5_din[3] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_3 (.data_out(p5in[3]), .data_in(p5_din[3] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_4 (.data_out(p5in[4]), .clk(mclk), .data_in(p5_din[4] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_4 (.data_out(p5in[4]), .data_in(p5_din[4] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_5 (.data_out(p5in[5]), .clk(mclk), .data_in(p5_din[5] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_5 (.data_out(p5in[5]), .data_in(p5_din[5] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_6 (.data_out(p5in[6]), .clk(mclk), .data_in(p5_din[6] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_6 (.data_out(p5in[6]), .data_in(p5_din[6] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_7 (.data_out(p5in[7]), .clk(mclk), .data_in(p5_din[7] & P5_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p5in_7 (.data_out(p5in[7]), .data_in(p5_din[7] & P5_EN[0]), .clk(mclk), .rst(puc_rst));
|
|
|
|
|
// P5OUT Register
|
// P5OUT Register
|
//----------------
|
//----------------
|
reg [7:0] p5out;
|
reg [7:0] p5out;
|
|
|
wire p5out_wr = P5OUT[0] ? reg_hi_wr[P5OUT] : reg_lo_wr[P5OUT];
|
wire p5out_wr = P5OUT[0] ? reg_hi_wr[P5OUT] : reg_lo_wr[P5OUT];
|
wire [7:0] p5out_nxt = P5OUT[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p5out_nxt = P5OUT[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p5out <= 8'h00;
|
if (puc_rst) p5out <= 8'h00;
|
else if (p5out_wr) p5out <= p5out_nxt & P5_EN_MSK;
|
else if (p5out_wr) p5out <= p5out_nxt & P5_EN_MSK;
|
|
|
assign p5_dout = p5out;
|
assign p5_dout = p5out;
|
|
|
|
|
// P5DIR Register
|
// P5DIR Register
|
//----------------
|
//----------------
|
reg [7:0] p5dir;
|
reg [7:0] p5dir;
|
|
|
wire p5dir_wr = P5DIR[0] ? reg_hi_wr[P5DIR] : reg_lo_wr[P5DIR];
|
wire p5dir_wr = P5DIR[0] ? reg_hi_wr[P5DIR] : reg_lo_wr[P5DIR];
|
wire [7:0] p5dir_nxt = P5DIR[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p5dir_nxt = P5DIR[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p5dir <= 8'h00;
|
if (puc_rst) p5dir <= 8'h00;
|
else if (p5dir_wr) p5dir <= p5dir_nxt & P5_EN_MSK;
|
else if (p5dir_wr) p5dir <= p5dir_nxt & P5_EN_MSK;
|
|
|
assign p5_dout_en = p5dir;
|
assign p5_dout_en = p5dir;
|
|
|
|
|
// P5SEL Register
|
// P5SEL Register
|
//----------------
|
//----------------
|
reg [7:0] p5sel;
|
reg [7:0] p5sel;
|
|
|
wire p5sel_wr = P5SEL[0] ? reg_hi_wr[P5SEL] : reg_lo_wr[P5SEL];
|
wire p5sel_wr = P5SEL[0] ? reg_hi_wr[P5SEL] : reg_lo_wr[P5SEL];
|
wire [7:0] p5sel_nxt = P5SEL[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p5sel_nxt = P5SEL[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p5sel <= 8'h00;
|
if (puc_rst) p5sel <= 8'h00;
|
else if (p5sel_wr) p5sel <= p5sel_nxt & P5_EN_MSK;
|
else if (p5sel_wr) p5sel <= p5sel_nxt & P5_EN_MSK;
|
|
|
assign p5_sel = p5sel;
|
assign p5_sel = p5sel;
|
|
|
|
|
// P6IN Register
|
// P6IN Register
|
//---------------
|
//---------------
|
wire [7:0] p6in;
|
wire [7:0] p6in;
|
|
|
omsp_sync_cell sync_cell_p6in_0 (.data_out(p6in[0]), .clk(mclk), .data_in(p6_din[0] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_0 (.data_out(p6in[0]), .data_in(p6_din[0] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_1 (.data_out(p6in[1]), .clk(mclk), .data_in(p6_din[1] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_1 (.data_out(p6in[1]), .data_in(p6_din[1] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_2 (.data_out(p6in[2]), .clk(mclk), .data_in(p6_din[2] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_2 (.data_out(p6in[2]), .data_in(p6_din[2] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_3 (.data_out(p6in[3]), .clk(mclk), .data_in(p6_din[3] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_3 (.data_out(p6in[3]), .data_in(p6_din[3] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_4 (.data_out(p6in[4]), .clk(mclk), .data_in(p6_din[4] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_4 (.data_out(p6in[4]), .data_in(p6_din[4] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_5 (.data_out(p6in[5]), .clk(mclk), .data_in(p6_din[5] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_5 (.data_out(p6in[5]), .data_in(p6_din[5] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_6 (.data_out(p6in[6]), .clk(mclk), .data_in(p6_din[6] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_6 (.data_out(p6in[6]), .data_in(p6_din[6] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_7 (.data_out(p6in[7]), .clk(mclk), .data_in(p6_din[7] & P6_EN[0]), .rst(puc_rst));
|
omsp_sync_cell sync_cell_p6in_7 (.data_out(p6in[7]), .data_in(p6_din[7] & P6_EN[0]), .clk(mclk), .rst(puc_rst));
|
|
|
|
|
// P6OUT Register
|
// P6OUT Register
|
//----------------
|
//----------------
|
reg [7:0] p6out;
|
reg [7:0] p6out;
|
|
|
wire p6out_wr = P6OUT[0] ? reg_hi_wr[P6OUT] : reg_lo_wr[P6OUT];
|
wire p6out_wr = P6OUT[0] ? reg_hi_wr[P6OUT] : reg_lo_wr[P6OUT];
|
wire [7:0] p6out_nxt = P6OUT[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p6out_nxt = P6OUT[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p6out <= 8'h00;
|
if (puc_rst) p6out <= 8'h00;
|
else if (p6out_wr) p6out <= p6out_nxt & P6_EN_MSK;
|
else if (p6out_wr) p6out <= p6out_nxt & P6_EN_MSK;
|
|
|
assign p6_dout = p6out;
|
assign p6_dout = p6out;
|
|
|
|
|
// P6DIR Register
|
// P6DIR Register
|
//----------------
|
//----------------
|
reg [7:0] p6dir;
|
reg [7:0] p6dir;
|
|
|
wire p6dir_wr = P6DIR[0] ? reg_hi_wr[P6DIR] : reg_lo_wr[P6DIR];
|
wire p6dir_wr = P6DIR[0] ? reg_hi_wr[P6DIR] : reg_lo_wr[P6DIR];
|
wire [7:0] p6dir_nxt = P6DIR[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p6dir_nxt = P6DIR[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p6dir <= 8'h00;
|
if (puc_rst) p6dir <= 8'h00;
|
else if (p6dir_wr) p6dir <= p6dir_nxt & P6_EN_MSK;
|
else if (p6dir_wr) p6dir <= p6dir_nxt & P6_EN_MSK;
|
|
|
assign p6_dout_en = p6dir;
|
assign p6_dout_en = p6dir;
|
|
|
|
|
// P6SEL Register
|
// P6SEL Register
|
//----------------
|
//----------------
|
reg [7:0] p6sel;
|
reg [7:0] p6sel;
|
|
|
wire p6sel_wr = P6SEL[0] ? reg_hi_wr[P6SEL] : reg_lo_wr[P6SEL];
|
wire p6sel_wr = P6SEL[0] ? reg_hi_wr[P6SEL] : reg_lo_wr[P6SEL];
|
wire [7:0] p6sel_nxt = P6SEL[0] ? per_din[15:8] : per_din[7:0];
|
wire [7:0] p6sel_nxt = P6SEL[0] ? per_din[15:8] : per_din[7:0];
|
|
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p6sel <= 8'h00;
|
if (puc_rst) p6sel <= 8'h00;
|
else if (p6sel_wr) p6sel <= p6sel_nxt & P6_EN_MSK;
|
else if (p6sel_wr) p6sel <= p6sel_nxt & P6_EN_MSK;
|
|
|
assign p6_sel = p6sel;
|
assign p6_sel = p6sel;
|
|
|
|
|
|
|
//============================================================================
|
//============================================================================
|
// 4) INTERRUPT GENERATION
|
// 4) INTERRUPT GENERATION
|
//============================================================================
|
//============================================================================
|
|
|
// Port 1 interrupt
|
// Port 1 interrupt
|
//------------------
|
//------------------
|
|
|
// Delay input
|
// Delay input
|
reg [7:0] p1in_dly;
|
reg [7:0] p1in_dly;
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p1in_dly <= 8'h00;
|
if (puc_rst) p1in_dly <= 8'h00;
|
else p1in_dly <= p1in & P1_EN_MSK;
|
else p1in_dly <= p1in & P1_EN_MSK;
|
|
|
// Edge detection
|
// Edge detection
|
wire [7:0] p1in_re = p1in & ~p1in_dly;
|
wire [7:0] p1in_re = p1in & ~p1in_dly;
|
wire [7:0] p1in_fe = ~p1in & p1in_dly;
|
wire [7:0] p1in_fe = ~p1in & p1in_dly;
|
|
|
// Set interrupt flag
|
// Set interrupt flag
|
assign p1ifg_set = {p1ies[7] ? p1in_fe[7] : p1in_re[7],
|
assign p1ifg_set = {p1ies[7] ? p1in_fe[7] : p1in_re[7],
|
p1ies[6] ? p1in_fe[6] : p1in_re[6],
|
p1ies[6] ? p1in_fe[6] : p1in_re[6],
|
p1ies[5] ? p1in_fe[5] : p1in_re[5],
|
p1ies[5] ? p1in_fe[5] : p1in_re[5],
|
p1ies[4] ? p1in_fe[4] : p1in_re[4],
|
p1ies[4] ? p1in_fe[4] : p1in_re[4],
|
p1ies[3] ? p1in_fe[3] : p1in_re[3],
|
p1ies[3] ? p1in_fe[3] : p1in_re[3],
|
p1ies[2] ? p1in_fe[2] : p1in_re[2],
|
p1ies[2] ? p1in_fe[2] : p1in_re[2],
|
p1ies[1] ? p1in_fe[1] : p1in_re[1],
|
p1ies[1] ? p1in_fe[1] : p1in_re[1],
|
p1ies[0] ? p1in_fe[0] : p1in_re[0]} & P1_EN_MSK;
|
p1ies[0] ? p1in_fe[0] : p1in_re[0]} & P1_EN_MSK;
|
|
|
// Generate CPU interrupt
|
// Generate CPU interrupt
|
assign irq_port1 = |(p1ie & p1ifg) & P1_EN[0];
|
assign irq_port1 = |(p1ie & p1ifg) & P1_EN[0];
|
|
|
|
|
// Port 1 interrupt
|
// Port 1 interrupt
|
//------------------
|
//------------------
|
|
|
// Delay input
|
// Delay input
|
reg [7:0] p2in_dly;
|
reg [7:0] p2in_dly;
|
always @ (posedge mclk or posedge puc_rst)
|
always @ (posedge mclk or posedge puc_rst)
|
if (puc_rst) p2in_dly <= 8'h00;
|
if (puc_rst) p2in_dly <= 8'h00;
|
else p2in_dly <= p2in & P2_EN_MSK;
|
else p2in_dly <= p2in & P2_EN_MSK;
|
|
|
// Edge detection
|
// Edge detection
|
wire [7:0] p2in_re = p2in & ~p2in_dly;
|
wire [7:0] p2in_re = p2in & ~p2in_dly;
|
wire [7:0] p2in_fe = ~p2in & p2in_dly;
|
wire [7:0] p2in_fe = ~p2in & p2in_dly;
|
|
|
// Set interrupt flag
|
// Set interrupt flag
|
assign p2ifg_set = {p2ies[7] ? p2in_fe[7] : p2in_re[7],
|
assign p2ifg_set = {p2ies[7] ? p2in_fe[7] : p2in_re[7],
|
p2ies[6] ? p2in_fe[6] : p2in_re[6],
|
p2ies[6] ? p2in_fe[6] : p2in_re[6],
|
p2ies[5] ? p2in_fe[5] : p2in_re[5],
|
p2ies[5] ? p2in_fe[5] : p2in_re[5],
|
p2ies[4] ? p2in_fe[4] : p2in_re[4],
|
p2ies[4] ? p2in_fe[4] : p2in_re[4],
|
p2ies[3] ? p2in_fe[3] : p2in_re[3],
|
p2ies[3] ? p2in_fe[3] : p2in_re[3],
|
p2ies[2] ? p2in_fe[2] : p2in_re[2],
|
p2ies[2] ? p2in_fe[2] : p2in_re[2],
|
p2ies[1] ? p2in_fe[1] : p2in_re[1],
|
p2ies[1] ? p2in_fe[1] : p2in_re[1],
|
p2ies[0] ? p2in_fe[0] : p2in_re[0]} & P2_EN_MSK;
|
p2ies[0] ? p2in_fe[0] : p2in_re[0]} & P2_EN_MSK;
|
|
|
// Generate CPU interrupt
|
// Generate CPU interrupt
|
assign irq_port2 = |(p2ie & p2ifg) & P2_EN[0];
|
assign irq_port2 = |(p2ie & p2ifg) & P2_EN[0];
|
|
|
|
|
//============================================================================
|
//============================================================================
|
// 5) DATA OUTPUT GENERATION
|
// 5) DATA OUTPUT GENERATION
|
//============================================================================
|
//============================================================================
|
|
|
// Data output mux
|
// Data output mux
|
wire [15:0] p1in_rd = {8'h00, (p1in & {8{reg_rd[P1IN]}})} << (8 & {4{P1IN[0]}});
|
wire [15:0] p1in_rd = {8'h00, (p1in & {8{reg_rd[P1IN]}})} << (8 & {4{P1IN[0]}});
|
wire [15:0] p1out_rd = {8'h00, (p1out & {8{reg_rd[P1OUT]}})} << (8 & {4{P1OUT[0]}});
|
wire [15:0] p1out_rd = {8'h00, (p1out & {8{reg_rd[P1OUT]}})} << (8 & {4{P1OUT[0]}});
|
wire [15:0] p1dir_rd = {8'h00, (p1dir & {8{reg_rd[P1DIR]}})} << (8 & {4{P1DIR[0]}});
|
wire [15:0] p1dir_rd = {8'h00, (p1dir & {8{reg_rd[P1DIR]}})} << (8 & {4{P1DIR[0]}});
|
wire [15:0] p1ifg_rd = {8'h00, (p1ifg & {8{reg_rd[P1IFG]}})} << (8 & {4{P1IFG[0]}});
|
wire [15:0] p1ifg_rd = {8'h00, (p1ifg & {8{reg_rd[P1IFG]}})} << (8 & {4{P1IFG[0]}});
|
wire [15:0] p1ies_rd = {8'h00, (p1ies & {8{reg_rd[P1IES]}})} << (8 & {4{P1IES[0]}});
|
wire [15:0] p1ies_rd = {8'h00, (p1ies & {8{reg_rd[P1IES]}})} << (8 & {4{P1IES[0]}});
|
wire [15:0] p1ie_rd = {8'h00, (p1ie & {8{reg_rd[P1IE]}})} << (8 & {4{P1IE[0]}});
|
wire [15:0] p1ie_rd = {8'h00, (p1ie & {8{reg_rd[P1IE]}})} << (8 & {4{P1IE[0]}});
|
wire [15:0] p1sel_rd = {8'h00, (p1sel & {8{reg_rd[P1SEL]}})} << (8 & {4{P1SEL[0]}});
|
wire [15:0] p1sel_rd = {8'h00, (p1sel & {8{reg_rd[P1SEL]}})} << (8 & {4{P1SEL[0]}});
|
wire [15:0] p2in_rd = {8'h00, (p2in & {8{reg_rd[P2IN]}})} << (8 & {4{P2IN[0]}});
|
wire [15:0] p2in_rd = {8'h00, (p2in & {8{reg_rd[P2IN]}})} << (8 & {4{P2IN[0]}});
|
wire [15:0] p2out_rd = {8'h00, (p2out & {8{reg_rd[P2OUT]}})} << (8 & {4{P2OUT[0]}});
|
wire [15:0] p2out_rd = {8'h00, (p2out & {8{reg_rd[P2OUT]}})} << (8 & {4{P2OUT[0]}});
|
wire [15:0] p2dir_rd = {8'h00, (p2dir & {8{reg_rd[P2DIR]}})} << (8 & {4{P2DIR[0]}});
|
wire [15:0] p2dir_rd = {8'h00, (p2dir & {8{reg_rd[P2DIR]}})} << (8 & {4{P2DIR[0]}});
|
wire [15:0] p2ifg_rd = {8'h00, (p2ifg & {8{reg_rd[P2IFG]}})} << (8 & {4{P2IFG[0]}});
|
wire [15:0] p2ifg_rd = {8'h00, (p2ifg & {8{reg_rd[P2IFG]}})} << (8 & {4{P2IFG[0]}});
|
wire [15:0] p2ies_rd = {8'h00, (p2ies & {8{reg_rd[P2IES]}})} << (8 & {4{P2IES[0]}});
|
wire [15:0] p2ies_rd = {8'h00, (p2ies & {8{reg_rd[P2IES]}})} << (8 & {4{P2IES[0]}});
|
wire [15:0] p2ie_rd = {8'h00, (p2ie & {8{reg_rd[P2IE]}})} << (8 & {4{P2IE[0]}});
|
wire [15:0] p2ie_rd = {8'h00, (p2ie & {8{reg_rd[P2IE]}})} << (8 & {4{P2IE[0]}});
|
wire [15:0] p2sel_rd = {8'h00, (p2sel & {8{reg_rd[P2SEL]}})} << (8 & {4{P2SEL[0]}});
|
wire [15:0] p2sel_rd = {8'h00, (p2sel & {8{reg_rd[P2SEL]}})} << (8 & {4{P2SEL[0]}});
|
wire [15:0] p3in_rd = {8'h00, (p3in & {8{reg_rd[P3IN]}})} << (8 & {4{P3IN[0]}});
|
wire [15:0] p3in_rd = {8'h00, (p3in & {8{reg_rd[P3IN]}})} << (8 & {4{P3IN[0]}});
|
wire [15:0] p3out_rd = {8'h00, (p3out & {8{reg_rd[P3OUT]}})} << (8 & {4{P3OUT[0]}});
|
wire [15:0] p3out_rd = {8'h00, (p3out & {8{reg_rd[P3OUT]}})} << (8 & {4{P3OUT[0]}});
|
wire [15:0] p3dir_rd = {8'h00, (p3dir & {8{reg_rd[P3DIR]}})} << (8 & {4{P3DIR[0]}});
|
wire [15:0] p3dir_rd = {8'h00, (p3dir & {8{reg_rd[P3DIR]}})} << (8 & {4{P3DIR[0]}});
|
wire [15:0] p3sel_rd = {8'h00, (p3sel & {8{reg_rd[P3SEL]}})} << (8 & {4{P3SEL[0]}});
|
wire [15:0] p3sel_rd = {8'h00, (p3sel & {8{reg_rd[P3SEL]}})} << (8 & {4{P3SEL[0]}});
|
wire [15:0] p4in_rd = {8'h00, (p4in & {8{reg_rd[P4IN]}})} << (8 & {4{P4IN[0]}});
|
wire [15:0] p4in_rd = {8'h00, (p4in & {8{reg_rd[P4IN]}})} << (8 & {4{P4IN[0]}});
|
wire [15:0] p4out_rd = {8'h00, (p4out & {8{reg_rd[P4OUT]}})} << (8 & {4{P4OUT[0]}});
|
wire [15:0] p4out_rd = {8'h00, (p4out & {8{reg_rd[P4OUT]}})} << (8 & {4{P4OUT[0]}});
|
wire [15:0] p4dir_rd = {8'h00, (p4dir & {8{reg_rd[P4DIR]}})} << (8 & {4{P4DIR[0]}});
|
wire [15:0] p4dir_rd = {8'h00, (p4dir & {8{reg_rd[P4DIR]}})} << (8 & {4{P4DIR[0]}});
|
wire [15:0] p4sel_rd = {8'h00, (p4sel & {8{reg_rd[P4SEL]}})} << (8 & {4{P4SEL[0]}});
|
wire [15:0] p4sel_rd = {8'h00, (p4sel & {8{reg_rd[P4SEL]}})} << (8 & {4{P4SEL[0]}});
|
wire [15:0] p5in_rd = {8'h00, (p5in & {8{reg_rd[P5IN]}})} << (8 & {4{P5IN[0]}});
|
wire [15:0] p5in_rd = {8'h00, (p5in & {8{reg_rd[P5IN]}})} << (8 & {4{P5IN[0]}});
|
wire [15:0] p5out_rd = {8'h00, (p5out & {8{reg_rd[P5OUT]}})} << (8 & {4{P5OUT[0]}});
|
wire [15:0] p5out_rd = {8'h00, (p5out & {8{reg_rd[P5OUT]}})} << (8 & {4{P5OUT[0]}});
|
wire [15:0] p5dir_rd = {8'h00, (p5dir & {8{reg_rd[P5DIR]}})} << (8 & {4{P5DIR[0]}});
|
wire [15:0] p5dir_rd = {8'h00, (p5dir & {8{reg_rd[P5DIR]}})} << (8 & {4{P5DIR[0]}});
|
wire [15:0] p5sel_rd = {8'h00, (p5sel & {8{reg_rd[P5SEL]}})} << (8 & {4{P5SEL[0]}});
|
wire [15:0] p5sel_rd = {8'h00, (p5sel & {8{reg_rd[P5SEL]}})} << (8 & {4{P5SEL[0]}});
|
wire [15:0] p6in_rd = {8'h00, (p6in & {8{reg_rd[P6IN]}})} << (8 & {4{P6IN[0]}});
|
wire [15:0] p6in_rd = {8'h00, (p6in & {8{reg_rd[P6IN]}})} << (8 & {4{P6IN[0]}});
|
wire [15:0] p6out_rd = {8'h00, (p6out & {8{reg_rd[P6OUT]}})} << (8 & {4{P6OUT[0]}});
|
wire [15:0] p6out_rd = {8'h00, (p6out & {8{reg_rd[P6OUT]}})} << (8 & {4{P6OUT[0]}});
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wire [15:0] p6dir_rd = {8'h00, (p6dir & {8{reg_rd[P6DIR]}})} << (8 & {4{P6DIR[0]}});
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wire [15:0] p6dir_rd = {8'h00, (p6dir & {8{reg_rd[P6DIR]}})} << (8 & {4{P6DIR[0]}});
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wire [15:0] p6sel_rd = {8'h00, (p6sel & {8{reg_rd[P6SEL]}})} << (8 & {4{P6SEL[0]}});
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wire [15:0] p6sel_rd = {8'h00, (p6sel & {8{reg_rd[P6SEL]}})} << (8 & {4{P6SEL[0]}});
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wire [15:0] per_dout = p1in_rd |
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wire [15:0] per_dout = p1in_rd |
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p1out_rd |
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p1out_rd |
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p1dir_rd |
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p1dir_rd |
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p1ifg_rd |
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p1ifg_rd |
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p1ies_rd |
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p1ies_rd |
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p1ie_rd |
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p1ie_rd |
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p1sel_rd |
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p1sel_rd |
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p2in_rd |
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p2in_rd |
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p2out_rd |
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p2out_rd |
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p2dir_rd |
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p2dir_rd |
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p2ifg_rd |
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p2ifg_rd |
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p2ies_rd |
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p2ies_rd |
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p2ie_rd |
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p2ie_rd |
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p2sel_rd |
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p2sel_rd |
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p3in_rd |
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p3in_rd |
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p3out_rd |
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p3out_rd |
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p3dir_rd |
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p3dir_rd |
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p3sel_rd |
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p3sel_rd |
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p4in_rd |
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p4in_rd |
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p4out_rd |
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p4out_rd |
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p4dir_rd |
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p4dir_rd |
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p4sel_rd |
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p4sel_rd |
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p5in_rd |
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p5in_rd |
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p5out_rd |
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p5out_rd |
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p5dir_rd |
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p5dir_rd |
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p5sel_rd |
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p5sel_rd |
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p6in_rd |
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p6in_rd |
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p6out_rd |
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p6out_rd |
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p6dir_rd |
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p6dir_rd |
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p6sel_rd;
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p6sel_rd;
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endmodule // omsp_gpio
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endmodule // omsp_gpio
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