x393.v 197 KB
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/*******************************************************************************
 * Module: x393
 * Date:2015-01-13  
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 * Author: Andrey Filippov     
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 * Description: Elphel NC393 camera FPGA top module
 *
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 * Copyright (c) 2015 Elphel, Inc.
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 * x393.v is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 *  x393.v is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/> .
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 *
 * Additional permission under GNU GPL version 3 section 7:
 * If you modify this Program, or any covered work, by linking or combining it
 * with independent modules provided by the FPGA vendor only (this permission
 * does not extend to any 3-rd party modules, "soft cores" or macros) under
 * different license terms solely for the purpose of generating binary "bitstream"
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 * files and/or simulating the code, the copyright holders of this Program give
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 * you the right to distribute the covered work without those independent modules
 * as long as the source code for them is available from the FPGA vendor free of
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 * charge, and there is no dependence on any encrypted modules for simulating of
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 * the combined code. This permission applies to you if the distributed code
 * contains all the components and scripts required to completely simulate it
 * with at least one of the Free Software programs.
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 *******************************************************************************/
`timescale 1ns/1ps
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//`define use200Mhz 1
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//`define DEBUG_FIFO 1
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`include "system_defines.vh" 
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module  x393 #(
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`include "includes/x393_parameters.vh" // SuppressThisWarning VEditor - some not used
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)(
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    // Sensors interface: I/O pads, pin names match circuit diagram (each sensor)
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`ifdef HISPI
    input                  [3:0] sns1_dp,
    input                  [3:0] sns1_dn,
    inout                  [7:4] sns1_dp74, // other non-diff signals
    inout                  [7:4] sns1_dn74, // other non-diff signals
    input                        sns1_clkp,
    input                        sns1_clkn,
    inout                        sns1_scl,
    inout                        sns1_sda,
    inout                        sns1_ctl,
    inout                        sns1_pg,
    
    input                  [3:0] sns2_dp,
    input                  [3:0] sns2_dn,
    inout                  [7:4] sns2_dp74, // other non-diff signals
    inout                  [7:4] sns2_dn74, // other non-diff signals
    input                        sns2_clkp,
    input                        sns2_clkn,
    inout                        sns2_scl,
    inout                        sns2_sda,
    inout                        sns2_ctl,
    inout                        sns2_pg,

    input                  [3:0] sns3_dp,
    input                  [3:0] sns3_dn,
    inout                  [7:4] sns3_dp74, // other non-diff signals
    inout                  [7:4] sns3_dn74, // other non-diff signals
    input                        sns3_clkp,
    input                        sns3_clkn,
    inout                        sns3_scl,
    inout                        sns3_sda,
    inout                        sns3_ctl,
    inout                        sns3_pg,

    input                  [3:0] sns4_dp,
    input                  [3:0] sns4_dn,
    inout                  [7:4] sns4_dp74, // other non-diff signals
    inout                  [7:4] sns4_dn74, // other non-diff signals
    input                        sns4_clkp,
    input                        sns4_clkn,
    inout                        sns4_scl,
    inout                        sns4_sda,
    inout                        sns4_ctl,
    inout                        sns4_pg,
`else
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    inout                  [7:0] sns1_dp,
    inout                  [7:0] sns1_dn,
    inout                        sns1_clkp,
    inout                        sns1_clkn,
    inout                        sns1_scl,
    inout                        sns1_sda,
    inout                        sns1_ctl,
    inout                        sns1_pg,
    
    inout                  [7:0] sns2_dp,
    inout                  [7:0] sns2_dn,
    inout                        sns2_clkp,
    inout                        sns2_clkn,
    inout                        sns2_scl,
    inout                        sns2_sda,
    inout                        sns2_ctl,
    inout                        sns2_pg,
    
    inout                  [7:0] sns3_dp,
    inout                  [7:0] sns3_dn,
    inout                        sns3_clkp,
    inout                        sns3_clkn,
    inout                        sns3_scl,
    inout                        sns3_sda,
    inout                        sns3_ctl,
    inout                        sns3_pg,
    
    inout                  [7:0] sns4_dp,
    inout                  [7:0] sns4_dn,
    inout                        sns4_clkp,
    inout                        sns4_clkn,
    inout                        sns4_scl,
    inout                        sns4_sda,
    inout                        sns4_ctl,
    inout                        sns4_pg,
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`endif    
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    // GPIO pins (1.5V): assigned in 10389: [1:0] - i2c, [5:2] - gpio, [GPIO_N-1:6] - sync i/o
    inout           [GPIO_N-1:0] gpio_pins,
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    // DDR3 interface
    output                       SDRST, // DDR3 reset (active low)
    output                       SDCLK, // DDR3 clock differential output, positive
    output                       SDNCLK,// DDR3 clock differential output, negative
    output  [ADDRESS_NUMBER-1:0] SDA,   // output address ports (14:0) for 4Gb device
    output                 [2:0] SDBA,  // output bank address ports
    output                       SDWE,  // output WE port
    output                       SDRAS, // output RAS port
    output                       SDCAS, // output CAS port
    output                       SDCKE, // output Clock Enable port
    output                       SDODT, // output ODT port

    inout                 [15:0] SDD,   // DQ  I/O pads
    output                       SDDML, // LDM  I/O pad (actually only output)
    inout                        DQSL,  // LDQS I/O pad
    inout                        NDQSL, // ~LDQS I/O pad
    output                       SDDMU, // UDM  I/O pad (actually only output)
    inout                        DQSU,  // UDQS I/O pad
    inout                        NDQSU,
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    // Clock inputs
    input                        memclk,  // M5
    input                        ffclk0p, // Y12
    input                        ffclk0n, // Y11
    input                        ffclk1p, // W14
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    input                        ffclk1n,  // W13
    
// SATA data interface
    input                        RXN, 
    input                        RXP,
    output                       TXN,
    output                       TXP,
// sata clocking iface
    input                        EXTCLK_P,
    input                        EXTCLK_N
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);
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`include "fpga_version.vh"
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// Source for reset and clock
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`ifndef IGNORE_ATTR
    (* KEEP = "TRUE" *)
`endif    
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    wire    [3:0]     fclk;           // PL Clocks [3:0], output
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`ifndef IGNORE_ATTR
    (* KEEP = "TRUE" *)
`endif    
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    wire    [3:0]     frst;           // PL Clocks [3:0], output
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// AXI write interface signals
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    wire           axi_aclk;          // clock - should be buffered
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    wire           axi_grst;          // reset, active high, global (try to get rid of) - trying, removed BUFG
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// AXI Write Address
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    wire   [31:0]  maxi0_awaddr;      // AWADDR[31:0], input
    wire           maxi0_awvalid;     // AWVALID, input
    wire           maxi0_awready;     // AWREADY, output
    wire   [11:0]  maxi0_awid;        // AWID[11:0], input
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    wire   [ 3:0]  maxi0_awlen;       // AWLEN[3:0], input
    wire   [ 1:0]  maxi0_awsize;      // AWSIZE[1:0], input
    wire   [ 1:0]  maxi0_awburst;     // AWBURST[1:0], input
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// AXI PS Master GP0: Write Data
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    wire   [31:0]  maxi0_wdata;       // WDATA[31:0], input
    wire           maxi0_wvalid;      // WVALID, input
    wire           maxi0_wready;      // WREADY, output
    wire   [11:0]  maxi0_wid;         // WID[11:0], input
    wire           maxi0_wlast;       // WLAST, input
    wire   [ 3:0]  maxi0_wstb;        // WSTRB[3:0], input
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// AXI PS Master GP0: Write response
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    wire           maxi0_bvalid;      // BVALID, output
    wire           maxi0_bready;      // BREADY, input
    wire   [11:0]  maxi0_bid;         // BID[11:0], output
    wire   [ 1:0]  maxi0_bresp;       // BRESP[1:0], output
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// BRAM (and other write modules) interface from AXI write
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    wire [AXI_WR_ADDR_BITS-1:0] axiwr_pre_awaddr; // same as awaddr_out, early address to decode and return dev_ready
    wire           axiwr_start_burst; // start of write burst, valid pre_awaddr, save externally to control ext. dev_ready multiplexer
    wire           axiwr_dev_ready;   // extrernal combinatorial ready signal, multiplexed from different sources according to pre_awaddr@start_burst
    wire           axiwr_wclk;
    wire  [AXI_WR_ADDR_BITS-1:0] axiwr_waddr;
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    wire           axiwr_wen;         // external memory write enable, (internally combined with registered dev_ready
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// SuppressWarnings VEditor unused (yet?) 
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    wire    [3:0]  axiwr_bram_wstb; 
    wire   [31:0]  axiwr_wdata;
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 // AXI Read Address   
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    wire   [31:0]  maxi0_araddr;  // ARADDR[31:0], input 
    wire           maxi0_arvalid; // ARVALID, input
    wire           maxi0_arready; // ARREADY, output
    wire   [11:0]  maxi0_arid;    // ARID[11:0], input
    wire   [ 3:0]  maxi0_arlen;   // ARLEN[3:0], input
    wire   [ 1:0]  maxi0_arsize;  // ARSIZE[1:0], input
    wire   [ 1:0]  maxi0_arburst; // ARBURST[1:0], input
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// AXI Read Data
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    wire   [31:0]  maxi0_rdata;   // RDATA[31:0], output
    wire           maxi0_rvalid;  // RVALID, output
    wire           maxi0_rready;  // RREADY, input
    wire   [11:0]  maxi0_rid;     // RID[11:0], output
    wire           maxi0_rlast;   // RLAST, output
    wire   [ 1:0]  maxi0_rresp;
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// External memory synchronization
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    wire [AXI_RD_ADDR_BITS-1:0] axird_pre_araddr; // same as awaddr_out, early address to decode and return dev_ready
    wire           axird_start_burst; // start of read burst, valid pre_araddr, save externally to control ext. dev_ready multiplexer
    wire           axird_dev_ready;   // extrernal combinatorial ready signal, multiplexed from different sources according to pre_araddr@start_burst
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// External memory interface   
// SuppressWarnings VEditor unused (yet?) - use mclk 
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    wire           axird_bram_rclk;  // == axi_aclk      .rclk(aclk),                  // clock for read port
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   // while only status provides read data, the next signals are not used (relies on axird_pre_araddr, axird_start_burst)
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    wire  [AXI_RD_ADDR_BITS-1:0] axird_raddr; //   .raddr(read_in_progress?read_address[9:0]:10'h3ff),    // read address
    wire           axird_ren;   //      .ren(bram_reg_re_w) ,      // read port enable
    wire           axird_regen; //   .regen(bram_reg_re_w),        // output register enable
    wire  [31:0]   axird_rdata;  //      .data_out(rdata[31:0]),       // data out
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//   wire  [31:0]   port0_rdata;  //
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    wire  [31:0]   status_rdata;  //
    wire           status_selected;
    wire  [31:0]   readback_rdata;  //
    wire           readback_selected;
    wire  [31:0]   mcntrl_axird_rdata; // read data from the memory controller 
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    wire           mcntrl_axird_selected; // memory controller has valid data output on mcntrl_axird_rdata 
    reg            status_selected_ren;         // status_selected (set at axird_start_burst) delayed when ren is active
    reg            readback_selected_ren;
    reg            mcntrl_axird_selected_ren;   // mcntrl_axird_selected (set at axird_start_burst) delayed when ren is active
    reg            status_selected_regen;       // status_selected (set at axird_start_burst) delayed when ren is active, then when regen (normally 2 cycles)
    reg            readback_selected_regen;
    reg            mcntrl_axird_selected_regen; // mcntrl_axird_selected (set at axird_start_burst) delayed when ren is active, then when regen (normally 2 cycles)
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   // global clocks
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    wire           mclk; // global clock, memory controller, command/status network (currently 200MHz)
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    wire           mcntrl_locked; // to generate syn resets
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    wire           ref_clk; // global clock for idelay_ctrl calibration
    wire           hclk; // global clock, axi_hp (150MHz) derived from aclk_in = 50MHz
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    // sensor pixel rate clock likely to originate from the external clock
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 //TODO: Create missing clocks   
    
    wire           pclk;   // global clock, sensor pixel rate (96 MHz)
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`ifdef USE_PCLK2X    
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    wire           pclk2x; // global clock, sensor double pixel rate (192 MHz)
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`endif
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   // compressor pixel rate can be adjusted independently
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    wire           xclk;   // global clock, compressor pixel rate (100 MHz)?
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`ifdef  USE_XCLK2X     
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    wire           xclk2x; // global clock, compressor double pixel rate (200 MHz)
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`endif   
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    wire           camsync_clk; // global clock used for external synchronization. 96MHz in x353.
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                               //  Make it independent of pixel, compressor and mclk so it can be frozen
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    wire           logger_clk;  // global clock for the event logger. Use 100 MHz, shared with camsync_clk
    assign logger_clk = camsync_clk;
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    wire           mrst; // @ posedge mclk
    wire           prst; // @ posedge pclk
    wire           xrst; // @ posedge xclk
    wire           crst; // @ posedge camsync_clk
    wire           lrst; // @ posedge logger_clk;
    wire           arst; // @ posedge axi_aclk;
    wire           hrst; // @ posedge hclk;
    
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    wire           locked_sync_clk;
    wire           locked_xclk;
    wire           locked_pclk;
    wire           locked_hclk;
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    wire           idelay_ctrl_reset; // to reset idelay_cntrl
    
    
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    wire           time_ref; // RTC reference: integer number of microseconds, less than mclk/2. Not a global clock
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    wire [11:0] tmp_debug; 
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//   reg    select_port0; // May be used later!
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    wire axiwr_dev_busy;
    wire axird_dev_busy;
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   //TODO: The following is the interface to the frame-based command sequencer (not yet implemnted)        
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    wire [AXI_WR_ADDR_BITS-1:0] cseq_waddr;   // command sequencer write address (output to command multiplexer)
    wire                        cseq_wr_en;   // command sequencer write enable (output to command multiplexer) - keep until cseq_ackn received
    wire                 [31:0] cseq_wdata;   // command sequencer write data (output to command multiplexer) 
    wire                        cseq_ackn;    // ackn to command sequencer, command sequencer should de-assert cseq_wr_en
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   // Signals for the frame sequnecer/mux
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    wire [4 * AXI_WR_ADDR_BITS-1:0] frseq_waddr; 
    wire                      [3:0] frseq_valid;
    wire                    [127:0] frseq_wdata; 
    wire                      [3:0] frseq_ackn;
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    wire                      [3:0] frseq_is;
    wire                      [3:0] frseq_im;
    wire                      [3:0] frseq_irq = frseq_is & frseq_im; // frame interrupts
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// parallel address/data - where higher bandwidth (single-cycle) is needed        
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    wire [AXI_WR_ADDR_BITS-1:0] par_waddr; 
    wire                 [31:0] par_data; 
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    wire                  [7:0] cmd_root_ad;       // multiplexed byte-wide serialized address/data to slave devices (AL-AH-D0-D1-D2-D3), may contain less cycles 
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    wire                        cmd_root_stb;      // strobe marking the first of 1-6 a/d bytes and also data valid for par_waddr and par_data

    wire                  [7:0] status_root_ad;    // Root status byte-wide address/data 
    wire                        status_root_rq;    // Root status request  
    wire                        status_root_start; // Root status packet transfer start (currently with 0 latency from status_root_rq)

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    wire                  [7:0] status_mcontr_ad;    // Memory controller status byte-wide address/data 
    wire                        status_mcontr_rq;    // Memory controller status request  
    wire                        status_mcontr_start; // Memory controller status packet transfer start (currently with 0 latency from status_root_rq)
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// Not yet connected
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    wire                  [7:0] status_membridge_ad;    // membridge (afi to ddr3) status byte-wide address/data 
    wire                        status_membridge_rq;    // membridge (afi to ddr3) status request  
    wire                        status_membridge_start; //membridge (afi to ddr3) status packet transfer start (currently with 0 latency from status_root_rq)

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//    wire                  [7:0] status_other_ad = 0; // Other status byte-wide address/data
//    wire                        status_other_rq = 0; // Other status request   
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//    wire                        status_other_start;  //
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    wire                  [7:0] status_test01_ad;    // Test module status byte-wide address/data 
    wire                        status_test01_rq;    // Test module status request  
    wire                        status_test01_start; // Test module status packet transfer start (currently with 0 latency from status_root_rq)
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    wire                  [7:0] status_sensor_ad;     // Other status byte-wide address/data
    wire                        status_sensor_rq;     // Other status request   
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    wire                        status_sensor_start;  //
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    wire                  [7:0] status_compressor_ad; // Other status byte-wide address/data
    wire                        status_compressor_rq; // Other status request   
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    wire                        status_compressor_start;  //
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// TODO: Add sequencer status (16+2) bits of current frame number. Ose 'h31 as the address, 'h702 (701..703 were empty) to program
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    wire                  [7:0] status_sequencer_ad; // Other status byte-wide address/data
    wire                        status_sequencer_rq; // Other status request   
    wire                        status_sequencer_start;  // S uppressThisWarning VEditor ****** Other status packet transfer start (currently with 0 latency from status_root_rq)
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    wire                  [7:0] status_logger_ad; // Other status byte-wide address/data
    wire                        status_logger_rq; // Other status request   
    wire                        status_logger_start;  // S uppressThisWarning VEditor ****** Other status packet transfer start (currently with 0 latency from status_root_rq)

    wire                  [7:0] status_timing_ad; // Other status byte-wide address/data
    wire                        status_timing_rq; // Other status request   
    wire                        status_timing_start;  // S uppressThisWarning VEditor ****** Other status packet transfer start (currently with 0 latency from status_root_rq)

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    wire                  [7:0] status_gpio_ad; // Other status byte-wide address/data
    wire                        status_gpio_rq; // Other status request   
    wire                        status_gpio_start;  // S uppressThisWarning VEditor ****** Other status packet transfer start (currently with 0 latency from status_root_rq)

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    wire                  [7:0] status_saxi1wr_ad; // saxi1 - logger data Other status byte-wide address/data
    wire                        status_saxi1wr_rq; // Other status request   
    wire                        status_saxi1wr_start;  // S uppressThisWarning VEditor ****** Other status packet transfer start (currently with 0 latency from status_root_rq)

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    wire                  [7:0] status_clocks_ad; // saxi1 - logger data Other status byte-wide address/data
    wire                        status_clocks_rq; // Other status request   
    wire                        status_clocks_start;  // S uppressThisWarning VEditor ****** Other status packet transfer start (currently with 0 latency from status_root_rq)

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`ifdef DEBUG_RING
    wire                  [7:0] status_debug_ad; // saxi1 - logger data Other status byte-wide address/data
    wire                        status_debug_rq; // Other status request   
    wire                        status_debug_start;  // S uppressThisWarning VEditor ****** Other status packet transfer start (currently with 0 latency from status_root_rq)
    
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    localparam DEBUG_RING_LENGTH = 3; // increase here, insert new after master 
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    wire [DEBUG_RING_LENGTH:0]    debug_ring; // TODO: adjust number of bits
    wire                          debug_sl;   // debug shift/load:  0 - idle, (1,0) - shift, (1,1) - load
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`endif    
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    // Insert register layer if needed
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    reg  [7:0] cmd_mcontr_ad;
    reg        cmd_mcontr_stb;
    
    reg  [7:0] cmd_test01_ad;
    reg        cmd_test01_stb;
    
    reg  [7:0] cmd_membridge_ad;
    reg        cmd_membridge_stb;

    reg  [7:0] cmd_sensor_ad;
    reg        cmd_sensor_stb;

    reg  [7:0] cmd_compressor_ad;
    reg        cmd_compressor_stb;

    reg  [7:0] cmd_sequencer_ad;
    reg        cmd_sequencer_stb;
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    reg  [7:0] cmd_logger_ad;
    reg        cmd_logger_stb;

    reg  [7:0] cmd_timing_ad;
    reg        cmd_timing_stb;
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    reg  [7:0] cmd_gpio_ad;
    reg        cmd_gpio_stb;

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    reg  [7:0] cmd_saxi1wr_ad;
    reg        cmd_saxi1wr_stb;

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    reg  [7:0] cmd_clocks_ad;
    reg        cmd_clocks_stb;

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`ifdef DEBUG_RING
    reg  [7:0] cmd_debug_ad;
    reg        cmd_debug_stb;
`endif
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// membridge
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    wire                        frame_start_chn1; // input
    wire                        next_page_chn1; // input
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    wire                        cmd_wrmem_chn1;
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    wire                        page_ready_chn1; // output
    wire                        frame_done_chn1; // output
    wire[FRAME_HEIGHT_BITS-1:0] line_unfinished_chn1; // output[15:0] 
    wire                        suspend_chn1; // input
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    wire                        xfer_reset_page1_rd;
    wire                        buf_wpage_nxt_chn1;
    wire                        buf_wr_chn1;
    wire                 [63:0] buf_wdata_chn1; 
    wire                        xfer_reset_page1_wr;
    wire                        rpage_nxt_chn1;
    wire                        buf_rd_chn1;
    wire                 [63:0] buf_rdata_chn1; 
    
    
    
    
//mcntrl393_test01
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    wire                        frame_start_chn2;  // input
    wire                        next_page_chn2;    // input
    wire                        page_ready_chn2; // output
    wire                        frame_done_chn2; // output
    wire[FRAME_HEIGHT_BITS-1:0] line_unfinished_chn2; // output[15:0] 
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 //   wire  [LAST_FRAME_BITS-1:0] frame_number_chn2; // output[15:0] 
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    wire                        suspend_chn2; // input
    wire                        frame_start_chn3; // input
    wire                        next_page_chn3; // input
    wire                        page_ready_chn3; // output
    wire                        frame_done_chn3; // output
    wire[FRAME_HEIGHT_BITS-1:0] line_unfinished_chn3; // output[15:0] 
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//    wire  [LAST_FRAME_BITS-1:0] frame_number_chn3; // output[15:0] 
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    wire                        suspend_chn3; // input
    wire                        frame_start_chn4; // input
    wire                        next_page_chn4; // input
    wire                        page_ready_chn4; // output
    wire                        frame_done_chn4; // output
    wire[FRAME_HEIGHT_BITS-1:0] line_unfinished_chn4; // output[15:0]
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//    wire  [LAST_FRAME_BITS-1:0] frame_number_chn4; // output[15:0] 
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    wire                        suspend_chn4; // input
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    reg                         axi_rst_pre=1'b1;
    wire                        comb_rst; //=~frst[0] | frst[1];
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    wire                 [63:0] gpio_in;
    
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    // signals for sensor393 (in/outs as sseen for the sensor393)
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    wire                  [3:0] sens_rpage_set;  //    (), // input
    wire                  [3:0] sens_rpage_next; //    (), // input
    wire                  [3:0] sens_buf_rd;     //    (), // input
    wire                [255:0] sens_buf_dout;   //    (), // output[63:0] 
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    wire                  [3:0] sens_page_written;     //   single mclk pulse: buffer page (full or partial) is written to the memory buffer 
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// TODO: Add counter(s) to count sens_xfer_skipped pulses    
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    wire                  [3:0] sens_xfer_skipped;         // single mclk pulse on every skipped (not written) block to record error statistics // SuppressThisWarning VEditor - unused
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    wire                  [3:0] sens_first_wr_in_frame;    // single mclk pulse on first write block in each frame
    
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    wire                        trigger_mode; //       (), // input
    wire                  [3:0] trig_in;                  // input[3:0] 
        
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    wire                  [3:0] sof_out_pclk; //       (), // output[3:0] // SuppressThisWarning VEditor - (yet) unused
    wire                  [3:0] eof_out_pclk; //       (), // output[3:0] // SuppressThisWarning VEditor - (yet) unused
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    wire                  [3:0] sof_out_mclk; // Use for sequencer and to start memory write
// if sof_out_mclk is applied to both sequencer and memory controller (as it is now) reprogramming of the sensor->memory
// parameters will be applied to the next frame TODO: Verify that sequencer will always be later than memory controller
// handling this pulse (should be so). Make sure parameters are applied in ASAP in single-trigger mode
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    wire                  [3:0] sof_late_mclk; //      (), // output[3:0] 
        
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    wire [4 * NUM_FRAME_BITS - 1:0] frame_num;            //       (), // input[15:0] 
    wire [4 * NUM_FRAME_BITS - 1:0] frame_num_compressed; //      (), // input[15:0] 
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    // signals for compressor393 (in/outs as seen for the sensor393)
    // per-channel memory buffers interface

    wire   [3:0] cmprs_xfer_reset_page_rd;  // input
    wire   [3:0] cmprs_buf_wpage_nxt;       // input
    wire   [3:0] cmprs_buf_we;              // input
    wire [255:0] cmprs_buf_din;             // input[63:0] 
    wire   [3:0] cmprs_page_ready;          // input
    wire   [3:0] cmprs_next_page;           // output

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// per-channel master (sensor)/slave (compressor) synchronization (compressor wait until sensor provided data)
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    wire                     [3:0] cmprs_frame_start_dst; // output - trigger receive (tiledc) memory channel (it will take care of single/repetitive
                                                          // these output either follows vsync_late (reclocks it) or generated in non-bonded mode
                                                          // (compress from memory)
    wire [4*FRAME_HEIGHT_BITS-1:0] cmprs_line_unfinished_src; // input[15:0] number of the current (unfinished ) line, in the source (sensor)
                                                          //  channel (RELATIVE TO FRAME, NOT WINDOW?)
    wire   [4*LAST_FRAME_BITS-1:0] cmprs_frame_number_src;// input[15:0] current frame number (for multi-frame ranges) in the source (sensor) channel
    wire                     [3:0] cmprs_frame_done_src;  // input single-cycle pulse when the full frame (window) was transferred to/from DDR3 memory 
                                                          // frame_done_src is later than line_unfinished_src/ frame_number_src changes
                                                          // Used withe a single-frame buffers
    wire [4*FRAME_HEIGHT_BITS-1:0] cmprs_line_unfinished_dst; // input[15:0] number of the current (unfinished ) line in this (compressor) channel
    wire   [4*LAST_FRAME_BITS-1:0] cmprs_frame_number_dst; // input[15:0] current frame number (for multi-frame ranges) in this (compressor channel
    wire                     [3:0] cmprs_frame_done_dst;   // input single-cycle pulse when the full frame (window) was transferred to/from DDR3 memory
                                                           // use as 'eot_real' in 353 
    wire                     [3:0] cmprs_suspend;          // output suspend reading data for this channel - waiting for the source data
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    wire   [4*LAST_FRAME_BITS-1:0] cmprs_frame_number_finished;  // frame numbers compressed
    
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// Timestamp messages (@mclk) - combine to a single ts_data?    
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    wire                      [3:0] ts_pre_stb; // input[ 3:0] 4 compressor channels
    wire                     [31:0] ts_data;    // input[31:0] 4 compressor channels
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// Timestamp messages (@mclk) - combine to a single ts_data?    
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    wire                            ts_pre_logger_stb; // input logger timestamp sync (@logger_clk)
    wire                      [7:0] ts_logegr_data;    // input[7:0] loger timestamp data (@logger_clk) 
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// Compressor signals for interrupts generation    
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    wire                      [3:0] eof_written_mclk;  // output // SuppressThisWarning VEditor - (yet) unused
    wire                      [3:0] stuffer_done_mclk; // output// SuppressThisWarning VEditor - (yet) unused
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    wire                      [3:0] cmprs_irq;         // compressor done, data confirmed written to memory)
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// Compressor frame synchronization
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// GPIO internal signals (for camera GPIOs, not Zynq PS GPIO)
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    wire               [GPIO_N-1:0] gpio_rd;          // data read from the external GPIO pins 
    wire               [GPIO_N-1:0] gpio_camsync;     // data out from the camsync module 
    wire               [GPIO_N-1:0] gpio_camsync_en;  // output enable from the camsync module 
    wire               [GPIO_N-1:0] gpio_db;          // data out from the port B (unused,  Motors in x353)
    wire               [GPIO_N-1:0] gpio_db_en;       // output enable from the port B (unused,  Motors in x353)  
    wire               [GPIO_N-1:0] gpio_logger;      // data out from the event_logger module 
    wire               [GPIO_N-1:0] gpio_logger_en;   // output enable from the event_logger module 
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   // Internal signal for toming393 (camsync) modules
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    wire               logger_snap;
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   // event_logger intermediate signals
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    wire        [15:0] logger_out;          // output[15:0] 
    wire               logger_stb;          // output
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   // event_logger intermediate signals (after mult_saxi_wr_inbuf - converted to 32 bit wide)
   
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    wire               logger_saxi_en;
    wire               logger_has_burst; 
    wire               logger_read_burst;
    wire        [31:0] logger_data32; 
    wire               logger_pre_valid_chn;
    wire               idelay_ctrl_rdy;// just to keep idelay_ctrl instances

// Top level signals for SATA
// MAXIGP1 - interface with SATA controller register memory
    wire       [31:0]  maxi1_araddr;
    wire               maxi1_arvalid;
    wire               maxi1_arready;
    wire       [11:0]  maxi1_arid;
    wire       [3:0]   maxi1_arlen;
    wire       [1:0]   maxi1_arsize;
    wire       [1:0]   maxi1_arburst;
    wire       [31:0]  maxi1_rdata;
    wire               maxi1_rvalid;
    wire               maxi1_rready;
    wire       [11:0]  maxi1_rid;
    wire               maxi1_rlast;
    wire       [1:0]   maxi1_rresp;
    wire       [31:0]  maxi1_awaddr;
    wire               maxi1_awvalid;
    wire               maxi1_awready;
    wire       [11:0]  maxi1_awid;
    wire       [3:0]   maxi1_awlen;
    wire       [1:0]   maxi1_awsize;
    wire       [1:0]   maxi1_awburst;
    wire       [31:0]  maxi1_wdata;
    wire               maxi1_wvalid;
    wire               maxi1_wready;
    wire       [11:0]  maxi1_wid;
    wire               maxi1_wlast;
    wire       [3:0]   maxi1_wstb;
    wire               maxi1_bvalid;
    wire               maxi1_bready;
    wire       [11:0]  maxi1_bid;
    wire       [1:0]   maxi1_bresp;

// SAXIGP3 - SATA comntroller DMA interface with system memory
    wire        [31:0] afi3_awaddr;       // output[31:0]
    wire               afi3_awvalid;      // output
    wire               afi3_awready;      // input
    wire        [ 5:0] afi3_awid;         // output[5:0]
    wire        [ 1:0] afi3_awlock;       // output[1:0]
    wire        [ 3:0] afi3_awcache;      // output[3:0]
    wire        [ 2:0] afi3_awprot;       // output[2:0]
    wire        [ 3:0] afi3_awlen;        // output[3:0]
    wire        [ 1:0] afi3_awsize;       // output[2:0]
    wire        [ 1:0] afi3_awburst;      // output[1:0]
    wire        [ 3:0] afi3_awqos;        // output[3:0]
    wire        [63:0] afi3_wdata;        // output[63:0]
    wire               afi3_wvalid;       // output
    wire               afi3_wready;       // input
    wire        [ 5:0] afi3_wid;          // output[5:0]
    wire               afi3_wlast;        // output
    wire        [ 7:0] afi3_wstrb;        // output[7:0]
    wire               afi3_bvalid;       // input
    wire               afi3_bready;       // output
    wire        [ 5:0] afi3_bid;          // input[5:0]
    wire        [ 1:0] afi3_bresp;        // input[1:0]
    wire        [ 7:0] afi3_wcount;       // input[7:0]
    wire        [ 5:0] afi3_wacount;      // input[5:0]
    wire               afi3_wrissuecap1en;// output
    wire        [31:0] afi3_araddr;       // output[31:0]
    wire               afi3_arvalid;      // output
    wire               afi3_arready;      // input
    wire        [ 5:0] afi3_arid;         // output[5:0]
    wire        [ 1:0] afi3_arlock;       // output[1:0]
    wire        [ 3:0] afi3_arcache;      // output[3:0]
    wire        [ 2:0] afi3_arprot;       // output[2:0]
    wire        [ 3:0] afi3_arlen;        // output[3:0]
    wire        [ 1:0] afi3_arsize;       // output[2:0]
    wire        [ 1:0] afi3_arburst;      // output[1:0]
    wire        [ 3:0] afi3_arqos;        // output[3:0]
    wire        [63:0] afi3_rdata;        // input[63:0]
    wire               afi3_rvalid;       // input
    wire               afi3_rready;       // output
    wire        [ 5:0] afi3_rid;          // input[5:0]
    wire               afi3_rlast;        // input
    wire        [ 1:0] afi3_rresp;        // input[2:0]
    wire        [ 7:0] afi3_rcount;       // input[7:0]
    wire        [ 2:0] afi3_racount;      // input[2:0]
    wire               afi3_rdissuecap1en;// output

    wire               sata_irq;          // ps7 IRQ

    wire               sata_clk    ; // Just output from SATA subsystem SuppressThisWarning VEditor Not used
   
    assign gpio_db = 0;    // unused,  Motors in x353
    assign gpio_db_en = 0; // unused,  Motors in x353
    assign gpio_in= {48'h0,frst,tmp_debug}; // these are PS GPIO pins
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    assign axird_dev_ready = ~axird_dev_busy; //may combine (AND) multiple sources if needed
    assign axird_dev_busy = 1'b0; // always for now
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// Use this later    
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    assign axird_rdata= ({32{status_selected_regen}} & status_rdata[31:0]) |
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                       ({32{readback_selected_regen}} & readback_rdata[31:0]) |
                       ({32{mcntrl_axird_selected_regen}} & mcntrl_axird_rdata[31:0]);
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//Debug with this (to show 'x)   
//   assign axird_rdata= status_selected_regen?status_rdata[31:0] : (mcntrl_axird_selected_regen? mcntrl_axird_rdata[31:0]:'bx);
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// temporary for Vivado debugging
//   assign axird_rdata= status_rdata[31:0] |  mcntrl_axird_rdata[31:0];

   
   assign axiwr_dev_ready = ~axiwr_dev_busy; //may combine (AND) multiple sources if needed

// Clock and reset from PS
   assign comb_rst=~frst[0] | frst[1];

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    // insert register layers if needed
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    always @ (posedge mclk) begin
        cmd_mcontr_ad <=      cmd_root_ad;
        cmd_mcontr_stb <=     cmd_root_stb;
        
        cmd_test01_ad <=      cmd_root_ad;
        cmd_test01_stb <=     cmd_root_stb;
        
        cmd_membridge_ad <=   cmd_root_ad;
        cmd_membridge_stb <=  cmd_root_stb;
        
        cmd_sensor_ad <=      cmd_root_ad;
        cmd_sensor_stb <=     cmd_root_stb;
        
        cmd_compressor_ad <=  cmd_root_ad;
        cmd_compressor_stb <= cmd_root_stb;
        
        cmd_sequencer_ad <=   cmd_root_ad;
        cmd_sequencer_stb <=  cmd_root_stb;
        
        cmd_logger_ad <=      cmd_root_ad;
        cmd_logger_stb <=     cmd_root_stb;
        
        cmd_timing_ad <=      cmd_root_ad;
        cmd_timing_stb <=     cmd_root_stb;
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        cmd_gpio_ad <=        cmd_root_ad;
        cmd_gpio_stb <=       cmd_root_stb;
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        cmd_saxi1wr_ad <=     cmd_root_ad;
        cmd_saxi1wr_stb <=    cmd_root_stb;
        
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        cmd_clocks_ad <=      cmd_root_ad;
        cmd_clocks_stb <=     cmd_root_stb;
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`ifdef DEBUG_RING
        cmd_debug_ad <=      cmd_root_ad;
        cmd_debug_stb <=     cmd_root_stb;
`endif        
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    end
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// For now - connect status_test01 to status_other, if needed - increase number of multiplexer inputs)
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//   assign status_other_ad = status_test01_ad;
//   assign status_other_rq = status_test01_rq;
//   assign status_test01_start = status_other_start;
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// delay status_selected and mcntrl_axird_selected to match data for multiplexing

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//    always @(posedge axi_grst or posedge axird_bram_rclk) begin // axird_bram_rclk==axi_aclk
    always @(posedge axird_bram_rclk) begin // axird_bram_rclk==axi_aclk

        if      (arst)        status_selected_ren <= 1'b0;
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        else if (axird_ren)   status_selected_ren <= status_selected;
        
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        if      (arst)        status_selected_regen <= 1'b0;
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        else if (axird_regen) status_selected_regen <= status_selected_ren;

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        if      (arst)        readback_selected_ren <= 1'b0;
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        else if (axird_ren)   readback_selected_ren <= readback_selected;
        
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        if      (arst)        readback_selected_regen <= 1'b0;
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        else if (axird_regen) readback_selected_regen <= readback_selected_ren;

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        if      (arst)        mcntrl_axird_selected_ren <= 1'b0;
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        else if (axird_ren)   mcntrl_axird_selected_ren <=  mcntrl_axird_selected;
        
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        if      (arst)        mcntrl_axird_selected_regen <= 1'b0;
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        else if (axird_regen) mcntrl_axird_selected_regen <= mcntrl_axird_selected_ren;
    end
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    always @(posedge comb_rst or posedge axi_aclk) begin 
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        if (comb_rst) axi_rst_pre <= 1'b1;
        else          axi_rst_pre <= 1'b0;
    end
     

`ifdef DEBUG_FIFO
        wire    waddr_under, wdata_under, wresp_under; 
        wire    waddr_over, wdata_over, wresp_over;
        reg     waddr_under_r, wdata_under_r, wresp_under_r;
        reg     waddr_over_r, wdata_over_r, wresp_over_r;
        wire    fifo_rst= frst[2];
        wire [3:0]   waddr_wcount; 
        wire [3:0]   waddr_rcount; 
        wire [3:0]   waddr_num_in_fifo; 
        
        wire [3:0]   wdata_wcount; 
        wire [3:0]   wdata_rcount; 
        wire [3:0]   wdata_num_in_fifo; 
        
        wire [3:0]   wresp_wcount; 
        wire [3:0]   wresp_rcount; 
        wire [3:0]   wresp_num_in_fifo; 
        wire [3:0]   wleft;
        wire [3:0]   wlength; // output[3:0] 
        wire [3:0]   wlen_in_dbg; // output[3:0] reg 
        
           
    always @(posedge fifo_rst or posedge axi_aclk) begin
     if (fifo_rst) {waddr_under_r, wdata_under_r, wresp_under_r,waddr_over_r, wdata_over_r, wresp_over_r} <= 0;
     else {waddr_under_r, wdata_under_r, wresp_under_r, waddr_over_r, wdata_over_r, wresp_over_r} <=
          {waddr_under_r, wdata_under_r, wresp_under_r, waddr_over_r, wdata_over_r, wresp_over_r} | 
          {waddr_under,   wdata_under,   wresp_under,   waddr_over,   wdata_over,   wresp_over};
    end         
`endif

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// Checking if global axi_grst is not needed anymore:
//BUFG bufg_axi_rst_i   (.O(axi_grst),.I(axi_rst_pre)); // will go only to memory controller (to minimize changes), later - remove from there too
assign axi_grst = axi_rst_pre;

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// channel test module
    mcntrl393_test01 #(
        .MCNTRL_TEST01_ADDR                 (MCNTRL_TEST01_ADDR),
        .MCNTRL_TEST01_MASK                 (MCNTRL_TEST01_MASK),
        .FRAME_HEIGHT_BITS                  (FRAME_HEIGHT_BITS),
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        .MCNTRL_TEST01_CHN1_MODE            (MCNTRL_TEST01_CHN1_MODE),
        .MCNTRL_TEST01_CHN1_STATUS_CNTRL    (MCNTRL_TEST01_CHN1_STATUS_CNTRL),
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        .MCNTRL_TEST01_CHN2_MODE            (MCNTRL_TEST01_CHN2_MODE),
        .MCNTRL_TEST01_CHN2_STATUS_CNTRL    (MCNTRL_TEST01_CHN2_STATUS_CNTRL),
        .MCNTRL_TEST01_CHN3_MODE            (MCNTRL_TEST01_CHN3_MODE),
        .MCNTRL_TEST01_CHN3_STATUS_CNTRL    (MCNTRL_TEST01_CHN3_STATUS_CNTRL),
        .MCNTRL_TEST01_CHN4_MODE            (MCNTRL_TEST01_CHN4_MODE),
        .MCNTRL_TEST01_CHN4_STATUS_CNTRL    (MCNTRL_TEST01_CHN4_STATUS_CNTRL),
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        .MCNTRL_TEST01_STATUS_REG_CHN1_ADDR (MCNTRL_TEST01_STATUS_REG_CHN1_ADDR),
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        .MCNTRL_TEST01_STATUS_REG_CHN2_ADDR (MCNTRL_TEST01_STATUS_REG_CHN2_ADDR),
        .MCNTRL_TEST01_STATUS_REG_CHN3_ADDR (MCNTRL_TEST01_STATUS_REG_CHN3_ADDR),
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        .MCNTRL_TEST01_STATUS_REG_CHN4_ADDR (MCNTRL_TEST01_STATUS_REG_CHN4_ADDR)
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    ) mcntrl393_test01_i (
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        .mrst                 (mrst),                 // input
        .mclk                 (mclk),                 // input
        .cmd_ad               (cmd_test01_ad),        // input[7:0] 
        .cmd_stb              (cmd_test01_stb),       // input
        .status_ad            (status_test01_ad),     // output[7:0] 
        .status_rq            (status_test01_rq),     // output
        .status_start         (status_test01_start),  // input
        .frame_start_chn1     (),                     //frame_start_chn1), // output
        .next_page_chn1       (),                     //next_page_chn1), // output
        .page_ready_chn1      (1'b0),                 // page_ready_chn1), // input
        .frame_done_chn1      (1'b0),                 //frame_done_chn1), // input
        .line_unfinished_chn1 (16'b0),                //line_unfinished_chn1), // input[15:0] 
        .suspend_chn1         (),                     //suspend_chn1), // output
        .frame_start_chn2     (frame_start_chn2),     // output
        .next_page_chn2       (next_page_chn2),       // output
        .page_ready_chn2      (page_ready_chn2),      // input
        .frame_done_chn2      (frame_done_chn2),      // input
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        .line_unfinished_chn2 (line_unfinished_chn2), // input[15:0] 
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        .suspend_chn2         (suspend_chn2),         // output
        .frame_start_chn3     (frame_start_chn3),     // output
        .next_page_chn3       (next_page_chn3),       // output
        .page_ready_chn3      (page_ready_chn3),      // input
        .frame_done_chn3      (frame_done_chn3),      // input
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        .line_unfinished_chn3 (line_unfinished_chn3), // input[15:0] 
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        .suspend_chn3         (suspend_chn3),         // output
        .frame_start_chn4     (frame_start_chn4),     // output
        .next_page_chn4       (next_page_chn4),       // output
        .page_ready_chn4      (page_ready_chn4),      // input
        .frame_done_chn4      (frame_done_chn4),      // input
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        .line_unfinished_chn4 (line_unfinished_chn4), // input[15:0] 
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        .suspend_chn4         (suspend_chn4)          // output
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    );

// Interface to channels to read/write memory (including 4 page BRAM buffers)
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// TODO:increase depth, number of NUM_CYCLES - twice?
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    cmd_mux #(
        .AXI_WR_ADDR_BITS  (AXI_WR_ADDR_BITS),
        .CONTROL_ADDR      (CONTROL_ADDR),
        .CONTROL_ADDR_MASK (CONTROL_ADDR_MASK),
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// TODO: Put correct numcycles!        
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        .NUM_CYCLES_LOW_BIT(NUM_CYCLES_LOW_BIT),
        .NUM_CYCLES_00     (NUM_CYCLES_00),
        .NUM_CYCLES_01     (NUM_CYCLES_01),
        .NUM_CYCLES_02     (NUM_CYCLES_02),
        .NUM_CYCLES_03     (NUM_CYCLES_03),
        .NUM_CYCLES_04     (NUM_CYCLES_04),
        .NUM_CYCLES_05     (NUM_CYCLES_05),
        .NUM_CYCLES_06     (NUM_CYCLES_06),
        .NUM_CYCLES_07     (NUM_CYCLES_07),
        .NUM_CYCLES_08     (NUM_CYCLES_08),
        .NUM_CYCLES_09     (NUM_CYCLES_09),
        .NUM_CYCLES_10     (NUM_CYCLES_10),
        .NUM_CYCLES_11     (NUM_CYCLES_11),
        .NUM_CYCLES_12     (NUM_CYCLES_12),
        .NUM_CYCLES_13     (NUM_CYCLES_13),
        .NUM_CYCLES_14     (NUM_CYCLES_14),
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        .NUM_CYCLES_15     (NUM_CYCLES_15),
        .NUM_CYCLES_16     (NUM_CYCLES_16),
        .NUM_CYCLES_17     (NUM_CYCLES_17),
        .NUM_CYCLES_18     (NUM_CYCLES_18),
        .NUM_CYCLES_19     (NUM_CYCLES_19),
        .NUM_CYCLES_20     (NUM_CYCLES_20),
        .NUM_CYCLES_21     (NUM_CYCLES_21),
        .NUM_CYCLES_22     (NUM_CYCLES_22),
        .NUM_CYCLES_23     (NUM_CYCLES_23),
        .NUM_CYCLES_24     (NUM_CYCLES_24),
        .NUM_CYCLES_25     (NUM_CYCLES_25),
        .NUM_CYCLES_26     (NUM_CYCLES_26),
        .NUM_CYCLES_27     (NUM_CYCLES_27),
        .NUM_CYCLES_28     (NUM_CYCLES_28),
        .NUM_CYCLES_29     (NUM_CYCLES_29),
        .NUM_CYCLES_30     (NUM_CYCLES_30),
        .NUM_CYCLES_31     (NUM_CYCLES_31)
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    ) cmd_mux_i ( // SuppressThisWarning ISExst: Output port <par_data>,<par_waddr>, <cseq_ackn> of the instance <cmd_mux_i> is unconnected or connected to loadless signal.
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        .axi_clk      (axiwr_wclk), // input
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        .mclk         (mclk), // input
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        .mrst         (mrst), // input
        .arst         (arst), // input
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        .pre_waddr    (axiwr_pre_awaddr[AXI_WR_ADDR_BITS-1:0]), // input[12:0] // SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #cmd_mux_i:pre_waddr[9:0] to constant 0
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        .start_wburst (axiwr_start_burst), // input
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        .waddr        (axiwr_waddr[AXI_WR_ADDR_BITS-1:0]), // input[12:0] 
        .wr_en        (axiwr_wen), // input
        .wdata        (axiwr_wdata[31:0]), // input[31:0] 
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        .busy         (axiwr_dev_busy), // output // assign axiwr_dev_ready = ~axiwr_dev_busy; //may combine (AND) multiple sources if needed
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//TODO: The following is the interface to the command sequencer       
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        .cseq_waddr   (cseq_waddr), // input[12:0] // SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #cmd_mux_i:cseq_waddr[13:0] to constant 0 (command sequencer not yet implemented)
        .cseq_wr_en   (cseq_wr_en), // input // SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #cmd_mux_i:cseq_wr_en to constant 0 (command sequencer not yet implemented)
        .cseq_wdata   (cseq_wdata), // input[31:0] // SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #cmd_mux_i:cseq_wdata[31:0] to constant 0 (command sequencer not yet implemented)
        .cseq_ackn    (cseq_ackn), // output // SuppressThisWarning ISExst: Assignment to cseq_ackn ignored, since the identifier is never used (command sequencer not yet implemented)
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// parallel address/data - where higher bandwidth (single-cycle) is needed        
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        .par_waddr    (par_waddr), // output[12:0] // SuppressThisWarning ISExst: Assignment to par_waddr ignored, since the identifier is never used (not yet used)
        .par_data     (par_data), // output[31:0] // SuppressThisWarning ISExst: Assignment to par_data ignored, since the identifier is never used (not yet used)
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        // registers may be inserted before byte_ad and ad_stb  
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        .byte_ad      (cmd_root_ad), // output[7:0] 
        .ad_stb       (cmd_root_stb) // output
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    );
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    generate
        genvar i;
            for (i = 0; i < 4; i = i+1) begin: frame_sequencer_block
            cmd_frame_sequencer #(
                .CMDFRAMESEQ_ADDR     (CMDFRAMESEQ_ADDR_BASE + i * CMDFRAMESEQ_ADDR_INC),
                .CMDFRAMESEQ_MASK     (CMDFRAMESEQ_MASK),
                .AXI_WR_ADDR_BITS     (AXI_WR_ADDR_BITS),
                .CMDFRAMESEQ_DEPTH    (CMDFRAMESEQ_DEPTH),
                .CMDFRAMESEQ_ABS      (CMDFRAMESEQ_ABS),
                .CMDFRAMESEQ_REL      (CMDFRAMESEQ_REL),
                .CMDFRAMESEQ_CTRL     (CMDFRAMESEQ_CTRL),
                .CMDFRAMESEQ_RST_BIT  (CMDFRAMESEQ_RST_BIT),
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                .CMDFRAMESEQ_RUN_BIT  (CMDFRAMESEQ_RUN_BIT),
                .CMDFRAMESEQ_IRQ_BIT  (CMDFRAMESEQ_IRQ_BIT)
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            ) cmd_frame_sequencer_i (
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                .mrst        (mrst),                       // input
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                .mclk        (mclk),                       // input
                .cmd_ad      (cmd_sequencer_ad),           // input[7:0] 
                .cmd_stb     (cmd_sequencer_stb),          // input
                .frame_sync  (sof_out_mclk[i]),            // input
                .frame_no    (frame_num[i * NUM_FRAME_BITS +: NUM_FRAME_BITS]), // output[3:0] 
                .waddr       (frseq_waddr[i * AXI_WR_ADDR_BITS +: AXI_WR_ADDR_BITS]), // output[13:0] 
                .valid       (frseq_valid[i]),             // output
                .wdata       (frseq_wdata[i * 32 +: 32]),  // output[31:0] 
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                .ackn        (frseq_ackn[i]),              // input
                .is          (frseq_is[i]),                // output
                .im          (frseq_im[i])                 // output
                
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            );
        end
    endgenerate

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    frame_num_sync #(
        .NUM_FRAME_BITS(NUM_FRAME_BITS),
        .LAST_FRAME_BITS(LAST_FRAME_BITS),
        .FRAME_BITS_KEEP(NUM_FRAME_BITS)
    ) frame_num_sync_i (
        .mrst                     (mrst),                        // input
        .mclk                     (mclk),                        // input
        .absolute_frames          (frame_num),                   // input[15:0] 
        .first_wr_in_frame        (sens_first_wr_in_frame),      // input[3:0] 
//        .first_rd_in_frame        (), // input[3:0] 
        .memory_frames_sensor     (cmprs_frame_number_src),      // input[63:0] 
        .memory_frames_compressor (cmprs_frame_number_finished), // input[63:0] 
        .compressed_frames        (frame_num_compressed)         // output[15:0] 
    );


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    cmd_seq_mux #(
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        .CMDSEQMUX_ADDR      (CMDSEQMUX_ADDR),
        .CMDSEQMUX_MASK      (CMDSEQMUX_MASK),
        .CMDSEQMUX_STATUS    (CMDSEQMUX_STATUS),
        .AXI_WR_ADDR_BITS    (AXI_WR_ADDR_BITS)
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    ) cmd_seq_mux_i (
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        .mrst         (mrst),                               // input
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        .mclk         (mclk),                               // input
        .cmd_ad       (cmd_sequencer_ad),                   // input[7:0] 
        .cmd_stb      (cmd_sequencer_stb),                  // input
        .status_ad    (status_sequencer_ad),                // output[7:0] 
        .status_rq    (status_sequencer_rq),                // output
        .status_start (status_sequencer_start),             // input
        
        .frame_num0   (frame_num[0 * NUM_FRAME_BITS +: 4]), // input[3:0] Use 4 bits even if NUM_FRAME_BITS > 4
        .waddr0       (frseq_waddr[0 * AXI_WR_ADDR_BITS +: AXI_WR_ADDR_BITS]), // input[13:0] 
        .wr_en0       (frseq_valid[0]),                     // input
        .wdata0       (frseq_wdata[0 * 32 +: 32]),          // input[31:0] 
        .ackn0        (frseq_ackn[0]),                      // output
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        .is0          (frseq_is[0]),                        // input
        .im0          (frseq_im[0]),                        // input
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        .frame_num1   (frame_num[1 * NUM_FRAME_BITS +: 4]), // input[3:0] Use 4 bits even if NUM_FRAME_BITS > 4
        .waddr1       (frseq_waddr[1 * AXI_WR_ADDR_BITS +: AXI_WR_ADDR_BITS]), // input[13:0] 
        .wr_en1       (frseq_valid[1]),                     // input
        .wdata1       (frseq_wdata[1 * 32 +: 32]),          // input[31:0] 
        .ackn1        (frseq_ackn[1]),                      // output
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        .is1          (frseq_is[1]),                        // input
        .im1          (frseq_im[1]),                        // input
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        .frame_num2   (frame_num[2 * NUM_FRAME_BITS +: 4]), // input[3:0] Use 4 bits even if NUM_FRAME_BITS > 4
        .waddr2       (frseq_waddr[2 * AXI_WR_ADDR_BITS +: AXI_WR_ADDR_BITS]), // input[13:0] 
        .wr_en2       (frseq_valid[2]),                     // input
        .wdata2       (frseq_wdata[2 * 32 +: 32]),          // input[31:0] 
        .ackn2        (frseq_ackn[2]),                      // output
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        .is2          (frseq_is[2]),                        // input
        .im2          (frseq_im[2]),                        // input
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        .frame_num3   (frame_num[3 * NUM_FRAME_BITS +: 4]), // input[3:0] Use 4 bits even if NUM_FRAME_BITS > 4
        .waddr3       (frseq_waddr[3 * AXI_WR_ADDR_BITS +: AXI_WR_ADDR_BITS]), // input[13:0] 
        .wr_en3       (frseq_valid[3]),                     // input
        .wdata3       (frseq_wdata[3 * 32 +: 32]),          // input[31:0] 
        .ackn3        (frseq_ackn[3]),                      // output
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        .is3          (frseq_is[3]),                        // input
        .im3          (frseq_im[3]),                        // input

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        .waddr_out    (cseq_waddr),                         // output[13:0] reg 
        .wr_en_out    (cseq_wr_en),                         // output
        .wdata_out    (cseq_wdata),                         // output[31:0] reg 
        .ackn_out     (cseq_ackn)                           // input
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    );
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    // Mirror control register data for readback (registers can be written both from the PS and from the command sequencer)
    cmd_readback #(
        .AXI_WR_ADDR_BITS        (AXI_WR_ADDR_BITS),
        .AXI_RD_ADDR_BITS        (AXI_RD_ADDR_BITS),
        .CONTROL_RBACK_DEPTH     (CONTROL_RBACK_DEPTH),
        .CONTROL_ADDR            (CONTROL_ADDR),
        .CONTROL_ADDR_MASK       (CONTROL_ADDR_MASK),
        .CONTROL_RBACK_ADDR      (CONTROL_RBACK_ADDR),
        .CONTROL_RBACK_ADDR_MASK (CONTROL_RBACK_ADDR_MASK)
    ) cmd_readback_i (
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        .mrst                    (mrst),                                 // input
        .arst                    (arst),                                 // input
        .mclk                    (mclk),                                 // input
        .axi_clk                 (axird_bram_rclk),                      // input
        .par_waddr               (par_waddr),                            // input[13:0] 
        .par_data                (par_data),                             // input[31:0] 
        .ad_stb                  (cmd_root_stb),                         // input
        .axird_pre_araddr        (axird_pre_araddr),                     // input[13:0] 
        .axird_start_burst       (axird_start_burst),                    // input
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        .axird_raddr             (axird_raddr[CONTROL_RBACK_DEPTH-1:0]), // input[9:0] 
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        .axird_ren               (axird_ren),                            // input
        .axird_rdata             (readback_rdata),                       // output[31:0] 
        .axird_selected          (readback_selected)                     // output
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    );
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    status_read #(
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        .STATUS_ADDR      (STATUS_ADDR),
        .STATUS_ADDR_MASK (STATUS_ADDR_MASK),
        .AXI_RD_ADDR_BITS (AXI_RD_ADDR_BITS),
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        .STATUS_DEPTH     (STATUS_DEPTH),
        .FPGA_VERSION     (FPGA_VERSION)
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    ) status_read_i (
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        .mrst             (mrst),                          // input
        .arst             (arst),                          // input
        .clk              (mclk),                          // input
        .axi_clk          (axird_bram_rclk),               // input == axi_aclk
        .axird_pre_araddr (axird_pre_araddr),              // input[7:0] // SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #status_read_i:axird_pre_araddr[9:0] to constant 0
        .axird_start_burst(axird_start_burst),             // input
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        .axird_raddr      (axird_raddr[STATUS_DEPTH-1:0]), // input[7:0] 
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        .axird_ren        (axird_ren),                     // input
        .axird_regen      (axird_regen),                   // input
        .axird_rdata      (status_rdata),                  // output[31:0] 
        .axird_selected   (status_selected),               // output
        .ad               (status_root_ad),                // input[7:0] 
        .rq               (status_root_rq),                // input
        .start            (status_root_start)              // output
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    );

// mux status info from the memory controller and other modules    
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    status_router16 status_router16_top_i (
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        .rst       (1'b0),                    //axi_rst), // input
        .clk       (mclk),                    // input
        .srst      (mrst),                    // input
        .db_in0    (status_mcontr_ad),        // input[7:0] 
        .rq_in0    (status_mcontr_rq),        // input
        .start_in0 (status_mcontr_start),     // output
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        .db_in1    (status_test01_ad),        // input[7:0] 
        .rq_in1    (status_test01_rq),        // input
        .start_in1 (status_test01_start),     // output
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        .db_in2    (status_membridge_ad),     // input[7:0] 
        .rq_in2    (status_membridge_rq),     // input
        .start_in2 (status_membridge_start),  // output
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        .db_in3    (status_sensor_ad),        // input[7:0] 
        .rq_in3    (status_sensor_rq),        // input
        .start_in3 (status_sensor_start),     // output
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        .db_in4    (status_compressor_ad),    // input[7:0] 
        .rq_in4    (status_compressor_rq),    // input
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        .start_in4 (status_compressor_start), // output
        
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        .db_in5    (status_sequencer_ad),     // input[7:0] 
        .rq_in5    (status_sequencer_rq),     // input
        .start_in5 (status_sequencer_start),  // output
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        .db_in6    (status_logger_ad),        // input[7:0] 
        .rq_in6    (status_logger_rq),        // input
        .start_in6 (status_logger_start),     // output
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        .db_in7    (status_timing_ad),        // input[7:0] 
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        .rq_in7    (status_timing_rq),        // input
        .start_in7 (status_timing_start),     // output
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        .db_in8    (status_gpio_ad),          // input[7:0] 
        .rq_in8    (status_gpio_rq),          // input
        .start_in8 (status_gpio_start),       // output
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        .db_in9    (status_saxi1wr_ad),       // input[7:0] 
        .rq_in9    (status_saxi1wr_rq),       // input
        .start_in9 (status_saxi1wr_start),    // output
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        .db_in10   (status_clocks_ad),        // input[7:0] 
        .rq_in10   (status_clocks_rq),        // input
        .start_in10(status_clocks_start),     // output
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`ifdef DEBUG_RING
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        .db_in11   (status_debug_ad),         // input[7:0] 
        .rq_in11   (status_debug_rq),         // input
        .start_in11(status_debug_start),      // output
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`else
        .db_in11   (8'b0),                    // input[7:0] 
        .rq_in11   (1'b0),                    // input
        .start_in11(),                        // output
`endif        
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        .db_in12   (8'b0),                    // input[7:0] 
        .rq_in12   (1'b0),                    // input
        .start_in12(),                        // output
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        .db_in13   (8'b0),                    // input[7:0] 
        .rq_in13   (1'b0),                    // input
        .start_in13(),                        // output
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        .db_in14   (8'b0),                    // input[7:0] 
        .rq_in14   (1'b0),                    // input
        .start_in14(),                        // output
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        .db_in15   (8'b0),                    // input[7:0] 
        .rq_in15   (1'b0),                    // input
        .start_in15(),                        // output
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        .db_out    (status_root_ad),          // output[7:0] 
        .rq_out    (status_root_rq),          // output
        .start_out (status_root_start)        // input
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    );
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    mcntrl393 #(
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        .MCONTR_SENS_BASE                  (MCONTR_SENS_BASE),
        .MCONTR_SENS_INC                   (MCONTR_SENS_INC),
        .MCONTR_CMPRS_BASE                 (MCONTR_CMPRS_BASE),
        .MCONTR_CMPRS_INC                  (MCONTR_CMPRS_INC),
        .MCONTR_SENS_STATUS_BASE           (MCONTR_SENS_STATUS_BASE),
        .MCONTR_SENS_STATUS_INC            (MCONTR_SENS_STATUS_INC),
        .MCONTR_CMPRS_STATUS_BASE          (MCONTR_CMPRS_STATUS_BASE),
        .MCONTR_CMPRS_STATUS_INC           (MCONTR_CMPRS_STATUS_INC),
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        .MCONTR_WR_MASK                    (MCONTR_WR_MASK),
        .MCONTR_RD_MASK                    (MCONTR_RD_MASK),
        .MCONTR_CMD_WR_ADDR                (MCONTR_CMD_WR_ADDR),
        .MCONTR_BUF0_RD_ADDR               (MCONTR_BUF0_RD_ADDR),
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        .MCONTR_BUF0_WR_ADDR               (MCONTR_BUF0_WR_ADDR),
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        .MCONTR_BUF2_RD_ADDR               (MCONTR_BUF2_RD_ADDR),
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        .MCONTR_BUF2_WR_ADDR               (MCONTR_BUF2_WR_ADDR),
        .MCONTR_BUF3_RD_ADDR               (MCONTR_BUF3_RD_ADDR),
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        .MCONTR_BUF3_WR_ADDR               (MCONTR_BUF3_WR_ADDR),
        .MCONTR_BUF4_RD_ADDR               (MCONTR_BUF4_RD_ADDR),
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        .MCONTR_BUF4_WR_ADDR               (MCONTR_BUF4_WR_ADDR),
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        .AXI_WR_ADDR_BITS                  (AXI_WR_ADDR_BITS),
        .AXI_RD_ADDR_BITS                  (AXI_RD_ADDR_BITS),
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        .DLY_LD                            (DLY_LD),
        .DLY_LD_MASK                       (DLY_LD_MASK),
        .MCONTR_PHY_0BIT_ADDR              (MCONTR_PHY_0BIT_ADDR),
        .MCONTR_PHY_0BIT_ADDR_MASK         (MCONTR_PHY_0BIT_ADDR_MASK),
        .MCONTR_PHY_0BIT_DLY_SET           (MCONTR_PHY_0BIT_DLY_SET),
        .MCONTR_PHY_0BIT_CMDA_EN           (MCONTR_PHY_0BIT_CMDA_EN),
        .MCONTR_PHY_0BIT_SDRST_ACT         (MCONTR_PHY_0BIT_SDRST_ACT),
        .MCONTR_PHY_0BIT_CKE_EN            (MCONTR_PHY_0BIT_CKE_EN),
        .MCONTR_PHY_0BIT_DCI_RST           (MCONTR_PHY_0BIT_DCI_RST),
        .MCONTR_PHY_0BIT_DLY_RST           (MCONTR_PHY_0BIT_DLY_RST),
        .MCONTR_TOP_0BIT_ADDR              (MCONTR_TOP_0BIT_ADDR),
        .MCONTR_TOP_0BIT_ADDR_MASK         (MCONTR_TOP_0BIT_ADDR_MASK),
        .MCONTR_TOP_0BIT_MCONTR_EN         (MCONTR_TOP_0BIT_MCONTR_EN),
        .MCONTR_TOP_0BIT_REFRESH_EN        (MCONTR_TOP_0BIT_REFRESH_EN),
        .MCONTR_PHY_16BIT_ADDR             (MCONTR_PHY_16BIT_ADDR),
        .MCONTR_PHY_16BIT_ADDR_MASK        (MCONTR_PHY_16BIT_ADDR_MASK),
        .MCONTR_PHY_16BIT_PATTERNS         (MCONTR_PHY_16BIT_PATTERNS),
        .MCONTR_PHY_16BIT_PATTERNS_TRI     (MCONTR_PHY_16BIT_PATTERNS_TRI),
        .MCONTR_PHY_16BIT_WBUF_DELAY       (MCONTR_PHY_16BIT_WBUF_DELAY),
        .MCONTR_PHY_16BIT_EXTRA            (MCONTR_PHY_16BIT_EXTRA),
        .MCONTR_PHY_STATUS_CNTRL           (MCONTR_PHY_STATUS_CNTRL),
        .MCONTR_ARBIT_ADDR                 (MCONTR_ARBIT_ADDR),
        .MCONTR_ARBIT_ADDR_MASK            (MCONTR_ARBIT_ADDR_MASK),
        .MCONTR_TOP_16BIT_ADDR             (MCONTR_TOP_16BIT_ADDR),
        .MCONTR_TOP_16BIT_ADDR_MASK        (MCONTR_TOP_16BIT_ADDR_MASK),
        .MCONTR_TOP_16BIT_CHN_EN           (MCONTR_TOP_16BIT_CHN_EN),
        .MCONTR_TOP_16BIT_REFRESH_PERIOD   (MCONTR_TOP_16BIT_REFRESH_PERIOD),
        .MCONTR_TOP_16BIT_REFRESH_ADDRESS  (MCONTR_TOP_16BIT_REFRESH_ADDRESS),
        .MCONTR_TOP_16BIT_STATUS_CNTRL     (MCONTR_TOP_16BIT_STATUS_CNTRL),
        .MCONTR_PHY_STATUS_REG_ADDR        (MCONTR_PHY_STATUS_REG_ADDR),
        .MCONTR_TOP_STATUS_REG_ADDR        (MCONTR_TOP_STATUS_REG_ADDR),
        .CHNBUF_READ_LATENCY               (CHNBUF_READ_LATENCY),
        .DFLT_DQS_PATTERN                  (DFLT_DQS_PATTERN),
        .DFLT_DQM_PATTERN                  (DFLT_DQM_PATTERN),
        .DFLT_DQ_TRI_ON_PATTERN            (DFLT_DQ_TRI_ON_PATTERN),
        .DFLT_DQ_TRI_OFF_PATTERN           (DFLT_DQ_TRI_OFF_PATTERN),
        .DFLT_DQS_TRI_ON_PATTERN           (DFLT_DQS_TRI_ON_PATTERN),
        .DFLT_DQS_TRI_OFF_PATTERN          (DFLT_DQS_TRI_OFF_PATTERN),
        .DFLT_WBUF_DELAY                   (DFLT_WBUF_DELAY),
        .DFLT_INV_CLK_DIV                  (DFLT_INV_CLK_DIV),
        .DFLT_CHN_EN                       (DFLT_CHN_EN),
        .DFLT_REFRESH_ADDR                 (DFLT_REFRESH_ADDR),
        .DFLT_REFRESH_PERIOD               (DFLT_REFRESH_PERIOD),
        .ADDRESS_NUMBER                    (ADDRESS_NUMBER),
        .COLADDR_NUMBER                    (COLADDR_NUMBER),
        .PHASE_WIDTH                       (PHASE_WIDTH),
        .SLEW_DQ                           (SLEW_DQ),
        .SLEW_DQS                          (SLEW_DQS),
        .SLEW_CMDA                         (SLEW_CMDA),
        .SLEW_CLK                          (SLEW_CLK),
        .IBUF_LOW_PWR                      (IBUF_LOW_PWR),
        .REFCLK_FREQUENCY                  (REFCLK_FREQUENCY),
        .HIGH_PERFORMANCE_MODE             (HIGH_PERFORMANCE_MODE),
        .CLKIN_PERIOD                      (CLKIN_PERIOD),
        .CLKFBOUT_MULT                     (CLKFBOUT_MULT),
        .DIVCLK_DIVIDE                     (DIVCLK_DIVIDE),
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        .CLKFBOUT_USE_FINE_PS              (CLKFBOUT_USE_FINE_PS),
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        .CLKFBOUT_PHASE                    (CLKFBOUT_PHASE),
        .SDCLK_PHASE                       (SDCLK_PHASE),
        .CLK_PHASE                         (CLK_PHASE),
        .CLK_DIV_PHASE                     (CLK_DIV_PHASE),
        .MCLK_PHASE                        (MCLK_PHASE),
        .REF_JITTER1                       (REF_JITTER1),
        .SS_EN                             (SS_EN),
        .SS_MODE                           (SS_MODE),
        .SS_MOD_PERIOD                     (SS_MOD_PERIOD),
        .CMD_PAUSE_BITS                    (CMD_PAUSE_BITS),
        .CMD_DONE_BIT                      (CMD_DONE_BIT),
        
        .MCNTRL_PS_ADDR                    (MCNTRL_PS_ADDR),
        .MCNTRL_PS_MASK                    (MCNTRL_PS_MASK),
        .MCNTRL_PS_STATUS_REG_ADDR         (MCNTRL_PS_STATUS_REG_ADDR),
        .MCNTRL_PS_EN_RST                  (MCNTRL_PS_EN_RST),
        .MCNTRL_PS_CMD                     (MCNTRL_PS_CMD),
        .MCNTRL_PS_STATUS_CNTRL            (MCNTRL_PS_STATUS_CNTRL),
        .NUM_XFER_BITS                     (NUM_XFER_BITS),
        .FRAME_WIDTH_BITS                  (FRAME_WIDTH_BITS),
        .FRAME_HEIGHT_BITS                 (FRAME_HEIGHT_BITS),
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        .LAST_FRAME_BITS                   (LAST_FRAME_BITS),
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        .MCNTRL_SCANLINE_CHN1_ADDR         (MCNTRL_SCANLINE_CHN1_ADDR),
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        .MCNTRL_SCANLINE_CHN3_ADDR         (MCNTRL_SCANLINE_CHN3_ADDR),
        .MCNTRL_SCANLINE_MASK              (MCNTRL_SCANLINE_MASK),
        .MCNTRL_SCANLINE_MODE              (MCNTRL_SCANLINE_MODE),
        .MCNTRL_SCANLINE_STATUS_CNTRL      (MCNTRL_SCANLINE_STATUS_CNTRL),
        .MCNTRL_SCANLINE_STARTADDR         (MCNTRL_SCANLINE_STARTADDR),
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        .MCNTRL_SCANLINE_FRAME_SIZE        (MCNTRL_SCANLINE_FRAME_SIZE),
        .MCNTRL_SCANLINE_FRAME_LAST        (MCNTRL_SCANLINE_FRAME_LAST),
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        .MCNTRL_SCANLINE_FRAME_FULL_WIDTH  (MCNTRL_SCANLINE_FRAME_FULL_WIDTH),
        .MCNTRL_SCANLINE_WINDOW_WH         (MCNTRL_SCANLINE_WINDOW_WH),
        .MCNTRL_SCANLINE_WINDOW_X0Y0       (MCNTRL_SCANLINE_WINDOW_X0Y0),
        .MCNTRL_SCANLINE_WINDOW_STARTXY    (MCNTRL_SCANLINE_WINDOW_STARTXY),
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        .MCNTRL_SCANLINE_STATUS_REG_CHN1_ADDR   (MCNTRL_SCANLINE_STATUS_REG_CHN1_ADDR),
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        .MCNTRL_SCANLINE_STATUS_REG_CHN3_ADDR   (MCNTRL_SCANLINE_STATUS_REG_CHN3_ADDR),
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        .MCNTRL_SCANLINE_PENDING_CNTR_BITS (MCNTRL_SCANLINE_PENDING_CNTR_BITS),
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        .MCNTRL_SCANLINE_FRAME_PAGE_RESET  (MCNTRL_SCANLINE_FRAME_PAGE_RESET),
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        .MAX_TILE_WIDTH                    (MAX_TILE_WIDTH),
        .MAX_TILE_HEIGHT                   (MAX_TILE_HEIGHT),
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        .MCNTRL_TILED_CHN2_ADDR            (MCNTRL_TILED_CHN2_ADDR),
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        .MCNTRL_TILED_CHN4_ADDR            (MCNTRL_TILED_CHN4_ADDR),
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        .MCNTRL_TILED_MASK                 (MCNTRL_TILED_MASK),
        .MCNTRL_TILED_MODE                 (MCNTRL_TILED_MODE),
        .MCNTRL_TILED_STATUS_CNTRL         (MCNTRL_TILED_STATUS_CNTRL),
        .MCNTRL_TILED_STARTADDR            (MCNTRL_TILED_STARTADDR),
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        .MCNTRL_TILED_FRAME_SIZE           (MCNTRL_TILED_FRAME_SIZE),
        .MCNTRL_TILED_FRAME_LAST           (MCNTRL_TILED_FRAME_LAST),
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        .MCNTRL_TILED_FRAME_FULL_WIDTH     (MCNTRL_TILED_FRAME_FULL_WIDTH),
        .MCNTRL_TILED_WINDOW_WH            (MCNTRL_TILED_WINDOW_WH),
        .MCNTRL_TILED_WINDOW_X0Y0          (MCNTRL_TILED_WINDOW_X0Y0),
        .MCNTRL_TILED_WINDOW_STARTXY       (MCNTRL_TILED_WINDOW_STARTXY),
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        .MCNTRL_TILED_TILE_WHS             (MCNTRL_TILED_TILE_WHS),
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        .MCNTRL_TILED_STATUS_REG_CHN2_ADDR (MCNTRL_TILED_STATUS_REG_CHN2_ADDR),
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        .MCNTRL_TILED_STATUS_REG_CHN4_ADDR (MCNTRL_TILED_STATUS_REG_CHN4_ADDR),
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        .MCNTRL_TILED_PENDING_CNTR_BITS    (MCNTRL_TILED_PENDING_CNTR_BITS),
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        .MCNTRL_TILED_FRAME_PAGE_RESET     (MCNTRL_TILED_FRAME_PAGE_RESET),
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        .MCONTR_LINTILE_NRESET             (MCONTR_LINTILE_NRESET),
        .MCONTR_LINTILE_EN                 (MCONTR_LINTILE_EN),
        .MCONTR_LINTILE_WRITE              (MCONTR_LINTILE_WRITE),
        .MCONTR_LINTILE_EXTRAPG            (MCONTR_LINTILE_EXTRAPG),
        .MCONTR_LINTILE_EXTRAPG_BITS       (MCONTR_LINTILE_EXTRAPG_BITS),
        .MCONTR_LINTILE_KEEP_OPEN          (MCONTR_LINTILE_KEEP_OPEN),
        .MCONTR_LINTILE_BYTE32             (MCONTR_LINTILE_BYTE32),
        .MCONTR_LINTILE_RST_FRAME          (MCONTR_LINTILE_RST_FRAME),
        .MCONTR_LINTILE_SINGLE             (MCONTR_LINTILE_SINGLE),
        .MCONTR_LINTILE_REPEAT             (MCONTR_LINTILE_REPEAT),
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        .MCONTR_LINTILE_DIS_NEED           (MCONTR_LINTILE_DIS_NEED),
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        .MCONTR_LINTILE_SKIP_LATE          (MCONTR_LINTILE_SKIP_LATE),
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        .BUFFER_DEPTH32                    (BUFFER_DEPTH32),
        .RSEL                              (RSEL),
        .WSEL                              (WSEL)
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    ) mcntrl393_i (
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        .rst_in                    (axi_grst), // input global reset, but does not need to be global
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        .clk_in                    (axi_aclk), // == axird_bram_rclk SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #mcntrl393_i:clk_in to constant 0
        .mclk                      (mclk), // output
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        .mrst                      (mrst),
        .locked                    (mcntrl_locked), // to generate sync reset
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        .ref_clk                   (ref_clk), // input
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        .idelay_ctrl_reset         (idelay_ctrl_reset), // output
        
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        .cmd_ad                    (cmd_mcontr_ad), // input[7:0] 
        .cmd_stb                   (cmd_mcontr_stb), // input
        .status_ad                 (status_mcontr_ad[7:0]), // output[7:0]
        .status_rq                 (status_mcontr_rq),   // input request to send status downstream
        .status_start              (status_mcontr_start), // Acknowledge of the first status packet byte (address)
        
        .axi_clk                   (axird_bram_rclk), // ==axi_aclk, // input - same?
        .axiwr_pre_awaddr          (axiwr_pre_awaddr), // input[12:0] // SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #mcntrl393_i:axiwr_pre_awaddr[9:0] to constant 0
        .axiwr_start_burst         (axiwr_start_burst), // input
        .axiwr_waddr               (axiwr_waddr[BUFFER_DEPTH32-1:0]), // input[9:0] 
        .axiwr_wen                 (axiwr_wen), // input
        .axiwr_data                (axiwr_wdata), // input[31:0] 
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        .axird_pre_araddr          (axird_pre_araddr), // input[12:0] // SuppressThisWarning VivadoSynthesis: [Synth 8-3295] tying undriven pin #mcntrl393_i:axird_pre_araddr[9:0] to constant 0 (seems to be unused, not undriven) 
        .axird_start_burst         (axird_start_burst), // input
        .axird_raddr               (axird_raddr[BUFFER_DEPTH32-1:0]), // input[9:0] 
        .axird_ren                 (axird_ren), // input
        .axird_regen               (axird_regen), // input
        .axird_rdata               (mcntrl_axird_rdata), // output[31:0]
        .axird_selected            (mcntrl_axird_selected), // output 

// sensors interface
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        .sens_sof                  (sof_out_mclk),               // input[3:0]  // Early start of frame pulses (@mclk)
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        .sens_rpage_set            (sens_rpage_set),             // output[3:0] 
        .sens_rpage_next           (sens_rpage_next),            // output[3:0] 
        .sens_buf_rd               (sens_buf_rd),                // output[3:0] 
        .sens_buf_dout             (sens_buf_dout),              // input[255:0] 
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        .sens_page_written         (sens_page_written),          // input [3:0] single mclk pulse: buffer page (full or partial) is written to the memory buffer 
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        .sens_xfer_skipped         (sens_xfer_skipped),          // output reg
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        .sens_first_wr_in_frame    (sens_first_wr_in_frame),     // single mclk pulse on first write block in each frame
        
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// compressor interface
        .cmprs_xfer_reset_page_rd  (cmprs_xfer_reset_page_rd),   // output[3:0] 
        .cmprs_buf_wpage_nxt       (cmprs_buf_wpage_nxt),        // output[3:0] 
        .cmprs_buf_we              (cmprs_buf_we),               // output[3:0] 
        .cmprs_buf_din             (cmprs_buf_din),              // output[255:0] 
        .cmprs_page_ready          (cmprs_page_ready),           // output[3:0] 
        .cmprs_next_page           (cmprs_next_page),            // input[3:0] 
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        .cmprs_first_rd_in_frame   (),                           // output[3:0] reg 
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        .cmprs_frame_start_dst     (cmprs_frame_start_dst),      // input[3:0] 
        .cmprs_line_unfinished_src (cmprs_line_unfinished_src),  // output[63:0] 
        .cmprs_frame_number_src    (cmprs_frame_number_src),     // output[63:0] 
        .cmprs_frame_done_src      (cmprs_frame_done_src),       // output[3:0] 
        .cmprs_line_unfinished_dst (cmprs_line_unfinished_dst),  // output[63:0] 
        .cmprs_frame_number_dst    (cmprs_frame_number_dst),     // output[63:0] 
        .cmprs_frame_done_dst      (cmprs_frame_done_dst),       // output[3:0] 
        .cmprs_suspend             (cmprs_suspend),              // input[3:0] 
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 // Originally implemented channels, some are just for testing and may be replaced        
        .frame_start_chn1          (frame_start_chn1),           // input
        .next_page_chn1            (next_page_chn1),             // input
        .cmd_wrmem_chn1            (cmd_wrmem_chn1),             // output
        .page_ready_chn1           (page_ready_chn1),            // output
        .frame_done_chn1           (frame_done_chn1),            // output
        .line_unfinished_chn1      (line_unfinished_chn1),       // output[15:0]
        .suspend_chn1              (suspend_chn1),               // input
        .xfer_reset_page1_rd       (xfer_reset_page1_rd),        // output
        .buf_wpage_nxt_chn1        (buf_wpage_nxt_chn1),         // output
        .buf_wr_chn1               (buf_wr_chn1),                // output
        .buf_wdata_chn1            (buf_wdata_chn1[63:0]),       // output[63:0] 
        .xfer_reset_page1_wr       (xfer_reset_page1_wr),        // output
        .rpage_nxt_chn1            (rpage_nxt_chn1),             // output
        .buf_rd_chn1               (buf_rd_chn1),                // output
        .buf_rdata_chn1            (buf_rdata_chn1[63:0]),       // input[63:0] 
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        .frame_start_chn2          (frame_start_chn2),           // input
        .next_page_chn2            (next_page_chn2),             // input
        .page_ready_chn2           (page_ready_chn2),            // output
        .frame_done_chn2           (frame_done_chn2),            // output
        .line_unfinished_chn2      (line_unfinished_chn2),       // output[15:0]
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        .frame_number_chn2         (), //frame_number_chn2),     // output[15:0]  
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        .suspend_chn2              (suspend_chn2),               // input
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        .frame_start_chn3          (frame_start_chn3),           // input
        .next_page_chn3            (next_page_chn3),             // input
        .page_ready_chn3           (page_ready_chn3),            // output
        .frame_done_chn3           (frame_done_chn3),            // output
        .line_unfinished_chn3      (line_unfinished_chn3),       // output[15:0] 
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        .frame_number_chn3         (), //frame_number_chn3),     // output[15:0]  
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        .suspend_chn3              (suspend_chn3),               // input
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        .frame_start_chn4          (frame_start_chn4),           // input
        .next_page_chn4            (next_page_chn4),             // input
        .page_ready_chn4           (page_ready_chn4),            // output
        .frame_done_chn4           (frame_done_chn4),            // output
        .line_unfinished_chn4      (line_unfinished_chn4),       // output[15:0]
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        .frame_number_chn4         (), //frame_number_chn4),     // output[15:0]  
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        .suspend_chn4              (suspend_chn4),               // input

        .SDRST                     (SDRST),                      // output
        .SDCLK                     (SDCLK),                      // output
        .SDNCLK                    (SDNCLK),                     // output
        .SDA                       (SDA),                        // output[14:0] 
        .SDBA                      (SDBA),                       // output[2:0] 
        .SDWE                      (SDWE),                       // output
        .SDRAS                     (SDRAS),                      // output
        .SDCAS                     (SDCAS),                      // output
        .SDCKE                     (SDCKE),                      // output
        .SDODT                     (SDODT),                      // output
        .SDD                       (SDD),                        // inout[15:0] 
        .SDDML                     (SDDML),                      // output
        .DQSL                      (DQSL),                       // inout
        .NDQSL                     (NDQSL),                      // inout
        .SDDMU                     (SDDMU),                      // output
        .DQSU                      (DQSU),                       // inout
        .NDQSU                     (NDQSU),                      // inout
        .tmp_debug                 (tmp_debug)                   // output[11:0] 
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    );
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    // AFI0 (AXI_HP0) signals
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    wire [31:0] afi0_awaddr;   // output[31:0]
    wire        afi0_awvalid;  // output
    wire        afi0_awready;     // input
    wire [ 5:0] afi0_awid;     // output[5:0] 
    wire [ 1:0] afi0_awlock;     // output[1:0] 
    wire [ 3:0] afi0_awcache;     // output[3:0] 
    wire [ 2:0] afi0_awprot;     // output[2:0] 
    wire [ 3:0] afi0_awlen;     // output[3:0] 
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    wire [ 1:0] afi0_awsize;     // output[2:0] 
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    wire [ 1:0] afi0_awburst;     // output[1:0] 
    wire [ 3:0] afi0_awqos;     // output[3:0] 
    wire [63:0] afi0_wdata;     // output[63:0] 
    wire        afi0_wvalid;     // output
    wire        afi0_wready;     // input
    wire [ 5:0] afi0_wid;     // output[5:0] 
    wire        afi0_wlast;     // output
    wire [ 7:0] afi0_wstrb;     // output[7:0] 
    wire        afi0_bvalid;     // input
    wire        afi0_bready;     // output
    wire [ 5:0] afi0_bid;     // input[5:0] 
    wire [ 1:0] afi0_bresp;     // input[1:0] 
    wire [ 7:0] afi0_wcount;     // input[7:0] 
    wire [ 5:0] afi0_wacount;     // input[5:0] 
    wire        afi0_wrissuecap1en;     // output
    wire [31:0] afi0_araddr;     // output[31:0] 
    wire        afi0_arvalid;     // output
    wire        afi0_arready;     // input
    wire [ 5:0] afi0_arid;     // output[5:0] 
    wire [ 1:0] afi0_arlock;     // output[1:0] 
    wire [ 3:0] afi0_arcache;     // output[3:0] 
    wire [ 2:0] afi0_arprot;     // output[2:0] 
    wire [ 3:0] afi0_arlen;     // output[3:0] 
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    wire [ 1:0] afi0_arsize;     // output[2:0] 
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    wire [ 1:0] afi0_arburst;     // output[1:0] 
    wire [ 3:0] afi0_arqos;     // output[3:0] 
    wire [63:0] afi0_rdata;     // input[63:0] 
    wire        afi0_rvalid;     // input
    wire        afi0_rready;     // output
    wire [ 5:0] afi0_rid;     // input[5:0] 
    wire        afi0_rlast;     // input
    wire [ 1:0] afi0_rresp;     // input[2:0] 
    wire [ 7:0] afi0_rcount;     // input[7:0] 
    wire [ 2:0] afi0_racount;     // input[2:0] 
    wire        afi0_rdissuecap1en; // output





    // DDR3 frame memory to system memory bridge over axi_hp
    membridge #(
        .MEMBRIDGE_ADDR         (MEMBRIDGE_ADDR),
        .MEMBRIDGE_MASK         (MEMBRIDGE_MASK),
        .MEMBRIDGE_CTRL         (MEMBRIDGE_CTRL),
        .MEMBRIDGE_STATUS_CNTRL (MEMBRIDGE_STATUS_CNTRL),
        .MEMBRIDGE_LO_ADDR64    (MEMBRIDGE_LO_ADDR64),
        .MEMBRIDGE_SIZE64       (MEMBRIDGE_SIZE64),
        .MEMBRIDGE_START64      (MEMBRIDGE_START64),
        .MEMBRIDGE_LEN64        (MEMBRIDGE_LEN64),
        .MEMBRIDGE_WIDTH64      (MEMBRIDGE_WIDTH64),
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        .MEMBRIDGE_MODE         (MEMBRIDGE_MODE),
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        .MEMBRIDGE_STATUS_REG   (MEMBRIDGE_STATUS_REG),
        .FRAME_HEIGHT_BITS      (FRAME_HEIGHT_BITS),
        .FRAME_WIDTH_BITS       (FRAME_WIDTH_BITS)
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`ifdef DEBUG_RING
        ,.DEBUG_CMD_LATENCY   (DEBUG_CMD_LATENCY) 
`endif        
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    ) membridge_i (
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        .mrst                   (mrst),                     // input
        .hrst                   (hrst),                     // input
        .mclk                   (mclk),                     // input
        .hclk                   (hclk),                     // input
        .cmd_ad                 (cmd_membridge_ad),         // input[7:0] 
        .cmd_stb                (cmd_membridge_stb),        // input
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        .status_ad              (status_membridge_ad[7:0]), // output[7:0] 
        .status_rq              (status_membridge_rq),      // output
        .status_start           (status_membridge_start),   // input
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