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[/] [versatile_library/] [trunk/] [backend/] [altera/] [lpm_ff.v] - Blame information for rev 110

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//START_MODULE_NAME------------------------------------------------------------
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//
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// Module Name     :  lpm_ff
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//
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// Description     :  Parameterized flipflop megafunction. The lpm_ff function
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//                    contains features that are not available in the DFF, DFFE,
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//                    DFFEA, TFF, and TFFE primitives, such as synchronous or
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//                    asynchronous set, clear, and load inputs.
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//
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// Limitation      :  n/a
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//
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// Results expected:  Data output from D or T flipflops. 
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//
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//END_MODULE_NAME--------------------------------------------------------------
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// BEGINNING OF MODULE
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`timescale 1 ps / 1 ps
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// MODULE DECLARATION
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module lpm_ff (
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    data,   // T-type flipflop: Toggle enable
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            // D-type flipflop: Data input
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    clock,  // Positive-edge-triggered clock. (Required)
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    enable, // Clock enable input.
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    aclr,   // Asynchronous clear input.
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    aset,   // Asynchronous set input.
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    aload,  // Asynchronous load input. Asynchronously loads the flipflop with
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            // the value on the data input.
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    sclr,   // Synchronous clear input.
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    sset,   // Synchronous set input.
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    sload,  // Synchronous load input. Loads the flipflop with the value on the
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            // data input on the next active clock edge.
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    q       // Data output from D or T flipflops. (Required)
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);
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// GLOBAL PARAMETER DECLARATION
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    parameter lpm_width  = 1; // Width of the data[] and q[] ports. (Required)
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    parameter lpm_avalue = "UNUSED";    // Constant value that is loaded when aset is high.
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    parameter lpm_svalue = "UNUSED";    // Constant value that is loaded on the rising edge
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                                        // of clock when sset is high.
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    parameter lpm_pvalue = "UNUSED";
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    parameter lpm_fftype = "DFF";       // Type of flipflop
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    parameter lpm_type = "lpm_ff";
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    parameter lpm_hint = "UNUSED";
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// INPUT PORT DECLARATION
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    input  [lpm_width-1:0] data;
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    input  clock;
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    input  enable;
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    input  aclr;
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    input  aset;
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    input  aload;
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    input  sclr;
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    input  sset;
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    input  sload ;
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// OUTPUT PORT DECLARATION
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    output [lpm_width-1:0] q;
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// INTERNAL REGISTER/SIGNAL DECLARATION
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    reg  [lpm_width-1:0] tmp_q;
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    reg  [lpm_width-1:0] adata;
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    reg  use_adata;
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    reg  [lpm_width-1:0] svalue;
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    reg  [lpm_width-1:0] avalue;
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    reg  [lpm_width-1:0] pvalue;
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// INTERNAL WIRE DECLARATION
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    wire [lpm_width-1:0] final_q;
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// LOCAL INTEGER DECLARATION
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    integer i;
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// INTERNAL TRI DECLARATION
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    tri1  [lpm_width-1:0] data;
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    tri1 enable;
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    tri0 sload;
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    tri0 sclr;
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    tri0 sset;
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    tri0 aload;
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    tri0 aclr;
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    tri0 aset;
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    wire i_enable;
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    wire i_sload;
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    wire i_sclr;
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    wire i_sset;
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    wire i_aload;
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    wire i_aclr;
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    wire i_aset;
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    buf (i_enable, enable);
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    buf (i_sload, sload);
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    buf (i_sclr, sclr);
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    buf (i_sset, sset);
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    buf (i_aload, aload);
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    buf (i_aclr, aclr);
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    buf (i_aset, aset);
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// TASK DECLARATION
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    task string_to_reg;
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    input  [8*40:1] string_value;
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    output [lpm_width-1:0] value;
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    reg [8*40:1] reg_s;
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    reg [8:1] digit;
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    reg [8:1] tmp;
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    reg [lpm_width-1:0] ivalue;
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    integer m;
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    begin
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        ivalue = {lpm_width{1'b0}};
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        reg_s = string_value;
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        for (m=1; m<=40; m=m+1)
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        begin
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            tmp = reg_s[320:313];
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            digit = tmp & 8'b00001111;
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            reg_s = reg_s << 8;
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            ivalue = ivalue * 10 + digit;
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        end
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        value = ivalue;
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    end
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    endtask
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// INITIAL CONSTRUCT BLOCK
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    initial
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    begin
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        if (lpm_width <= 0)
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        begin
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            $display("Value of lpm_width parameter must be greater than 0(ERROR)");
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            $display("Time: %0t  Instance: %m", $time);
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            $finish;
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        end
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        if ((lpm_fftype != "DFF") &&
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            (lpm_fftype != "TFF") &&
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            (lpm_fftype != "UNUSED"))          // non-LPM 220 standard
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        begin
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            $display("Error!  LPM_FFTYPE value must be \"DFF\" or \"TFF\".");
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            $display("Time: %0t  Instance: %m", $time);
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            $finish;
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        end
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        if (lpm_avalue == "UNUSED")
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            avalue =  {lpm_width{1'b1}};
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        else
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            string_to_reg(lpm_avalue, avalue);
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        if (lpm_svalue == "UNUSED")
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            svalue =  {lpm_width{1'b1}};
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        else
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            string_to_reg(lpm_svalue, svalue);
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        if (lpm_pvalue == "UNUSED")
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            pvalue =  {lpm_width{1'b0}};
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        else
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            string_to_reg(lpm_pvalue, pvalue);
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        tmp_q = pvalue;
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        use_adata = 1'b0;
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    end
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// ALWAYS CONSTRUCT BLOCK
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    always @(posedge i_aclr or posedge i_aset or posedge i_aload or posedge clock)
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    begin // Asynchronous process
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        if (i_aclr || i_aset || i_aload)
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            use_adata <= 1'b1;
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        else if ($time > 0)
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        begin // Synchronous process
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            if (i_enable)
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            begin
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                use_adata <= 1'b0;
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                if (i_sclr)
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                    tmp_q <= 0;
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                else if (i_sset)
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                    tmp_q <= svalue;
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                else if (i_sload)  // Load data
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                    tmp_q <= data;
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                else
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                begin
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                    if (lpm_fftype == "TFF") // toggle
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                    begin
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                        for (i = 0; i < lpm_width; i=i+1)
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                            if (data[i] == 1'b1)
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                                tmp_q[i] <= ~final_q[i];
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                            else
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                                tmp_q[i] <= final_q[i];
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                    end
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                    else    // DFF, load data
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                        tmp_q <= data;
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                end
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            end
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        end
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    end
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    always @(i_aclr or i_aset or i_aload or data or avalue or pvalue)
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    begin
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        if (i_aclr === 1'b1)
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            adata <= {lpm_width{1'b0}};
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        else if (i_aclr === 1'bx)
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            adata <= {lpm_width{1'bx}};
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        else if (i_aset)
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            adata <= avalue;
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        else if (i_aload)
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            adata <= data;
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        else if ((i_aclr === 1'b0) && ($time == 0))
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            adata <= pvalue;
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    end
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// CONTINOUS ASSIGNMENT
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    assign q = final_q;
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    assign final_q = (use_adata == 1'b1) ? adata : tmp_q;
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endmodule // lpm_ff
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// END OF MODULE

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