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path: root/rtl/modexpng_reductor.v
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//======================================================================
//
// Copyright (c) 2019, NORDUnet A/S All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
// - Redistributions of source code must retain the above copyright
//   notice, this list of conditions and the following disclaimer.
//
// - Redistributions in binary form must reproduce the above copyright
//   notice, this list of conditions and the following disclaimer in the
//   documentation and/or other materials provided with the distribution.
//
// - Neither the name of the NORDUnet nor the names of its contributors may
//   be used to endorse or promote products derived from this software
//   without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
// IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
// PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
// TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
//======================================================================

module modexpng_reductor
(
    clk, rst_n,
    ena, rdy,
    word_index_last,
    sel_wide_out, sel_narrow_out,
                                              rd_wide_x_din_aux,  rd_wide_y_din_aux,
    rcmb_final_xy_bank,  rcmb_final_xy_addr,  rcmb_final_x_din,   rcmb_final_y_din,   rcmb_final_xy_valid,
    rdct_wide_xy_bank,   rdct_wide_xy_addr,   rdct_wide_x_dout,   rdct_wide_y_dout,   rdct_wide_xy_valid,
    rdct_narrow_xy_bank, rdct_narrow_xy_addr, rdct_narrow_x_dout, rdct_narrow_y_dout, rdct_narrow_xy_valid
);

    //
    // Headers
    //
    `include "modexpng_parameters.vh"
    `include "modexpng_dsp48e1.vh"
    `include "modexpng_dsp_slice_primitives.vh"


    //
    // Ports
    //
    input                     clk;
    input                     rst_n;
    input                     ena;
    output                    rdy;

    input  [  OP_ADDR_W -1:0] word_index_last;

    input  [BANK_ADDR_W -1:0] sel_wide_out;
    input  [BANK_ADDR_W -1:0] sel_narrow_out;

    input  [ WORD_EXT_W -1:0] rd_wide_x_din_aux;
    input  [ WORD_EXT_W -1:0] rd_wide_y_din_aux;
    //
    input  [BANK_ADDR_W -1:0] rcmb_final_xy_bank;
    input  [  OP_ADDR_W -1:0] rcmb_final_xy_addr;
    input  [ WORD_EXT_W -1:0] rcmb_final_x_din;
    input  [ WORD_EXT_W -1:0] rcmb_final_y_din;
    input                     rcmb_final_xy_valid;

    output [BANK_ADDR_W -1:0] rdct_wide_xy_bank;
    output [  OP_ADDR_W -1:0] rdct_wide_xy_addr;
    output [ WORD_EXT_W -1:0] rdct_wide_x_dout;
    output [ WORD_EXT_W -1:0] rdct_wide_y_dout;
    output                    rdct_wide_xy_valid;

    output [BANK_ADDR_W -1:0] rdct_narrow_xy_bank;
    output [  OP_ADDR_W -1:0] rdct_narrow_xy_addr;
    output [ WORD_EXT_W -1:0] rdct_narrow_x_dout;
    output [ WORD_EXT_W -1:0] rdct_narrow_y_dout;
    output                    rdct_narrow_xy_valid;
    
        
    //
    // Output Registers
    //
    reg [BANK_ADDR_W -1:0] wide_xy_bank;
    reg [  OP_ADDR_W -1:0] wide_xy_addr;
    reg [ WORD_EXT_W -1:0] wide_x_dout;
    reg [ WORD_EXT_W -1:0] wide_y_dout;
    reg                    wide_xy_valid = 1'b0;

    reg [BANK_ADDR_W -1:0] narrow_xy_bank;
    reg [  OP_ADDR_W -1:0] narrow_xy_addr;
    reg [ WORD_EXT_W -1:0] narrow_x_dout;
    reg [ WORD_EXT_W -1:0] narrow_y_dout;
    reg                    narrow_xy_valid = 1'b0;
    

    //
    // Mapping
    //
    assign rdct_wide_xy_bank  = wide_xy_bank;
    assign rdct_wide_xy_addr  = wide_xy_addr;
    assign rdct_wide_x_dout   = wide_x_dout;
    assign rdct_wide_y_dout   = wide_y_dout;
    assign rdct_wide_xy_valid = wide_xy_valid;

    assign rdct_narrow_xy_bank  = narrow_xy_bank;
    assign rdct_narrow_xy_addr  = narrow_xy_addr;
    assign rdct_narrow_x_dout   = narrow_x_dout;
    assign rdct_narrow_y_dout   = narrow_y_dout;
    assign rdct_narrow_xy_valid = narrow_xy_valid;


    //
    // Helper Tasks
    //
    task _update_rdct_wide;
        input [BANK_ADDR_W -1:0] bank;
        input [  OP_ADDR_W -1:0] addr;
        input [ WORD_EXT_W -1:0] dout_x;
        input [ WORD_EXT_W -1:0] dout_y;
        input                    valid;
        begin
            wide_xy_bank  <= bank;
            wide_xy_addr  <= addr;
            wide_x_dout   <= dout_x;
            wide_y_dout   <= dout_y;
            wide_xy_valid <= valid;
        end
    endtask
    
    task _update_rdct_narrow;
        input [BANK_ADDR_W -1:0] bank;
        input [  OP_ADDR_W -1:0] addr;
        input [ WORD_EXT_W -1:0] dout_x;
        input [ WORD_EXT_W -1:0] dout_y;
        input                    valid;
        begin
            narrow_xy_bank  <= bank;
            narrow_xy_addr  <= addr;
            narrow_x_dout   <= dout_x;
            narrow_y_dout   <= dout_y;
            narrow_xy_valid <= valid;
        end
    endtask
    
    task set_rdct_wide;
        input [BANK_ADDR_W -1:0] bank;
        input [  OP_ADDR_W -1:0] addr;
        input [ WORD_EXT_W -1:0] dout_x;
        input [ WORD_EXT_W -1:0] dout_y;
            _update_rdct_wide(bank, addr, dout_x, dout_y, 1'b1);
    endtask
    
    task set_rdct_narrow;
        input [BANK_ADDR_W -1:0] bank;
        input [  OP_ADDR_W -1:0] addr;
        input [ WORD_EXT_W -1:0] dout_x;
        input [ WORD_EXT_W -1:0] dout_y;
        _update_rdct_narrow(bank, addr, dout_x, dout_y, 1'b1);
    endtask 
    
    task clear_rdct_wide;
        _update_rdct_wide(BANK_DNC, OP_ADDR_DNC, WORD_EXT_DNC, WORD_EXT_DNC, 1'b0);
    endtask

    task clear_rdct_narrow;
        _update_rdct_narrow(BANK_DNC, OP_ADDR_DNC, WORD_EXT_DNC, WORD_EXT_DNC, 1'b0);
    endtask


    //
    // Pipeline rd_wide_*
    //
    reg [WORD_EXT_W -1:0] rd_wide_x_din_aux_pipe;
    reg [WORD_EXT_W -1:0] rd_wide_y_din_aux_pipe;

    always @(posedge clk)
        //
        {rd_wide_y_din_aux_pipe, rd_wide_x_din_aux_pipe} <= {rd_wide_y_din_aux, rd_wide_x_din_aux};


    //
    // Counter
    //
    integer i;


    //
    // Delay rcmb_final_* to match rd_wide_*
    //
    reg                    rcmb_xy_valid_dly[1:6];
    reg [BANK_ADDR_W -1:0] rcmb_xy_bank_dly [1:6];
    reg [  OP_ADDR_W -1:0] rcmb_xy_addr_dly [1:6];
    reg [ WORD_EXT_W -1:0] rcmb_x_dout_dly  [1:4];
    reg [ WORD_EXT_W -1:0] rcmb_y_dout_dly  [1:4];
    
    initial for (i=1; i<=6; i=i+1) rcmb_xy_valid_dly[i] = 1'b0;
    
    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n) for (i=1; i<=6; i=i+1) rcmb_xy_valid_dly[i] <= 1'b0;        
        else begin
                                   rcmb_xy_valid_dly[1] <= rcmb_final_xy_valid;
            for (i=2; i<=6; i=i+1) rcmb_xy_valid_dly[i] <= rcmb_xy_valid_dly[i-1];
        end
    
    always @(posedge clk) begin
        //
                               {rcmb_xy_bank_dly[1], rcmb_xy_addr_dly[1], rcmb_x_dout_dly[1], rcmb_y_dout_dly[1]} <= {rcmb_final_xy_bank,    rcmb_final_xy_addr,    rcmb_final_x_din,     rcmb_final_y_din    };
        for (i=2; i<=6; i=i+1) {rcmb_xy_bank_dly[i], rcmb_xy_addr_dly[i]                                        } <= {rcmb_xy_bank_dly[i-1], rcmb_xy_addr_dly[i-1]                                            };
        for (i=2; i<=4; i=i+1) {                                          rcmb_x_dout_dly[i], rcmb_y_dout_dly[i]} <= {                                              rcmb_x_dout_dly[i-1], rcmb_y_dout_dly[i-1]};
        //
    end
      

    //
    // Internal Busy Flag Logic
    //
    reg       busy_next      = 1'b0;
    reg [4:0] busy_now_shreg = 5'b00000;
    wire      busy_now       = busy_now_shreg[4];
    
    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n)         busy_now_shreg <= 5'b00000;
        else begin
            if (rdy && ena) busy_now_shreg <= 5'b11111;
            else            busy_now_shreg <= {busy_now_shreg[3:0], busy_next};
        end
    
    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n)                                                                     busy_next <= 1'b0;
        else begin
            if (rdy && ena)                                                             busy_next <= 1'b1;
            if (!rdy && rcmb_xy_valid_dly[4] && (rcmb_xy_bank_dly[4] == BANK_RCMB_EXT)) busy_next <= 1'b0;
        end


    //
    // Ready Flag Logic
    //
    reg  rdy_reg = 1'b1;
    
    assign rdy = rdy_reg;
    
    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n)                rdy_reg <= 1'b1;
        else begin
            if (rdy && ena)        rdy_reg <= 1'b0;
            if (!rdy && !busy_now) rdy_reg <= 1'b1;
        end
        
        
    //
    // Pipelined Flags
    //
    reg rcmb_xy_addr_dly3_is_zero;
    reg rcmb_xy_addr_dly3_is_one;
    reg rcmb_xy_addr_dly3_gt_one;
    reg rcmb_xy_addr_dly5_is_one;
    reg rcmb_xy_addr_dly5_gt_one;
    reg rcmb_xy_addr_dly6_is_zero;
                              
    always @(posedge clk) begin
        rcmb_xy_addr_dly3_is_zero <= rcmb_xy_addr_dly[2] == OP_ADDR_ZERO;
        rcmb_xy_addr_dly3_is_one  <= rcmb_xy_addr_dly[2] == OP_ADDR_ONE;
        rcmb_xy_addr_dly3_gt_one  <= rcmb_xy_addr_dly[2] >  OP_ADDR_ONE;
        rcmb_xy_addr_dly5_is_one  <= rcmb_xy_addr_dly[4] == OP_ADDR_ONE;
        rcmb_xy_addr_dly5_gt_one  <= rcmb_xy_addr_dly[4] >  OP_ADDR_ONE;
        rcmb_xy_addr_dly6_is_zero <= rcmb_xy_addr_dly[5] == OP_ADDR_ZERO;
    end


    //
    // LSB Math
    //
    reg                          lsb_ce        = 1'b0;
    reg                          lsb_ce_dly    = 1'b0;
    reg  [DSP48E1_OPMODE_W -1:0] lsb_opmode;
    
    wire [DSP48E1_P_W -1:0] lsb_px;
    wire [DSP48E1_P_W -1:0] lsb_py;
    wire [DSP48E1_C_W -1:0] lsb_ax = {{(DSP48E1_C_W-(WORD_EXT_W+1)){1'b0}}, rcmb_x_dout_dly[4][WORD_EXT_W-1:WORD_W],     1'b1, rcmb_x_dout_dly[4][WORD_W-1:0]};
    wire [DSP48E1_C_W -1:0] lsb_ay = {{(DSP48E1_C_W-(WORD_EXT_W+1)){1'b0}}, rcmb_y_dout_dly[4][WORD_EXT_W-1:WORD_W],     1'b1, rcmb_y_dout_dly[4][WORD_W-1:0]};
    wire [DSP48E1_C_W -1:0] lsb_bx = {{(DSP48E1_C_W-(WORD_EXT_W+1)){1'b0}}, rd_wide_x_din_aux_pipe[WORD_EXT_W-1:WORD_W], 1'b0, rd_wide_x_din_aux_pipe[WORD_W-1:0]};
    wire [DSP48E1_C_W -1:0] lsb_by = {{(DSP48E1_C_W-(WORD_EXT_W+1)){1'b0}}, rd_wide_y_din_aux_pipe[WORD_EXT_W-1:WORD_W], 1'b0, rd_wide_y_din_aux_pipe[WORD_W-1:0]};

    wire [DSP48E1_P_W -1:0] lsb2msb_px_casc;
    wire [DSP48E1_P_W -1:0] lsb2msb_py_casc;

    `MODEXPNG_DSP_SLICE_ADDSUB dsp_lsb_x
    (
        .clk            (clk),
        .ce_ab1         (1'b0),
        .ce_ab2         (lsb_ce),
        .ce_c           (lsb_ce),
        .ce_p           (lsb_ce_dly),
        .ce_ctrl        (lsb_ce),
        .ab             (lsb_ax),
        .c              (lsb_bx),
        .p              (lsb_px),
        .op_mode        (lsb_opmode),
        .alu_mode       (DSP48E1_ALUMODE_Z_PLUS_X_AND_Y_AND_CIN),
        .carry_in_sel   (DSP48E1_CARRYINSEL_CARRYIN),
        .casc_p_in      (),
        .casc_p_out     (lsb2msb_px_casc),
        .carry_out      ()
    );
    
    `MODEXPNG_DSP_SLICE_ADDSUB dsp_lsb_y
    (
        .clk            (clk),
        .ce_ab1         (1'b0),
        .ce_ab2         (lsb_ce),
        .ce_c           (lsb_ce),
        .ce_p           (lsb_ce_dly),
        .ce_ctrl        (lsb_ce),
        .ab             (lsb_ay),
        .c              (lsb_by),
        .p              (lsb_py),
        .op_mode        (lsb_opmode),
        .alu_mode       (DSP48E1_ALUMODE_Z_PLUS_X_AND_Y_AND_CIN),
        .carry_in_sel   (DSP48E1_CARRYINSEL_CARRYIN),
        .casc_p_in      (),
        .casc_p_out     (lsb2msb_py_casc),
        .carry_out      ()
    );
    
    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n) lsb_ce <= 1'b0;
        else begin
            lsb_ce <= 1'b0;
            if (rcmb_xy_valid_dly[3])
                //
                case (rcmb_xy_bank_dly[3])
                    BANK_RCMB_ML:                                lsb_ce <= 1'b1;  
                    BANK_RCMB_MH: if (rcmb_xy_addr_dly3_is_zero) lsb_ce <= 1'b1;  
                endcase
            //
        end

    always @(posedge clk) begin
        //
        //lsb_opmode <= DSP48E1_OPMODE_DNC;
        //
        if (rcmb_xy_valid_dly[3])
            //
            case (rcmb_xy_bank_dly[3])
                BANK_RCMB_ML: if (rcmb_xy_addr_dly3_is_zero) lsb_opmode <= DSP48E1_OPMODE_Z0_YC_XAB;
                              else                           lsb_opmode <= DSP48E1_OPMODE_ZP17_YC_XAB;
                BANK_RCMB_MH: if (rcmb_xy_addr_dly3_is_zero) lsb_opmode <= DSP48E1_OPMODE_ZP17_YC_XAB;
            endcase
        //
    end

    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n) lsb_ce_dly <= 1'b0;
        else        lsb_ce_dly <= lsb_ce;
        

    //
    // MSB Math
    //
    reg                          msb_ce        = 1'b0;
    reg                          msb_ce_dly1   = 1'b0;
    reg                          msb_ce_dly2   = 1'b0;
    reg  [DSP48E1_OPMODE_W -1:0] msb_opmode;
    
    wire [DSP48E1_P_W -1:0] msb_px;
    wire [DSP48E1_P_W -1:0] msb_py;
    wire [DSP48E1_C_W -1:0] msb_ax = {{(DSP48E1_C_W-WORD_EXT_W){1'b0}}, rcmb_x_dout_dly[4][WORD_EXT_W-1:WORD_W],     rcmb_x_dout_dly[4][WORD_W-1:0]};
    wire [DSP48E1_C_W -1:0] msb_ay = {{(DSP48E1_C_W-WORD_EXT_W){1'b0}}, rcmb_y_dout_dly[4][WORD_EXT_W-1:WORD_W],     rcmb_y_dout_dly[4][WORD_W-1:0]};
    wire [DSP48E1_C_W -1:0] msb_bx = {{(DSP48E1_C_W-WORD_EXT_W){1'b0}}, rd_wide_x_din_aux_pipe[WORD_EXT_W-1:WORD_W], rd_wide_x_din_aux_pipe[WORD_W-1:0]};
    wire [DSP48E1_C_W -1:0] msb_by = {{(DSP48E1_C_W-WORD_EXT_W){1'b0}}, rd_wide_y_din_aux_pipe[WORD_EXT_W-1:WORD_W], rd_wide_y_din_aux_pipe[WORD_W-1:0]};

    `MODEXPNG_DSP_SLICE_ADDSUB dsp_msb_x
    (
        .clk            (clk),
        .ce_ab1         (1'b0),
        .ce_ab2         (msb_ce),
        .ce_c           (msb_ce),
        .ce_p           (msb_ce_dly1),
        .ce_ctrl        (msb_ce),
        .ab             (msb_ax),
        .c              (msb_bx),
        .p              (msb_px),
        .op_mode        (msb_opmode),
        .alu_mode       (DSP48E1_ALUMODE_Z_PLUS_X_AND_Y_AND_CIN),
        .carry_in_sel   (DSP48E1_CARRYINSEL_CARRYIN),
        .casc_p_in      (lsb2msb_px_casc),
        .casc_p_out     (),
        .carry_out      ()
    );
    
    `MODEXPNG_DSP_SLICE_ADDSUB dsp_msb_y
    (
        .clk            (clk),
        .ce_ab1         (1'b0),
        .ce_ab2         (msb_ce),
        .ce_c           (msb_ce),
        .ce_p           (msb_ce_dly1),
        .ce_ctrl        (msb_ce),
        .ab             (msb_ay),
        .c              (msb_by),
        .p              (msb_py),
        .op_mode        (msb_opmode),
        .alu_mode       (DSP48E1_ALUMODE_Z_PLUS_X_AND_Y_AND_CIN),
        .carry_in_sel   (DSP48E1_CARRYINSEL_CARRYIN),
        .casc_p_in      (lsb2msb_py_casc),
        .casc_p_out     (),
        .carry_out      ()
    );

    
    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n) msb_ce <= 1'b0;
        else begin
            msb_ce <= 1'b0;
            if (rcmb_xy_valid_dly[3])
                //
                case (rcmb_xy_bank_dly[3])  
                    BANK_RCMB_MH: if (!rcmb_xy_addr_dly3_is_zero) msb_ce <= 1'b1;
                    BANK_RCMB_EXT:                                msb_ce <= 1'b1;
                endcase
            //
        end                       

    always @(posedge clk) begin
        //
        msb_opmode <= DSP48E1_OPMODE_DNC;
        //
        if (rcmb_xy_valid_dly[3])
            //
            case (rcmb_xy_bank_dly[3])
                BANK_RCMB_MH: if      (rcmb_xy_addr_dly3_is_one) msb_opmode <= DSP48E1_OPMODE_ZPCIN17_YC_XAB;
                              else if (rcmb_xy_addr_dly3_gt_one) msb_opmode <= DSP48E1_OPMODE_Z0_YC_XAB;
                BANK_RCMB_EXT:                                   msb_opmode <= DSP48E1_OPMODE_Z0_Y0_XAB;
            endcase
        //
    end

    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n) {msb_ce_dly2, msb_ce_dly1} <= {2'b00};
        else        {msb_ce_dly2, msb_ce_dly1} <= {msb_ce_dly1, msb_ce};


    //
    // Output Logic
    //
    reg [OP_ADDR_W -1:0] wide_xy_addr_next;
    reg [OP_ADDR_W -1:0] narrow_xy_addr_next;
    
    always @(posedge clk)
        //
        if (msb_ce_dly1)
            //
            case (rcmb_xy_bank_dly[5])
                                
                BANK_RCMB_MH:
                    if (rcmb_xy_addr_dly5_is_one)
                        {wide_xy_addr_next, narrow_xy_addr_next} <= {OP_ADDR_ZERO, OP_ADDR_ZERO};
                    else if (rcmb_xy_addr_dly5_gt_one)
                        {wide_xy_addr_next, narrow_xy_addr_next} <= {rcmb_xy_addr_dly[5] - 1'b1, rcmb_xy_addr_dly[5] - 1'b1};
                        
                BANK_RCMB_EXT:
                    {wide_xy_addr_next, narrow_xy_addr_next} <= {word_index_last, word_index_last};

            endcase
    
    always @(posedge clk or negedge rst_n)
        //
        if (!rst_n) begin
            clear_rdct_wide;
            clear_rdct_narrow;
        end else begin
            //
            clear_rdct_wide;
            clear_rdct_narrow;
            //
            if (msb_ce_dly2)
                //
                case (rcmb_xy_bank_dly[6])
                    //
                    BANK_RCMB_MH: if (!rcmb_xy_addr_dly6_is_zero) begin
                        set_rdct_wide  (sel_wide_out,   wide_xy_addr_next,   msb_px[WORD_EXT_W-1:0], msb_py[WORD_EXT_W-1:0]);
                        set_rdct_narrow(sel_narrow_out, narrow_xy_addr_next, msb_px[WORD_EXT_W-1:0], msb_py[WORD_EXT_W-1:0]);                    
                    end
                    //
                    BANK_RCMB_EXT: begin
                        set_rdct_wide  (sel_wide_out,   wide_xy_addr_next,   msb_px[WORD_EXT_W-1:0], msb_py[WORD_EXT_W-1:0]);
                        set_rdct_narrow(sel_narrow_out, narrow_xy_addr_next, msb_px[WORD_EXT_W-1:0], msb_py[WORD_EXT_W-1:0]);
                    end
                    //
                endcase
            //
        end    

endmodule