module __bfloat16__trunc(
  input wire [15:0] f,
  output wire [15:0] out
);
  function automatic priority_sel_1b_2way (input reg [1:0] sel, input reg case0, input reg case1, input reg default_value);
    begin
      casez (sel)
        2'b?1: begin
          priority_sel_1b_2way = case0;
        end
        2'b10: begin
          priority_sel_1b_2way = case1;
        end
        2'b00: begin
          priority_sel_1b_2way = default_value;
        end
        default: begin
          // Propagate X
          priority_sel_1b_2way = 1'dx;
        end
      endcase
    end
  endfunction
  wire [7:0] f_bexp__1;
  wire [6:0] f_fraction__1;
  wire [7:0] EXPR_MASK;
  wire [7:0] exp;
  wire or_620;
  wire eq_622;
  wire eq_623;
  wire [6:0] fractional_mask__2;
  wire or_634;
  wire nor_635;
  wire [6:0] sel_639;
  wire f_sign__1;
  wire [15:0] tuple_655;
  assign f_bexp__1 = f[14:7];
  assign f_fraction__1 = f[6:0];
  assign EXPR_MASK = 8'hff;
  assign exp = f_bexp__1 + 8'h81;
  assign or_620 = f_bexp__1[7] | (&f_bexp__1[6:0]);
  assign eq_622 = f_fraction__1 == 7'h00;
  assign eq_623 = f_bexp__1 == EXPR_MASK;
  assign fractional_mask__2 = {{24{exp[7]}}, exp} >= 32'h0000_0007 ? 7'h00 : 7'h7f >> {{24{exp[7]}}, exp};
  assign or_634 = f_bexp__1 == 8'h00 & eq_622 | eq_623 & eq_622;
  assign nor_635 = ~(~eq_623 | eq_622);
  assign sel_639 = f_bexp__1 < 8'h86 ? ~(~f_fraction__1 | fractional_mask__2 | ~{7{or_620}}) : f_fraction__1;
  assign f_sign__1 = f[15:15];
  assign tuple_655 = {~(nor_635 | ~f_sign__1), f_bexp__1 & {8{or_620}}, {priority_sel_1b_2way({or_634, nor_635}, 1'h1, 1'h0, sel_639[6]), sel_639[5:0] & {6{~(or_634 | nor_635)}}}};
  assign out = tuple_655;
endmodule