module __bfloat16__fma( input wire [15:0] a, input wire [15:0] b, input wire [15:0] c, output wire [15:0] out ); // lint_off MULTIPLY function automatic [15:0] umul16b_8b_x_8b (input reg [7:0] lhs, input reg [7:0] rhs); begin umul16b_8b_x_8b = lhs * rhs; end endfunction // lint_on MULTIPLY 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] a_bexp__1; wire [7:0] literal_2032; wire [7:0] b_bexp__1; wire cancel__1; wire bnot__1; wire [6:0] a_fraction__1; wire [6:0] b_fraction__1; wire eq_2038; wire eq_2039; wire [7:0] a_significand__1; wire [7:0] b_significand__1; wire nor_2044; wire [8:0] add_2045; wire [15:0] umul_2046; wire [7:0] max_exp; wire [6:0] literal_2049; wire [15:0] full_product; wire eq_2053; wire eq_2054; wire eq_2055; wire eq_2056; wire [9:0] exp; wire [8:0] literal_2059; wire in_upper_binade; wire [9:0] exp__1; wire has_inf_arg; wire [9:0] result_exp__3; wire [9:0] result_exp__4; wire is_subnormal; wire has_0_arg; wire is_result_nan__1; wire [8:0] result_exp__5; wire [8:0] literal_2082; wire [7:0] c_bexp__2; wire [8:0] ab_bexp__2; wire [7:0] bnot__2; wire [9:0] ab_bexp_extended__1; wire [9:0] bnot_extended__2; wire [9:0] full_result; wire overflow_detected; wire nc; wire [8:0] narrowed_result; wire [8:0] ab_bexpor_mask__2; wire [15:0] result_fraction__5; wire [8:0] result; wire [15:0] result_fraction__6; wire [8:0] exp_difference; wire [15:0] result_fraction__7; wire [24:0] literal_2109; wire [8:0] rshift_ab; wire [6:0] c_fraction__2; wire [8:0] rshift_c; wire [15:0] ab_fraction__2; wire [24:0] shll_2115; wire [7:0] sign_ext_2117; wire [24:0] shll_2118; wire a_sign__1; wire b_sign__1; wire [15:0] literal_2128; wire [7:0] wide_c__3; wire result_sign__3; wire [24:0] wide_ab; wire [23:0] literal_2134; wire [24:0] wide_c__2; wire [24:0] shifted_ab; wire [24:0] sticky_ab; wire [24:0] shifted_c; wire [24:0] sticky_c; wire c_sign__2; wire ab_sign__2; wire greater_sign; wire [25:0] shifted_ab__1_squeezed; wire [25:0] shifted_c__1_squeezed; wire [25:0] shifted_ab__2_squeezed; wire [25:0] shifted_c__2_squeezed; wire [26:0] shifted_ab__2; wire [26:0] shifted_c__2; wire [26:0] sum_fraction; wire [25:0] abs_fraction__2; wire [25:0] reverse_2163; wire [26:0] one_hot_2164; wire [4:0] encode_2165; wire cancel__2; wire carry_bit__2; wire [5:0] add_2174; wire [24:0] carry_fraction__1; wire [2:0] concat_2182; wire [24:0] carry_fraction__4; wire [24:0] cancel_fraction__2; wire [24:0] shifted_fraction; wire [16:0] normal_chunk; wire [16:0] half_of_extra; wire [1:0] half_way_chunk; wire [8:0] concat_2194; wire [8:0] add_2197; wire [8:0] rounded_fraction__1; wire [4:0] sub_2203; wire [8:0] greater_exp; wire rounding_carry; wire [5:0] concat_2208; wire fraction_is_zero; wire [9:0] bexp_associative_element__1; wire [9:0] bexp_associative_element__4; wire [9:0] bexp__1; wire [9:0] bexp__2; wire eq_2222; wire eq_2223; wire eq_2224; wire eq_2225; wire [8:0] bexp__6; wire and_2230; wire is_operand_inf; wire and_reduce_2239; wire has_pos_inf; wire has_neg_inf; wire is_result_nan; wire result_sign; wire [6:0] result_fraction; wire result_sign__1; wire [6:0] result_fraction__3; wire [3:0] one_hot_2269; wire result_sign__2; wire [7:0] result_exp__2; wire [6:0] result_fraction__4; assign a_bexp__1 = a[14:7]; assign literal_2032 = 8'h00; assign b_bexp__1 = b[14:7]; assign cancel__1 = 1'h0; assign bnot__1 = 1'h1; assign a_fraction__1 = a[6:0]; assign b_fraction__1 = b[6:0]; assign eq_2038 = a_bexp__1 == literal_2032; assign eq_2039 = b_bexp__1 == literal_2032; assign a_significand__1 = {bnot__1, a_fraction__1}; assign b_significand__1 = {bnot__1, b_fraction__1}; assign nor_2044 = ~(eq_2038 | eq_2039); assign add_2045 = {cancel__1, a_bexp__1} + {cancel__1, b_bexp__1}; assign umul_2046 = umul16b_8b_x_8b(a_significand__1, b_significand__1); assign max_exp = 8'hff; assign literal_2049 = 7'h00; assign full_product = umul_2046 & {16{nor_2044}}; assign eq_2053 = a_bexp__1 == max_exp; assign eq_2054 = a_fraction__1 == literal_2049; assign eq_2055 = b_bexp__1 == max_exp; assign eq_2056 = b_fraction__1 == literal_2049; assign exp = {cancel__1, add_2045} + 10'h381; assign literal_2059 = 9'h000; assign in_upper_binade = full_product[15]; assign exp__1 = exp & {10{nor_2044}}; assign has_inf_arg = eq_2053 & eq_2054 | eq_2055 & eq_2056; assign result_exp__3 = exp__1 + {literal_2059, in_upper_binade}; assign result_exp__4 = has_inf_arg ? 10'h1ff : result_exp__3; assign is_subnormal = $signed(result_exp__4) <= $signed(10'h000); assign has_0_arg = eq_2038 | eq_2039; assign is_result_nan__1 = ~(~eq_2053 | eq_2054) | ~(~eq_2055 | eq_2056) | has_0_arg & has_inf_arg; assign result_exp__5 = result_exp__4[8:0] & {9{~is_subnormal}}; assign literal_2082 = 9'h1ff; assign c_bexp__2 = c[14:7]; assign ab_bexp__2 = is_result_nan__1 ? literal_2082 : result_exp__5; assign bnot__2 = ~c_bexp__2; assign ab_bexp_extended__1 = {cancel__1, ab_bexp__2}; assign bnot_extended__2 = {2'h1, bnot__2}; assign full_result = ab_bexp_extended__1 + bnot_extended__2; assign overflow_detected = full_result[9]; assign nc = ~overflow_detected; assign narrowed_result = full_result[8:0]; assign ab_bexpor_mask__2 = {9{nc}}; assign result_fraction__5 = in_upper_binade ? umul_2046 : {full_product[14:0], cancel__1}; assign result = narrowed_result ^ ab_bexpor_mask__2; assign result_fraction__6 = result_fraction__5 & {16{~has_inf_arg}}; assign exp_difference = result + {literal_2032, overflow_detected}; assign result_fraction__7 = (-result_exp__4[8:0] & {9{is_subnormal}}) >= 9'h010 ? 16'h0000 : result_fraction__6 >> (-result_exp__4[8:0] & {9{is_subnormal}}); assign literal_2109 = 25'h1ff_ffff; assign rshift_ab = exp_difference & ab_bexpor_mask__2; assign c_fraction__2 = c[6:0]; assign rshift_c = exp_difference & {9{overflow_detected}}; assign ab_fraction__2 = is_result_nan__1 ? 16'hc000 : result_fraction__7; assign shll_2115 = rshift_ab >= 9'h019 ? 25'h000_0000 : literal_2109 << rshift_ab; assign sign_ext_2117 = {8{c_bexp__2 != literal_2032}}; assign shll_2118 = rshift_c >= 9'h019 ? 25'h000_0000 : literal_2109 << rshift_c; assign a_sign__1 = a[15:15]; assign b_sign__1 = b[15:15]; assign literal_2128 = 16'h0000; assign wide_c__3 = {bnot__1, c_fraction__2} & sign_ext_2117; assign result_sign__3 = a_sign__1 ^ b_sign__1; assign wide_ab = {ab_fraction__2, literal_2059}; assign literal_2134 = 24'h00_0000; assign wide_c__2 = {wide_c__3, 17'h0_0000}; assign shifted_ab = rshift_ab >= 9'h019 ? 25'h000_0000 : wide_ab >> rshift_ab; assign sticky_ab = {literal_2134, ~(~ab_fraction__2 | shll_2115[24:9]) != literal_2128}; assign shifted_c = rshift_c >= 9'h019 ? 25'h000_0000 : wide_c__2 >> rshift_c; assign sticky_c = {literal_2134, ~({cancel__1, ~c_fraction__2} | ~sign_ext_2117 | shll_2118[24:17]) != literal_2032}; assign c_sign__2 = c[15:15]; assign ab_sign__2 = ~(is_result_nan__1 | ~result_sign__3); assign greater_sign = overflow_detected ? ab_sign__2 : c_sign__2; assign shifted_ab__1_squeezed = {cancel__1, shifted_ab | sticky_ab}; assign shifted_c__1_squeezed = {cancel__1, shifted_c | sticky_c}; assign shifted_ab__2_squeezed = ab_sign__2 ^ greater_sign ? -shifted_ab__1_squeezed : shifted_ab__1_squeezed; assign shifted_c__2_squeezed = c_sign__2 ^ greater_sign ? -shifted_c__1_squeezed : shifted_c__1_squeezed; assign shifted_ab__2 = {{1{shifted_ab__2_squeezed[25]}}, shifted_ab__2_squeezed}; assign shifted_c__2 = {{1{shifted_c__2_squeezed[25]}}, shifted_c__2_squeezed}; assign sum_fraction = shifted_ab__2 + shifted_c__2; assign abs_fraction__2 = sum_fraction[26] ? -sum_fraction[25:0] : sum_fraction[25:0]; assign reverse_2163 = {abs_fraction__2[0], abs_fraction__2[1], abs_fraction__2[2], abs_fraction__2[3], abs_fraction__2[4], abs_fraction__2[5], abs_fraction__2[6], abs_fraction__2[7], abs_fraction__2[8], abs_fraction__2[9], abs_fraction__2[10], abs_fraction__2[11], abs_fraction__2[12], abs_fraction__2[13], abs_fraction__2[14], abs_fraction__2[15], abs_fraction__2[16], abs_fraction__2[17], abs_fraction__2[18], abs_fraction__2[19], abs_fraction__2[20], abs_fraction__2[21], abs_fraction__2[22], abs_fraction__2[23], abs_fraction__2[24], abs_fraction__2[25]}; assign one_hot_2164 = {reverse_2163[25:0] == 26'h000_0000, reverse_2163[25] && reverse_2163[24:0] == 25'h000_0000, reverse_2163[24] && reverse_2163[23:0] == 24'h00_0000, reverse_2163[23] && reverse_2163[22:0] == 23'h00_0000, reverse_2163[22] && reverse_2163[21:0] == 22'h00_0000, reverse_2163[21] && reverse_2163[20:0] == 21'h00_0000, reverse_2163[20] && reverse_2163[19:0] == 20'h0_0000, reverse_2163[19] && reverse_2163[18:0] == 19'h0_0000, reverse_2163[18] && reverse_2163[17:0] == 18'h0_0000, reverse_2163[17] && reverse_2163[16:0] == 17'h0_0000, reverse_2163[16] && reverse_2163[15:0] == 16'h0000, reverse_2163[15] && reverse_2163[14:0] == 15'h0000, reverse_2163[14] && reverse_2163[13:0] == 14'h0000, reverse_2163[13] && reverse_2163[12:0] == 13'h0000, reverse_2163[12] && reverse_2163[11:0] == 12'h000, reverse_2163[11] && reverse_2163[10:0] == 11'h000, reverse_2163[10] && reverse_2163[9:0] == 10'h000, reverse_2163[9] && reverse_2163[8:0] == 9'h000, reverse_2163[8] && reverse_2163[7:0] == 8'h00, reverse_2163[7] && reverse_2163[6:0] == 7'h00, reverse_2163[6] && reverse_2163[5:0] == 6'h00, reverse_2163[5] && reverse_2163[4:0] == 5'h00, reverse_2163[4] && reverse_2163[3:0] == 4'h0, reverse_2163[3] && reverse_2163[2:0] == 3'h0, reverse_2163[2] && reverse_2163[1:0] == 2'h0, reverse_2163[1] && !reverse_2163[0], reverse_2163[0]}; assign encode_2165 = {one_hot_2164[16] | one_hot_2164[17] | one_hot_2164[18] | one_hot_2164[19] | one_hot_2164[20] | one_hot_2164[21] | one_hot_2164[22] | one_hot_2164[23] | one_hot_2164[24] | one_hot_2164[25] | one_hot_2164[26], one_hot_2164[8] | one_hot_2164[9] | one_hot_2164[10] | one_hot_2164[11] | one_hot_2164[12] | one_hot_2164[13] | one_hot_2164[14] | one_hot_2164[15] | one_hot_2164[24] | one_hot_2164[25] | one_hot_2164[26], one_hot_2164[4] | one_hot_2164[5] | one_hot_2164[6] | one_hot_2164[7] | one_hot_2164[12] | one_hot_2164[13] | one_hot_2164[14] | one_hot_2164[15] | one_hot_2164[20] | one_hot_2164[21] | one_hot_2164[22] | one_hot_2164[23], one_hot_2164[2] | one_hot_2164[3] | one_hot_2164[6] | one_hot_2164[7] | one_hot_2164[10] | one_hot_2164[11] | one_hot_2164[14] | one_hot_2164[15] | one_hot_2164[18] | one_hot_2164[19] | one_hot_2164[22] | one_hot_2164[23] | one_hot_2164[26], one_hot_2164[1] | one_hot_2164[3] | one_hot_2164[5] | one_hot_2164[7] | one_hot_2164[9] | one_hot_2164[11] | one_hot_2164[13] | one_hot_2164[15] | one_hot_2164[17] | one_hot_2164[19] | one_hot_2164[21] | one_hot_2164[23] | one_hot_2164[25]}; assign cancel__2 = |encode_2165[4:1]; assign carry_bit__2 = abs_fraction__2[25]; assign add_2174 = {cancel__1, encode_2165} + 6'h3f; assign carry_fraction__1 = abs_fraction__2[25:1]; assign concat_2182 = {~(carry_bit__2 | cancel__2), ~(carry_bit__2 | ~cancel__2), ~(~carry_bit__2 | cancel__2)}; assign carry_fraction__4 = carry_fraction__1 | {literal_2134, abs_fraction__2[0]}; assign cancel_fraction__2 = {{20{add_2174[5]}}, add_2174} >= 26'h000_0019 ? 25'h000_0000 : abs_fraction__2[24:0] << {{20{add_2174[5]}}, add_2174}; assign shifted_fraction = carry_fraction__4 & {25{concat_2182[0]}} | cancel_fraction__2 & {25{concat_2182[1]}} | abs_fraction__2[24:0] & {25{concat_2182[2]}}; assign normal_chunk = shifted_fraction[16:0]; assign half_of_extra = 17'h1_0000; assign half_way_chunk = shifted_fraction[17:16]; assign concat_2194 = {cancel__1, shifted_fraction[24:17]}; assign add_2197 = concat_2194 + 9'h001; assign rounded_fraction__1 = normal_chunk > half_of_extra | half_way_chunk == 2'h3 ? add_2197 : concat_2194; assign sub_2203 = 5'h00 - {cancel__1, encode_2165[4:1]}; assign greater_exp = overflow_detected ? ab_bexp__2 : {cancel__1, c_bexp__2}; assign rounding_carry = rounded_fraction__1[8]; assign concat_2208 = {sub_2203, ~encode_2165[0]}; assign fraction_is_zero = sum_fraction == 27'h000_0000; assign bexp_associative_element__1 = {{4{concat_2208[5]}}, concat_2208}; assign bexp_associative_element__4 = {cancel__1, greater_exp} + {literal_2059, rounding_carry}; assign bexp__1 = bexp_associative_element__1 + bexp_associative_element__4; assign bexp__2 = bexp__1 & {10{~fraction_is_zero}}; assign eq_2222 = ab_bexp__2 == literal_2082; assign eq_2223 = ab_fraction__2 == literal_2128; assign eq_2224 = c_bexp__2 == max_exp; assign eq_2225 = c_fraction__2 == literal_2049; assign bexp__6 = bexp__2[8:0] & {9{~bexp__2[9]}}; assign and_2230 = eq_2222 & eq_2223; assign is_operand_inf = and_2230 | eq_2224 & eq_2225; assign and_reduce_2239 = &bexp__6[7:0]; assign has_pos_inf = ~(~(eq_2222 & eq_2223) | ab_sign__2) | ~(~eq_2224 | ~eq_2225 | c_sign__2); assign has_neg_inf = and_2230 & ab_sign__2 | eq_2224 & eq_2225 & c_sign__2; assign is_result_nan = ~(~eq_2222 | eq_2223) | ~(~eq_2224 | eq_2225) | has_pos_inf & has_neg_inf; assign result_sign = priority_sel_1b_2way({sum_fraction[26], fraction_is_zero}, cancel__1, ~greater_sign, greater_sign); assign result_fraction = rounded_fraction__1[6:0]; assign result_sign__1 = is_operand_inf ? ~has_pos_inf : result_sign; assign result_fraction__3 = result_fraction & {7{~(is_operand_inf | bexp__6[8] | and_reduce_2239 | bexp__6 == literal_2059)}}; assign one_hot_2269 = {concat_2182[2:0] == 3'h0, concat_2182[2] && concat_2182[1:0] == 2'h0, concat_2182[1] && !concat_2182[0], concat_2182[0]}; assign result_sign__2 = ~is_result_nan & result_sign__1; assign result_exp__2 = is_result_nan | is_operand_inf | bexp__6[8] | and_reduce_2239 ? max_exp : bexp__6[7:0]; assign result_fraction__4 = is_result_nan ? 7'h08 : result_fraction__3; assign out = {result_sign__2, result_exp__2, result_fraction__4}; endmodule