module el2_ifu_ifc_ctl( input clock, input reset, input io_free_clk, input io_active_clk, input io_scan_mode, input io_ic_hit_f, input io_ifu_ic_mb_empty, input io_ifu_fb_consume1, input io_ifu_fb_consume2, input io_dec_tlu_flush_noredir_wb, input io_exu_flush_final, input [30:0] io_exu_flush_path_final, input io_ifu_bp_hit_taken_f, input [30:0] io_ifu_bp_btb_target_f, input io_ic_dma_active, input io_ic_write_stall, input io_dma_iccm_stall_any, input [31:0] io_dec_tlu_mrac_ff, output [30:0] io_ifc_fetch_addr_f, output [30:0] io_ifc_fetch_addr_bf, output io_ifc_fetch_req_f, output io_ifu_pmu_fetch_stall, output io_ifc_fetch_uncacheable_bf, output io_ifc_fetch_req_bf, output io_ifc_fetch_req_bf_raw, output io_ifc_iccm_access_bf, output io_ifc_region_acc_fault_bf, output io_ifc_dma_access_ok, output io_test ); `ifdef RANDOMIZE_REG_INIT reg [31:0] _RAND_0; reg [31:0] _RAND_1; reg [31:0] _RAND_2; reg [31:0] _RAND_3; reg [31:0] _RAND_4; reg [31:0] _RAND_5; reg [31:0] _RAND_6; `endif // RANDOMIZE_REG_INIT reg dma_iccm_stall_any_f; // @[el2_ifu_ifc_ctl.scala 64:58] wire dma_stall = io_ic_dma_active | dma_iccm_stall_any_f; // @[el2_ifu_ifc_ctl.scala 63:36] reg miss_a; // @[el2_ifu_ifc_ctl.scala 66:44] wire _T_2 = ~io_exu_flush_final; // @[el2_ifu_ifc_ctl.scala 68:26] wire _T_3 = ~io_ifc_fetch_req_f; // @[el2_ifu_ifc_ctl.scala 68:49] wire _T_4 = ~io_ic_hit_f; // @[el2_ifu_ifc_ctl.scala 68:71] wire _T_5 = _T_3 | _T_4; // @[el2_ifu_ifc_ctl.scala 68:69] wire sel_last_addr_bf = _T_2 & _T_5; // @[el2_ifu_ifc_ctl.scala 68:46] wire _T_7 = _T_2 & io_ifc_fetch_req_f; // @[el2_ifu_ifc_ctl.scala 69:46] wire _T_8 = _T_7 & io_ifu_bp_hit_taken_f; // @[el2_ifu_ifc_ctl.scala 69:67] wire sel_btb_addr_bf = _T_8 & io_ic_hit_f; // @[el2_ifu_ifc_ctl.scala 69:92] wire _T_11 = ~io_ifu_bp_hit_taken_f; // @[el2_ifu_ifc_ctl.scala 70:69] wire _T_12 = _T_7 & _T_11; // @[el2_ifu_ifc_ctl.scala 70:67] wire sel_next_addr_bf = _T_12 & io_ic_hit_f; // @[el2_ifu_ifc_ctl.scala 70:92] wire [30:0] _T_17 = io_exu_flush_final ? io_exu_flush_path_final : 31'h0; // @[Mux.scala 27:72] wire [30:0] _T_18 = sel_last_addr_bf ? io_ifc_fetch_addr_f : 31'h0; // @[Mux.scala 27:72] wire [30:0] _T_19 = sel_btb_addr_bf ? io_ifu_bp_btb_target_f : 31'h0; // @[Mux.scala 27:72] wire [29:0] address_upper = io_ifc_fetch_addr_f[30:1] + 30'h1; // @[el2_ifu_ifc_ctl.scala 78:48] wire _T_29 = address_upper[4] ^ io_ifc_fetch_addr_f[5]; // @[el2_ifu_ifc_ctl.scala 79:63] wire _T_30 = ~_T_29; // @[el2_ifu_ifc_ctl.scala 79:24] wire fetch_addr_next_0 = _T_30 & io_ifc_fetch_addr_f[0]; // @[el2_ifu_ifc_ctl.scala 79:109] wire [30:0] fetch_addr_next = {address_upper,fetch_addr_next_0}; // @[Cat.scala 29:58] wire [30:0] _T_20 = sel_next_addr_bf ? fetch_addr_next : 31'h0; // @[Mux.scala 27:72] wire [30:0] _T_21 = _T_17 | _T_18; // @[Mux.scala 27:72] wire [30:0] _T_22 = _T_21 | _T_19; // @[Mux.scala 27:72] reg [1:0] state; // @[el2_ifu_ifc_ctl.scala 103:19] wire idle = state == 2'h0; // @[el2_ifu_ifc_ctl.scala 122:17] wire _T_35 = io_ifu_fb_consume2 | io_ifu_fb_consume1; // @[el2_ifu_ifc_ctl.scala 85:91] wire _T_36 = ~_T_35; // @[el2_ifu_ifc_ctl.scala 85:70] wire [3:0] _T_121 = io_exu_flush_final ? 4'h1 : 4'h0; // @[Mux.scala 27:72] wire _T_81 = ~io_ifu_fb_consume2; // @[el2_ifu_ifc_ctl.scala 107:38] wire _T_82 = io_ifu_fb_consume1 & _T_81; // @[el2_ifu_ifc_ctl.scala 107:36] wire _T_48 = io_ifc_fetch_req_f & _T_4; // @[el2_ifu_ifc_ctl.scala 90:32] wire miss_f = _T_48 & _T_2; // @[el2_ifu_ifc_ctl.scala 90:47] wire _T_84 = _T_3 | miss_f; // @[el2_ifu_ifc_ctl.scala 107:81] wire _T_85 = _T_82 & _T_84; // @[el2_ifu_ifc_ctl.scala 107:58] wire _T_86 = io_ifu_fb_consume2 & io_ifc_fetch_req_f; // @[el2_ifu_ifc_ctl.scala 108:25] wire fb_right = _T_85 | _T_86; // @[el2_ifu_ifc_ctl.scala 107:92] wire _T_98 = _T_2 & fb_right; // @[el2_ifu_ifc_ctl.scala 114:16] reg [3:0] fb_write_f; // @[el2_ifu_ifc_ctl.scala 127:24] wire [3:0] _T_101 = {1'h0,fb_write_f[3:1]}; // @[Cat.scala 29:58] wire [3:0] _T_122 = _T_98 ? _T_101 : 4'h0; // @[Mux.scala 27:72] wire [3:0] _T_126 = _T_121 | _T_122; // @[Mux.scala 27:72] wire fb_right2 = io_ifu_fb_consume2 & _T_84; // @[el2_ifu_ifc_ctl.scala 110:36] wire _T_103 = _T_2 & fb_right2; // @[el2_ifu_ifc_ctl.scala 115:16] wire [3:0] _T_106 = {2'h0,fb_write_f[3:2]}; // @[Cat.scala 29:58] wire [3:0] _T_123 = _T_103 ? _T_106 : 4'h0; // @[Mux.scala 27:72] wire [3:0] _T_127 = _T_126 | _T_123; // @[Mux.scala 27:72] wire _T_91 = io_ifu_fb_consume1 | io_ifu_fb_consume2; // @[el2_ifu_ifc_ctl.scala 111:56] wire _T_92 = ~_T_91; // @[el2_ifu_ifc_ctl.scala 111:35] wire _T_93 = io_ifc_fetch_req_f & _T_92; // @[el2_ifu_ifc_ctl.scala 111:33] wire _T_94 = ~miss_f; // @[el2_ifu_ifc_ctl.scala 111:80] wire fb_left = _T_93 & _T_94; // @[el2_ifu_ifc_ctl.scala 111:78] wire _T_108 = _T_2 & fb_left; // @[el2_ifu_ifc_ctl.scala 116:16] wire [3:0] _T_111 = {fb_write_f[2:0],1'h0}; // @[Cat.scala 29:58] wire [3:0] _T_124 = _T_108 ? _T_111 : 4'h0; // @[Mux.scala 27:72] wire [3:0] _T_128 = _T_127 | _T_124; // @[Mux.scala 27:72] wire _T_113 = ~fb_right; // @[el2_ifu_ifc_ctl.scala 117:18] wire _T_114 = _T_2 & _T_113; // @[el2_ifu_ifc_ctl.scala 117:16] wire _T_115 = ~fb_right2; // @[el2_ifu_ifc_ctl.scala 117:30] wire _T_116 = _T_114 & _T_115; // @[el2_ifu_ifc_ctl.scala 117:28] wire _T_117 = ~fb_left; // @[el2_ifu_ifc_ctl.scala 117:43] wire _T_118 = _T_116 & _T_117; // @[el2_ifu_ifc_ctl.scala 117:41] wire [3:0] _T_125 = _T_118 ? fb_write_f : 4'h0; // @[Mux.scala 27:72] wire [3:0] fb_write_ns = _T_128 | _T_125; // @[Mux.scala 27:72] wire fb_full_f_ns = fb_write_ns[3]; // @[el2_ifu_ifc_ctl.scala 125:30] wire _T_37 = fb_full_f_ns & _T_36; // @[el2_ifu_ifc_ctl.scala 85:68] wire _T_38 = ~_T_37; // @[el2_ifu_ifc_ctl.scala 85:53] wire _T_39 = io_ifc_fetch_req_bf_raw & _T_38; // @[el2_ifu_ifc_ctl.scala 85:51] wire _T_40 = ~dma_stall; // @[el2_ifu_ifc_ctl.scala 86:5] wire _T_41 = _T_39 & _T_40; // @[el2_ifu_ifc_ctl.scala 85:114] wire _T_42 = ~io_ic_write_stall; // @[el2_ifu_ifc_ctl.scala 86:18] wire _T_43 = _T_41 & _T_42; // @[el2_ifu_ifc_ctl.scala 86:16] wire _T_44 = ~io_dec_tlu_flush_noredir_wb; // @[el2_ifu_ifc_ctl.scala 86:39] wire fetch_bf_en = io_exu_flush_final | io_ifc_fetch_req_f; // @[el2_ifu_ifc_ctl.scala 88:37] wire _T_51 = io_ifu_ic_mb_empty | io_exu_flush_final; // @[el2_ifu_ifc_ctl.scala 92:39] wire _T_53 = _T_51 & _T_40; // @[el2_ifu_ifc_ctl.scala 92:61] wire _T_55 = _T_53 & _T_94; // @[el2_ifu_ifc_ctl.scala 92:74] wire _T_56 = ~miss_a; // @[el2_ifu_ifc_ctl.scala 92:86] wire mb_empty_mod = _T_55 & _T_56; // @[el2_ifu_ifc_ctl.scala 92:84] wire goto_idle = io_exu_flush_final & io_dec_tlu_flush_noredir_wb; // @[el2_ifu_ifc_ctl.scala 94:35] wire _T_60 = io_exu_flush_final & _T_44; // @[el2_ifu_ifc_ctl.scala 96:36] wire leave_idle = _T_60 & idle; // @[el2_ifu_ifc_ctl.scala 96:67] wire _T_63 = ~state[1]; // @[el2_ifu_ifc_ctl.scala 98:23] wire _T_65 = _T_63 & state[0]; // @[el2_ifu_ifc_ctl.scala 98:33] wire _T_66 = _T_65 & miss_f; // @[el2_ifu_ifc_ctl.scala 98:44] wire _T_67 = ~goto_idle; // @[el2_ifu_ifc_ctl.scala 98:55] wire _T_68 = _T_66 & _T_67; // @[el2_ifu_ifc_ctl.scala 98:53] wire _T_70 = ~mb_empty_mod; // @[el2_ifu_ifc_ctl.scala 99:17] wire _T_71 = state[1] & _T_70; // @[el2_ifu_ifc_ctl.scala 99:15] wire _T_73 = _T_71 & _T_67; // @[el2_ifu_ifc_ctl.scala 99:31] wire next_state_1 = _T_68 | _T_73; // @[el2_ifu_ifc_ctl.scala 98:67] wire _T_75 = _T_67 & leave_idle; // @[el2_ifu_ifc_ctl.scala 101:34] wire _T_78 = state[0] & _T_67; // @[el2_ifu_ifc_ctl.scala 101:60] wire next_state_0 = _T_75 | _T_78; // @[el2_ifu_ifc_ctl.scala 101:48] wire wfm = state == 2'h3; // @[el2_ifu_ifc_ctl.scala 123:16] reg fb_full_f; // @[el2_ifu_ifc_ctl.scala 126:26] wire _T_138 = _T_35 | io_exu_flush_final; // @[el2_ifu_ifc_ctl.scala 130:61] wire _T_139 = ~_T_138; // @[el2_ifu_ifc_ctl.scala 130:19] wire _T_140 = fb_full_f & _T_139; // @[el2_ifu_ifc_ctl.scala 130:17] wire _T_141 = _T_140 | dma_stall; // @[el2_ifu_ifc_ctl.scala 130:84] wire _T_142 = io_ifc_fetch_req_bf_raw & _T_141; // @[el2_ifu_ifc_ctl.scala 129:60] wire [31:0] _T_144 = {io_ifc_fetch_addr_bf,1'h0}; // @[Cat.scala 29:58] wire iccm_acc_in_region_bf = _T_144[31:28] == 4'he; // @[el2_lib.scala 211:47] wire iccm_acc_in_range_bf = _T_144[31:16] == 16'hee00; // @[el2_lib.scala 214:29] wire _T_147 = ~io_ifc_iccm_access_bf; // @[el2_ifu_ifc_ctl.scala 136:30] wire _T_150 = fb_full_f & _T_36; // @[el2_ifu_ifc_ctl.scala 137:16] wire _T_151 = _T_147 | _T_150; // @[el2_ifu_ifc_ctl.scala 136:53] wire _T_152 = ~io_ifc_fetch_req_bf; // @[el2_ifu_ifc_ctl.scala 138:13] wire _T_153 = wfm & _T_152; // @[el2_ifu_ifc_ctl.scala 138:11] wire _T_154 = _T_151 | _T_153; // @[el2_ifu_ifc_ctl.scala 137:62] wire _T_155 = _T_154 | idle; // @[el2_ifu_ifc_ctl.scala 138:35] wire _T_157 = _T_155 & _T_2; // @[el2_ifu_ifc_ctl.scala 138:44] wire _T_159 = ~iccm_acc_in_range_bf; // @[el2_ifu_ifc_ctl.scala 140:33] wire [4:0] _T_162 = {io_ifc_fetch_addr_bf[30:27],1'h0}; // @[Cat.scala 29:58] wire [31:0] _T_163 = io_dec_tlu_mrac_ff >> _T_162; // @[el2_ifu_ifc_ctl.scala 141:53] reg _T_166; // @[el2_ifu_ifc_ctl.scala 143:32] reg [30:0] _T_168; // @[Reg.scala 27:20] assign io_ifc_fetch_addr_f = _T_168; // @[el2_ifu_ifc_ctl.scala 145:23] assign io_ifc_fetch_addr_bf = _T_22 | _T_20; // @[el2_ifu_ifc_ctl.scala 73:24] assign io_ifc_fetch_req_f = _T_166; // @[el2_ifu_ifc_ctl.scala 143:22] assign io_ifu_pmu_fetch_stall = wfm | _T_142; // @[el2_ifu_ifc_ctl.scala 129:26] assign io_ifc_fetch_uncacheable_bf = ~_T_163[0]; // @[el2_ifu_ifc_ctl.scala 141:31] assign io_ifc_fetch_req_bf = _T_43 & _T_44; // @[el2_ifu_ifc_ctl.scala 85:23] assign io_ifc_fetch_req_bf_raw = ~idle; // @[el2_ifu_ifc_ctl.scala 83:27] assign io_ifc_iccm_access_bf = _T_144[31:16] == 16'hee00; // @[el2_ifu_ifc_ctl.scala 135:25] assign io_ifc_region_acc_fault_bf = _T_159 & iccm_acc_in_region_bf; // @[el2_ifu_ifc_ctl.scala 140:30] assign io_ifc_dma_access_ok = _T_157 | dma_iccm_stall_any_f; // @[el2_ifu_ifc_ctl.scala 136:24] assign io_test = _T_30 & io_ifc_fetch_addr_f[0]; // @[el2_ifu_ifc_ctl.scala 80:11] `ifdef RANDOMIZE_GARBAGE_ASSIGN `define RANDOMIZE `endif `ifdef RANDOMIZE_INVALID_ASSIGN `define RANDOMIZE `endif `ifdef RANDOMIZE_REG_INIT `define RANDOMIZE `endif `ifdef RANDOMIZE_MEM_INIT `define RANDOMIZE `endif `ifndef RANDOM `define RANDOM $random `endif `ifdef RANDOMIZE_MEM_INIT integer initvar; `endif `ifndef SYNTHESIS `ifdef FIRRTL_BEFORE_INITIAL `FIRRTL_BEFORE_INITIAL `endif initial begin `ifdef RANDOMIZE `ifdef INIT_RANDOM `INIT_RANDOM `endif `ifndef VERILATOR `ifdef RANDOMIZE_DELAY #`RANDOMIZE_DELAY begin end `else #0.002 begin end `endif `endif `ifdef RANDOMIZE_REG_INIT _RAND_0 = {1{`RANDOM}}; dma_iccm_stall_any_f = _RAND_0[0:0]; _RAND_1 = {1{`RANDOM}}; miss_a = _RAND_1[0:0]; _RAND_2 = {1{`RANDOM}}; state = _RAND_2[1:0]; _RAND_3 = {1{`RANDOM}}; fb_write_f = _RAND_3[3:0]; _RAND_4 = {1{`RANDOM}}; fb_full_f = _RAND_4[0:0]; _RAND_5 = {1{`RANDOM}}; _T_166 = _RAND_5[0:0]; _RAND_6 = {1{`RANDOM}}; _T_168 = _RAND_6[30:0]; `endif // RANDOMIZE_REG_INIT if (reset) begin dma_iccm_stall_any_f = 1'h0; end if (reset) begin miss_a = 1'h0; end if (reset) begin state = 2'h0; end if (reset) begin fb_write_f = 4'h0; end if (reset) begin fb_full_f = 1'h0; end if (reset) begin _T_166 = 1'h0; end if (reset) begin _T_168 = 31'h0; end `endif // RANDOMIZE end // initial `ifdef FIRRTL_AFTER_INITIAL `FIRRTL_AFTER_INITIAL `endif `endif // SYNTHESIS always @(posedge io_free_clk or posedge reset) begin if (reset) begin dma_iccm_stall_any_f <= 1'h0; end else begin dma_iccm_stall_any_f <= io_dma_iccm_stall_any; end end always @(posedge io_free_clk or posedge reset) begin if (reset) begin miss_a <= 1'h0; end else begin miss_a <= _T_48 & _T_2; end end always @(posedge clock or posedge reset) begin if (reset) begin state <= 2'h0; end else begin state <= {next_state_1,next_state_0}; end end always @(posedge clock or posedge reset) begin if (reset) begin fb_write_f <= 4'h0; end else begin fb_write_f <= _T_128 | _T_125; end end always @(posedge clock or posedge reset) begin if (reset) begin fb_full_f <= 1'h0; end else begin fb_full_f <= fb_write_ns[3]; end end always @(posedge clock or posedge reset) begin if (reset) begin _T_166 <= 1'h0; end else begin _T_166 <= io_ifc_fetch_req_bf; end end always @(posedge clock or posedge reset) begin if (reset) begin _T_168 <= 31'h0; end else if (fetch_bf_en) begin _T_168 <= io_ifc_fetch_addr_bf; end end endmodule