Changeset 88 for trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src
- Timestamp:
- Dec 10, 2008, 7:31:39 PM (16 years ago)
- Location:
- trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src
- Files:
-
- 9 edited
Legend:
- Unmodified
- Added
- Removed
-
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Parameters.cpp
r82 r88 30 30 uint32_t nb_inst_branch_predict, 31 31 uint32_t nb_inst_branch_decod , 32 uint32_t nb_inst_branch_update ) 32 uint32_t nb_inst_branch_update , 33 bool is_toplevel 34 ) 33 35 { 34 36 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin"); 35 37 36 38 _nb_context = nb_context ; 37 _size_address = size_address ;38 39 _nb_instruction = nb_instruction ; 39 _size_depth = size_depth ; 40 // _size_depth = size_depth ; 41 _array_size_depth = size_depth ; 40 42 _nb_decod_unit = nb_decod_unit ; 41 43 _nb_inst_decod = nb_inst_decod ; 42 // 43 // 44 // _nb_ooo_engine = nb_ooo_engine ; 45 // _nb_inst_update = nb_inst_update ; 44 46 _nb_inst_branch_predict = nb_inst_branch_predict; 45 47 _nb_inst_branch_decod = nb_inst_branch_decod ; 46 48 _nb_inst_branch_update = nb_inst_branch_update ; 47 49 48 _size_context_id = log2(_nb_context); 49 _size_inst_ifetch_ptr = new uint32_t [_nb_context]; 50 _max_size_depth = max<uint32_t>(_size_depth,_nb_context); 50 test(); 51 51 52 _have_port_context_id = (_size_context_id>0); 53 _have_port_max_depth = (_max_size_depth>0); 54 _have_port_depth = new bool [_nb_context]; 55 _have_port_inst_ifetch_ptr = new bool [_nb_context]; 52 if (is_toplevel) 53 { 54 _size_instruction_address = size_address; 55 _size_context_id = log2(_nb_context); 56 _size_depth = max<uint32_t>(size_depth,_nb_context); 57 _size_inst_ifetch_ptr = log2(max<uint32_t>(_nb_instruction,_nb_context)); 56 58 57 for (uint32_t i=0; i<_nb_context; i++)58 {59 _ size_inst_ifetch_ptr [i] = log2(_nb_instruction [i]);60 _have_port_depth [i] = (_size_depth [i] > 0); 61 _have_port_inst_ifetch_ptr [i] = (_size_inst_ifetch_ptr [i] > 0);59 _have_port_context_id = (_size_context_id > 0); 60 _have_port_depth = (_size_depth > 0); 61 _have_port_inst_ifetch_ptr = (_size_inst_ifetch_ptr > 0); 62 63 copy (); 62 64 } 63 65 64 test();65 66 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"End"); 66 67 }; … … 80 81 { 81 82 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin"); 82 delete [] _size_inst_ifetch_ptr ; 83 delete [] _have_port_depth ; 84 delete [] _have_port_inst_ifetch_ptr; 83 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"End"); 84 }; 85 86 #undef FUNCTION 87 #define FUNCTION "Prediction_unit_Glue::copy" 88 void Parameters::copy (void) 89 { 90 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin"); 85 91 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"End"); 86 92 }; -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Parameters_print.cpp
r82 r88 30 30 xml.singleton_begin("nb_decod_unit "); xml.attribut("value",toString(_nb_decod_unit )); xml.singleton_end(); 31 31 // xml.singleton_begin("nb_ooo_engine "); xml.attribut("value",toString(_nb_ooo_engine )); xml.singleton_end(); 32 32 // xml.singleton_begin("size_address "); xml.attribut("value",toString(_size_address )); xml.singleton_end(); 33 33 xml.singleton_begin("nb_inst_branch_predict"); xml.attribut("value",toString(_nb_inst_branch_predict)); xml.singleton_end(); 34 34 xml.singleton_begin("nb_inst_branch_decod "); xml.attribut("value",toString(_nb_inst_branch_decod )); xml.singleton_end(); … … 43 43 xml. attribut("id" ,toString(i)); 44 44 xml. balise_open_end(); 45 46 45 xml. singleton_begin("nb_instruction "); xml.attribut("value",toString(_nb_instruction [i])); xml.singleton_end(); 46 // xml. singleton_begin("size_depth "); xml.attribut("value",toString(_size_depth [i])); xml.singleton_end(); 47 47 xml. balise_close(); 48 48 } … … 53 53 xml. attribut("id" ,toString(i)); 54 54 xml. balise_open_end(); 55 55 xml. singleton_begin("nb_inst_decod "); xml.attribut("value",toString(_nb_inst_decod [i])); xml.singleton_end(); 56 56 xml. balise_close(); 57 57 } … … 62 62 // xml. attribut("id" ,toString(i)); 63 63 // xml. balise_open_end(); 64 // 64 // xml. singleton_begin("nb_inst_update "); xml.attribut("value",toString(_nb_inst_update [i])); xml.singleton_end(); 65 65 // xml. balise_close(); 66 66 // } … … 76 76 #define FUNCTION "Prediction_unit_Glue::operator<<" 77 77 std::ostream& operator<< (std::ostream& output_stream , 78 78 morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::prediction_unit_glue::Parameters & x) 79 79 { 80 80 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin"); -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Prediction_unit_Glue.cpp
r82 r88 40 40 usage_environment(_usage); 41 41 42 #if DEBUG_Prediction_unit_Glue == true 43 log_printf(INFO,Prediction_unit_Glue,FUNCTION,_("<%s> Parameters"),_name.c_str()); 44 45 std::cout << *param << std::endl; 46 #endif 47 42 48 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Allocation"); 43 49 44 50 allocation ( 45 51 #ifdef STATISTICS 46 52 param_statistics 47 53 #endif 48 54 ); 49 55 50 56 #ifdef STATISTICS 51 57 if (usage_is_set(_usage,USE_STATISTICS)) 52 { 53 54 55 58 { 59 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Allocation of statistics"); 60 61 statistics_allocation(param_statistics); 56 62 } 57 63 #endif … … 60 66 if (usage_is_set(_usage,USE_VHDL)) 61 67 { 62 63 64 65 68 // generate the vhdl 69 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Generate the vhdl"); 70 71 vhdl(); 66 72 } 67 73 #endif … … 70 76 if (usage_is_set(_usage,USE_SYSTEMC)) 71 77 { 72 73 74 75 76 77 78 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Method - transition"); 79 80 SC_METHOD (transition); 81 dont_initialize (); 82 sensitive << (*(in_CLOCK)).pos(); 83 78 84 # ifdef SYSTEMCASS_SPECIFIC 79 85 // List dependency information 80 86 # endif 81 87 82 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Method - genMealy_predict"); 83 84 SC_METHOD (genMealy_predict); 85 dont_initialize (); 86 sensitive << (*(in_CLOCK)).neg(); // use internal register 87 for (uint32_t i=0; i<_param->_nb_context; i++) 88 { 89 sensitive << (*( in_PREDICT_VAL [i])) 90 << (*( in_PREDICT_PC_PREVIOUS [i])) 91 << (*( in_PREDICT_PC_CURRENT [i])) 92 << (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 93 } 94 for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 95 { 96 sensitive << (*( in_PREDICT_BTB_ACK [i])) 97 << (*( in_PREDICT_BTB_HIT [i])) 98 << (*( in_PREDICT_BTB_ADDRESS_SRC [i])) 99 << (*( in_PREDICT_BTB_ADDRESS_DEST [i])) 100 << (*( in_PREDICT_BTB_CONDITION [i])) 101 // << (*( in_PREDICT_BTB_LAST_TAKE [i])) 102 << (*( in_PREDICT_BTB_IS_ACCURATE [i])) 103 << (*( in_PREDICT_DIR_ACK [i])) 104 // << (*( in_PREDICT_DIR_HISTORY [i])) 105 << (*( in_PREDICT_DIR_DIRECTION [i])) 106 << (*( in_PREDICT_RAS_ACK [i])) 107 << (*( in_PREDICT_RAS_HIT [i])) 108 << (*( in_PREDICT_RAS_ADDRESS_POP [i])) 109 // << (*( in_PREDICT_RAS_INDEX [i])) 110 << (*( in_PREDICT_UPT_ACK [i])); 111 } 112 for (uint32_t i=0; i<_param->_nb_context; i++) 113 { 114 sensitive << (*(in_DEPTH_UPT_NB_BRANCH [i])); 115 if (_param->_have_port_depth[i]) 116 sensitive << (*(in_DEPTH_UPT_TAIL [i])); 117 } 88 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Method - genMealy_predict"); 89 90 SC_METHOD (genMealy_predict); 91 92 dont_initialize (); 93 sensitive << (*(in_CLOCK)).neg(); // use internal register 94 95 for (uint32_t i=0; i<_param->_nb_context; i++) 96 { 97 sensitive << (*( in_PREDICT_VAL [i])) 98 << (*( in_PREDICT_PC_PREVIOUS [i])) 99 << (*( in_PREDICT_PC_CURRENT [i])) 100 << (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 101 } 102 103 for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 104 { 105 sensitive << (*( in_PREDICT_BTB_ACK [i])) 106 << (*( in_PREDICT_BTB_HIT [i])) 107 << (*( in_PREDICT_BTB_ADDRESS_SRC [i])) 108 << (*( in_PREDICT_BTB_ADDRESS_DEST [i])) 109 << (*( in_PREDICT_BTB_CONDITION [i])) 110 // << (*( in_PREDICT_BTB_LAST_TAKE [i])) 111 << (*( in_PREDICT_BTB_IS_ACCURATE [i])) 112 << (*( in_PREDICT_DIR_ACK [i])) 113 // << (*( in_PREDICT_DIR_HISTORY [i])) 114 << (*( in_PREDICT_DIR_DIRECTION [i])) 115 << (*( in_PREDICT_RAS_ACK [i])) 116 << (*( in_PREDICT_RAS_HIT [i])) 117 << (*( in_PREDICT_RAS_ADDRESS_POP [i])) 118 // << (*( in_PREDICT_RAS_INDEX [i])) 119 << (*( in_PREDICT_UPT_ACK [i])); 120 if (_param->_have_port_depth) 121 sensitive << (*( in_PREDICT_UPT_BRANCH_UPDATE_PREDICTION_ID [i])); 122 } 123 124 // for (uint32_t i=0; i<_param->_nb_context; i++) 125 // { 126 // sensitive << (*(in_DEPTH_UPT_NB_BRANCH [i])); 127 // if (_param->_have_port_depth) 128 // sensitive << (*(in_DEPTH_UPT_TAIL [i])); 129 // } 118 130 119 131 # ifdef SYSTEMCASS_SPECIFIC 120 121 122 123 if (_param->_have_port_depth[x])124 125 126 127 128 129 130 131 132 133 134 135 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])136 137 138 139 140 141 142 143 144 145 146 147 148 // 149 150 151 // 152 153 154 155 156 // 157 158 159 160 161 162 163 164 165 166 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])167 168 169 170 171 172 173 174 175 176 177 178 179 // 180 181 182 // 183 184 185 186 187 // 188 189 190 191 192 193 194 195 196 197 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])198 199 200 201 202 203 204 205 206 207 208 209 210 // 211 212 213 // 214 215 216 217 218 // 219 220 221 222 if (_param->_have_port_inst_ifetch_ptr [x])223 224 225 226 227 228 229 230 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])231 232 233 234 235 236 237 238 239 240 241 242 243 // 244 245 246 // 247 248 249 250 251 // 252 253 254 255 256 257 258 259 260 261 262 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])263 264 265 266 267 268 269 270 271 272 273 274 275 // 276 277 278 // 279 280 281 282 283 // 284 285 286 287 if (_param->_have_port_depth [x])288 289 290 291 292 293 294 295 if (_param->_have_port_depth [i])296 297 298 299 300 301 302 303 304 305 306 307 308 // 309 310 311 // 312 313 314 315 316 // 317 318 319 320 321 322 323 324 325 326 327 328 329 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])330 331 332 333 334 335 336 337 338 339 340 341 342 // 343 344 345 // 346 347 348 349 350 // 351 352 353 354 355 356 357 358 359 360 361 362 363 364 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])365 366 367 368 369 370 371 372 373 374 375 376 377 // 378 379 380 // 381 382 383 384 385 // 386 387 388 389 390 391 392 393 394 395 396 397 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])398 399 400 401 402 403 404 405 406 407 408 409 410 // 411 412 413 // 414 415 416 417 418 // 419 420 421 422 423 424 425 426 427 428 429 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])430 431 432 433 434 435 436 437 438 439 440 441 442 // 443 444 445 // 446 447 448 449 450 // 451 452 453 454 455 456 457 458 459 460 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])461 462 463 464 465 466 467 468 469 470 471 472 473 // 474 475 476 // 477 478 479 480 481 // 482 483 484 485 486 487 488 489 490 491 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])492 493 494 495 496 497 498 499 500 501 502 503 504 // 505 506 507 // 508 509 510 511 512 // 513 514 515 516 517 518 519 520 521 522 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])523 524 525 526 527 528 529 530 531 532 533 534 535 // 536 537 538 // 539 540 541 542 543 // 544 545 546 547 // 548 // 549 // 550 // 551 // 552 // 553 // if (_param->_have_port_depth[x] and _param->_have_port_depth[i])554 // 555 // 556 // 557 // 558 // 559 // 560 // 561 // 562 // 563 // 564 // 565 // 566 // // 567 // 568 // 569 // // 570 // 571 // 572 // 573 // 574 // // 575 // 576 // 577 578 579 580 581 582 583 584 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])585 586 587 588 589 590 591 592 593 594 595 596 597 // 598 599 600 // 601 602 603 604 605 // 606 607 608 609 610 611 612 613 614 615 616 617 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])618 619 620 621 622 623 624 625 626 627 628 629 630 // 631 632 633 // 634 635 636 637 638 // 639 640 641 642 643 644 645 646 647 648 649 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])650 651 652 653 654 655 656 657 658 659 660 661 662 // 663 664 665 // 666 667 668 669 670 // 671 672 673 674 675 676 677 678 679 680 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])681 682 683 684 685 686 687 688 689 690 691 692 693 // 694 695 696 // 697 698 699 700 701 // 702 703 704 705 706 707 708 709 710 711 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])712 713 714 715 716 717 718 719 720 721 722 723 724 // 725 726 727 // 728 729 730 731 732 // 733 734 735 736 737 738 739 740 741 742 743 744 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])745 746 747 748 749 750 751 752 753 754 755 756 757 // 758 759 760 // 761 762 763 764 765 // 766 767 768 769 770 771 772 773 774 775 776 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])777 778 779 780 781 782 783 784 785 786 787 788 789 // 790 791 792 // 793 794 795 796 797 // 798 799 800 801 802 803 804 805 806 807 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])808 809 810 811 812 813 814 815 816 817 818 819 820 // 821 822 823 // 824 825 826 827 828 // 829 830 831 832 833 834 835 836 837 838 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])839 840 841 842 843 844 845 846 847 848 849 850 851 // 852 853 854 // 855 856 857 858 859 // 860 861 862 863 864 865 866 867 868 869 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])870 871 872 873 874 875 876 877 878 879 880 881 882 // 883 884 885 // 886 887 888 889 890 // 891 892 893 894 895 896 897 898 899 900 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])901 902 903 904 905 906 907 908 909 910 911 912 913 // 914 915 916 // 917 918 919 920 921 // 922 923 924 925 // 926 // 927 // 928 // 929 // 930 // 931 // if (_param->_have_port_depth[x] and _param->_have_port_depth[i])932 // 933 // 934 // 935 // 936 // 937 // 938 // 939 // 940 // 941 // 942 // 943 // 944 // // 945 // 946 // 947 // // 948 // 949 // 950 // 951 // 952 // // 953 // 954 // 955 956 957 958 959 960 961 962 if (_param->_have_port_depth[x] and _param->_have_port_depth[i])963 964 965 966 967 968 969 970 971 972 973 974 975 // 976 977 978 // 979 980 981 982 983 // 984 985 986 987 // 988 // 989 // 990 // 991 // 992 // 993 // if (_param->_have_port_depth[x] and _param->_have_port_depth[i])994 // 995 // 996 // 997 // 998 // 999 // 1000 // 1001 // 1002 // 1003 // 1004 // 1005 // 1006 // // 1007 // 1008 // 1009 // // 1010 // 1011 // 1012 // 1013 // 1014 // // 1015 // 1016 // 1017 132 // List dependency information 133 // for (uint32_t x=0; x<_param->_nb_context; x++) 134 // { 135 // // if (_param->_have_port_depth) 136 // // { 137 // // (*(out_DEPTH_TAIL [x])) (*( in_DEPTH_UPT_TAIL [x])); 138 // // } 139 // // (*(out_DEPTH_NB_BRANCH [x])) (*( in_DEPTH_UPT_NB_BRANCH [x])); 140 141 // for (uint32_t i=0; i<_param->_nb_context; i++) 142 // { 143 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_VAL [i])); 144 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 145 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_PC_CURRENT [i])); 146 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 147 // // if (_param->_have_port_depth and _param->_have_port_depth) 148 // // { 149 // // (*(out_PREDICT_ACK [x])) (*( in_DEPTH_UPT_TAIL [i])); 150 // // } 151 // // (*(out_PREDICT_ACK [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 152 // } 153 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 154 // { 155 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_BTB_ACK [i])); 156 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_BTB_HIT [i])); 157 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 158 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 159 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_BTB_CONDITION [i])); 160 // // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 161 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 162 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_DIR_ACK [i])); 163 // // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_DIR_HISTORY [i])); 164 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 165 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_RAS_ACK [i])); 166 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_RAS_HIT [i])); 167 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 168 // // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_RAS_INDEX [i])); 169 // (*(out_PREDICT_ACK [x])) (*( in_PREDICT_UPT_ACK [i])); 170 // } 171 172 // for (uint32_t i=0; i<_param->_nb_context; i++) 173 // { 174 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_VAL [i])); 175 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 176 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_PC_CURRENT [i])); 177 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 178 // // if (_param->_have_port_depth and _param->_have_port_depth) 179 // // { 180 // // (*(out_PREDICT_PC_NEXT [x])) (*( in_DEPTH_UPT_TAIL [i])); 181 // // } 182 // // (*(out_PREDICT_PC_NEXT [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 183 // } 184 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 185 // { 186 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_BTB_ACK [i])); 187 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_BTB_HIT [i])); 188 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 189 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 190 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_BTB_CONDITION [i])); 191 // // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 192 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 193 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_DIR_ACK [i])); 194 // // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_DIR_HISTORY [i])); 195 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 196 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_RAS_ACK [i])); 197 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_RAS_HIT [i])); 198 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 199 // // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_RAS_INDEX [i])); 200 // (*(out_PREDICT_PC_NEXT [x])) (*( in_PREDICT_UPT_ACK [i])); 201 // } 202 203 // for (uint32_t i=0; i<_param->_nb_context; i++) 204 // { 205 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_VAL [i])); 206 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 207 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_PC_CURRENT [i])); 208 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 209 // // if (_param->_have_port_depth and _param->_have_port_depth) 210 // // { 211 // // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_DEPTH_UPT_TAIL [i])); 212 // // } 213 // // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 214 // } 215 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 216 // { 217 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_BTB_ACK [i])); 218 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_BTB_HIT [i])); 219 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 220 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 221 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_BTB_CONDITION [i])); 222 // // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 223 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 224 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_DIR_ACK [i])); 225 // // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_DIR_HISTORY [i])); 226 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 227 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_RAS_ACK [i])); 228 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_RAS_HIT [i])); 229 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 230 // // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_RAS_INDEX [i])); 231 // (*(out_PREDICT_PC_NEXT_IS_DS_TAKE [x])) (*( in_PREDICT_UPT_ACK [i])); 232 // } 233 234 // if (_param->_have_port_inst_ifetch_ptr) 235 // { 236 // for (uint32_t i=0; i<_param->_nb_context; i++) 237 // { 238 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_VAL [i])); 239 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 240 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_PC_CURRENT [i])); 241 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 242 // // if (_param->_have_port_depth and _param->_have_port_depth) 243 // // { 244 // // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_DEPTH_UPT_TAIL [i])); 245 // // } 246 // // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 247 // } 248 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 249 // { 250 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_BTB_ACK [i])); 251 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_BTB_HIT [i])); 252 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 253 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 254 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_BTB_CONDITION [i])); 255 // // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 256 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 257 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_DIR_ACK [i])); 258 // // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_DIR_HISTORY [i])); 259 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 260 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_RAS_ACK [i])); 261 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_RAS_HIT [i])); 262 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 263 // // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_RAS_INDEX [i])); 264 // (*(out_PREDICT_INST_IFETCH_PTR [x])) (*( in_PREDICT_UPT_ACK [i])); 265 // } 266 // } 267 268 // for (uint32_t i=0; i<_param->_nb_context; i++) 269 // { 270 // (*(out_PREDICT_BRANCH_STATE [x]))(*( in_PREDICT_VAL [i])); 271 // (*(out_PREDICT_BRANCH_STATE [x]))(*( in_PREDICT_PC_PREVIOUS [i])); 272 // (*(out_PREDICT_BRANCH_STATE [x]))(*( in_PREDICT_PC_CURRENT [i])); 273 // (*(out_PREDICT_BRANCH_STATE [x]))(*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 274 // // if (_param->_have_port_depth and _param->_have_port_depth) 275 // // { 276 // // (*(out_PREDICT_BRANCH_STATE [x]))(*( in_DEPTH_UPT_TAIL [i])); 277 // // } 278 // // (*(out_PREDICT_BRANCH_STATE [x]))(*( in_DEPTH_UPT_NB_BRANCH [i])); 279 // } 280 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 281 // { 282 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_BTB_ACK [i])); 283 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_BTB_HIT [i])); 284 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 285 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 286 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_BTB_CONDITION [i])); 287 // // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 288 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 289 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_DIR_ACK [i])); 290 // // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_DIR_HISTORY [i])); 291 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 292 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_RAS_ACK [i])); 293 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_RAS_HIT [i])); 294 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 295 // // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_RAS_INDEX [i])); 296 // (*(out_PREDICT_BRANCH_STATE [x])) (*( in_PREDICT_UPT_ACK [i])); 297 // } 298 299 // // if (_param->_have_port_depth) 300 // // { 301 // // for (uint32_t i=0; i<_param->_nb_context; i++) 302 // // { 303 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_VAL [i])); 304 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 305 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_PC_CURRENT [i])); 306 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 307 // // if (_param->_have_port_depth) 308 // // { 309 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_DEPTH_UPT_TAIL [i])); 310 // // } 311 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 312 // // } 313 // // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 314 // // { 315 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_BTB_ACK [i])); 316 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_BTB_HIT [i])); 317 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 318 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 319 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_BTB_CONDITION [i])); 320 // //// (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 321 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 322 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_DIR_ACK [i])); 323 // //// (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_DIR_HISTORY [i])); 324 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 325 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_RAS_ACK [i])); 326 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_RAS_HIT [i])); 327 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 328 // //// (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_RAS_INDEX [i])); 329 // // (*(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [x])) (*( in_PREDICT_UPT_ACK [i])); 330 // // } 331 // // } 332 333 // for (uint32_t y=0; y<_param->_nb_instruction[x]; y++) 334 // { 335 // for (uint32_t i=0; i<_param->_nb_context; i++) 336 // { 337 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_VAL [i])); 338 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_PC_PREVIOUS [i])); 339 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_PC_CURRENT [i])); 340 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 341 // // if (_param->_have_port_depth and _param->_have_port_depth) 342 // // { 343 // // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_DEPTH_UPT_TAIL [i])); 344 // // } 345 // // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 346 // } 347 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 348 // { 349 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_BTB_ACK [i])); 350 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_BTB_HIT [i])); 351 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 352 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 353 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_BTB_CONDITION [i])); 354 // // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 355 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 356 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_DIR_ACK [i])); 357 // // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_DIR_HISTORY [i])); 358 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_DIR_DIRECTION [i])); 359 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_RAS_ACK [i])); 360 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_RAS_HIT [i])); 361 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 362 // // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_RAS_INDEX [i])); 363 // (*(out_PREDICT_INSTRUCTION_ENABLE [x][y])) (*( in_PREDICT_UPT_ACK [i])); 364 // } 365 // } 366 // } 367 368 // for (uint32_t x=0; x<_param->_nb_inst_branch_predict; x++) 369 // { 370 // for (uint32_t i=0; i<_param->_nb_context; i++) 371 // { 372 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_VAL [i])); 373 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 374 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_PC_CURRENT [i])); 375 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 376 // // if (_param->_have_port_depth and _param->_have_port_depth) 377 // // { 378 // // (*(out_PREDICT_BTB_VAL [x])) (*( in_DEPTH_UPT_TAIL [i])); 379 // // } 380 // // (*(out_PREDICT_BTB_VAL [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 381 // } 382 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 383 // { 384 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_BTB_ACK [i])); 385 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_BTB_HIT [i])); 386 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 387 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 388 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_BTB_CONDITION [i])); 389 // // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 390 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 391 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_DIR_ACK [i])); 392 // // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_DIR_HISTORY [i])); 393 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 394 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_RAS_ACK [i])); 395 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_RAS_HIT [i])); 396 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 397 // // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_RAS_INDEX [i])); 398 // (*(out_PREDICT_BTB_VAL [x])) (*( in_PREDICT_UPT_ACK [i])); 399 // } 400 401 // if (_param->_have_port_context_id) 402 // { 403 // for (uint32_t i=0; i<_param->_nb_context; i++) 404 // { 405 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_VAL [i])); 406 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 407 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_PC_CURRENT [i])); 408 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 409 // // if (_param->_have_port_depth and _param->_have_port_depth) 410 // // { 411 // // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_DEPTH_UPT_TAIL [i])); 412 // // } 413 // // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 414 // } 415 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 416 // { 417 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ACK [i])); 418 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_BTB_HIT [i])); 419 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 420 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 421 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_BTB_CONDITION [i])); 422 // // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 423 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 424 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_DIR_ACK [i])); 425 // // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_DIR_HISTORY [i])); 426 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 427 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_RAS_ACK [i])); 428 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_RAS_HIT [i])); 429 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 430 // // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_RAS_INDEX [i])); 431 // (*(out_PREDICT_BTB_CONTEXT_ID [x])) (*( in_PREDICT_UPT_ACK [i])); 432 // } 433 // } 434 435 // for (uint32_t i=0; i<_param->_nb_context; i++) 436 // { 437 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_VAL [i])); 438 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 439 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_PC_CURRENT [i])); 440 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 441 // // if (_param->_have_port_depth and _param->_have_port_depth) 442 // // { 443 // // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_DEPTH_UPT_TAIL [i])); 444 // // } 445 // // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 446 // } 447 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 448 // { 449 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_BTB_ACK [i])); 450 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_BTB_HIT [i])); 451 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 452 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 453 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_BTB_CONDITION [i])); 454 // // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 455 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 456 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_DIR_ACK [i])); 457 // // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_DIR_HISTORY [i])); 458 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 459 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_RAS_ACK [i])); 460 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_RAS_HIT [i])); 461 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 462 // // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_RAS_INDEX [i])); 463 // (*(out_PREDICT_BTB_ADDRESS [x])) (*( in_PREDICT_UPT_ACK [i])); 464 // } 465 466 // for (uint32_t i=0; i<_param->_nb_context; i++) 467 // { 468 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_VAL [i])); 469 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 470 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_PC_CURRENT [i])); 471 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 472 // // if (_param->_have_port_depth and _param->_have_port_depth) 473 // // { 474 // // (*(out_PREDICT_DIR_VAL [x])) (*( in_DEPTH_UPT_TAIL [i])); 475 // // } 476 // // (*(out_PREDICT_DIR_VAL [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 477 // } 478 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 479 // { 480 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_BTB_ACK [i])); 481 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_BTB_HIT [i])); 482 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 483 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 484 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_BTB_CONDITION [i])); 485 // // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 486 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 487 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_DIR_ACK [i])); 488 // // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_DIR_HISTORY [i])); 489 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 490 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_RAS_ACK [i])); 491 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_RAS_HIT [i])); 492 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 493 // // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_RAS_INDEX [i])); 494 // (*(out_PREDICT_DIR_VAL [x])) (*( in_PREDICT_UPT_ACK [i])); 495 // } 496 497 // for (uint32_t i=0; i<_param->_nb_context; i++) 498 // { 499 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_VAL [i])); 500 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 501 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_PC_CURRENT [i])); 502 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 503 // // if (_param->_have_port_depth and _param->_have_port_depth) 504 // // { 505 // // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_DEPTH_UPT_TAIL [i])); 506 // // } 507 // // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 508 // } 509 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 510 // { 511 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_ACK [i])); 512 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_HIT [i])); 513 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 514 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 515 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_CONDITION [i])); 516 // // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 517 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 518 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_DIR_ACK [i])); 519 // // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_DIR_HISTORY [i])); 520 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 521 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_ACK [i])); 522 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_HIT [i])); 523 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 524 // // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_INDEX [i])); 525 // (*(out_PREDICT_DIR_ADDRESS_SRC [x])) (*( in_PREDICT_UPT_ACK [i])); 526 // } 527 528 // for (uint32_t i=0; i<_param->_nb_context; i++) 529 // { 530 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_VAL [i])); 531 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 532 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_PC_CURRENT [i])); 533 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 534 // // if (_param->_have_port_depth and _param->_have_port_depth) 535 // // { 536 // // (*(out_PREDICT_DIR_STATIC [x])) (*( in_DEPTH_UPT_TAIL [i])); 537 // // } 538 // // (*(out_PREDICT_DIR_STATIC [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 539 // } 540 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 541 // { 542 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_BTB_ACK [i])); 543 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_BTB_HIT [i])); 544 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 545 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 546 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_BTB_CONDITION [i])); 547 // // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 548 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 549 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_DIR_ACK [i])); 550 // // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_DIR_HISTORY [i])); 551 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 552 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_RAS_ACK [i])); 553 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_RAS_HIT [i])); 554 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 555 // // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_RAS_INDEX [i])); 556 // (*(out_PREDICT_DIR_STATIC [x])) (*( in_PREDICT_UPT_ACK [i])); 557 // } 558 559 // // for (uint32_t i=0; i<_param->_nb_context; i++) 560 // // { 561 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_VAL [i])); 562 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 563 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_PC_CURRENT [i])); 564 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 565 // // if (_param->_have_port_depth and _param->_have_port_depth) 566 // // { 567 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_DEPTH_UPT_TAIL [i])); 568 // // } 569 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 570 // // } 571 // // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 572 // // { 573 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_BTB_ACK [i])); 574 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_BTB_HIT [i])); 575 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 576 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 577 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_BTB_CONDITION [i])); 578 // // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 579 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 580 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_DIR_ACK [i])); 581 // // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_DIR_HISTORY [i])); 582 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 583 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_RAS_ACK [i])); 584 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_RAS_HIT [i])); 585 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 586 // // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_RAS_INDEX [i])); 587 // // (*(out_PREDICT_DIR_LAST_TAKE [x])) (*( in_PREDICT_UPT_ACK [i])); 588 // // } 589 590 // for (uint32_t i=0; i<_param->_nb_context; i++) 591 // { 592 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_VAL [i])); 593 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 594 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_PC_CURRENT [i])); 595 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 596 // // if (_param->_have_port_depth and _param->_have_port_depth) 597 // // { 598 // // (*(out_PREDICT_RAS_VAL [x])) (*( in_DEPTH_UPT_TAIL [i])); 599 // // } 600 // // (*(out_PREDICT_RAS_VAL [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 601 // } 602 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 603 // { 604 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_BTB_ACK [i])); 605 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_BTB_HIT [i])); 606 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 607 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 608 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_BTB_CONDITION [i])); 609 // // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 610 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 611 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_DIR_ACK [i])); 612 // // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_DIR_HISTORY [i])); 613 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 614 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_RAS_ACK [i])); 615 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_RAS_HIT [i])); 616 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 617 // // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_RAS_INDEX [i])); 618 // (*(out_PREDICT_RAS_VAL [x])) (*( in_PREDICT_UPT_ACK [i])); 619 // } 620 621 // if (_param->_have_port_context_id) 622 // { 623 // for (uint32_t i=0; i<_param->_nb_context; i++) 624 // { 625 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_VAL [i])); 626 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 627 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_PC_CURRENT [i])); 628 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 629 // if (_param->_have_port_depth and _param->_have_port_depth) 630 // { 631 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_DEPTH_UPT_TAIL [i])); 632 // } 633 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 634 // } 635 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 636 // { 637 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ACK [i])); 638 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_BTB_HIT [i])); 639 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 640 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 641 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_BTB_CONDITION [i])); 642 // // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 643 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 644 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_DIR_ACK [i])); 645 // // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_DIR_HISTORY [i])); 646 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 647 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_RAS_ACK [i])); 648 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_RAS_HIT [i])); 649 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 650 // // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_RAS_INDEX [i])); 651 // (*(out_PREDICT_RAS_CONTEXT_ID [x])) (*( in_PREDICT_UPT_ACK [i])); 652 // } 653 // } 654 655 // for (uint32_t i=0; i<_param->_nb_context; i++) 656 // { 657 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_VAL [i])); 658 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 659 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_PC_CURRENT [i])); 660 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 661 // if (_param->_have_port_depth and _param->_have_port_depth) 662 // { 663 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_DEPTH_UPT_TAIL [i])); 664 // } 665 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 666 // } 667 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 668 // { 669 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_BTB_ACK [i])); 670 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_BTB_HIT [i])); 671 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 672 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 673 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_BTB_CONDITION [i])); 674 // // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 675 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 676 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_DIR_ACK [i])); 677 // // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_DIR_HISTORY [i])); 678 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 679 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_RAS_ACK [i])); 680 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_RAS_HIT [i])); 681 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 682 // // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_RAS_INDEX [i])); 683 // (*(out_PREDICT_RAS_PUSH [x])) (*( in_PREDICT_UPT_ACK [i])); 684 // } 685 686 // for (uint32_t i=0; i<_param->_nb_context; i++) 687 // { 688 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_VAL [i])); 689 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 690 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_PC_CURRENT [i])); 691 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 692 // if (_param->_have_port_depth and _param->_have_port_depth) 693 // { 694 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_DEPTH_UPT_TAIL [i])); 695 // } 696 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 697 // } 698 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 699 // { 700 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_BTB_ACK [i])); 701 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_BTB_HIT [i])); 702 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 703 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 704 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_BTB_CONDITION [i])); 705 // // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 706 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 707 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_DIR_ACK [i])); 708 // // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_DIR_HISTORY [i])); 709 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 710 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_RAS_ACK [i])); 711 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_RAS_HIT [i])); 712 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 713 // // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_RAS_INDEX [i])); 714 // (*(out_PREDICT_RAS_ADDRESS_PUSH [x])) (*( in_PREDICT_UPT_ACK [i])); 715 // } 716 717 // for (uint32_t i=0; i<_param->_nb_context; i++) 718 // { 719 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_VAL [i])); 720 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 721 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_PC_CURRENT [i])); 722 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 723 // if (_param->_have_port_depth and _param->_have_port_depth) 724 // { 725 // (*(out_PREDICT_UPT_VAL [x])) (*( in_DEPTH_UPT_TAIL [i])); 726 // } 727 // (*(out_PREDICT_UPT_VAL [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 728 // } 729 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 730 // { 731 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_BTB_ACK [i])); 732 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_BTB_HIT [i])); 733 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 734 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 735 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_BTB_CONDITION [i])); 736 // // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 737 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 738 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_DIR_ACK [i])); 739 // // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_DIR_HISTORY [i])); 740 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 741 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_RAS_ACK [i])); 742 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_RAS_HIT [i])); 743 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 744 // // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_RAS_INDEX [i])); 745 // (*(out_PREDICT_UPT_VAL [x])) (*( in_PREDICT_UPT_ACK [i])); 746 // } 747 748 // if (_param->_have_port_context_id) 749 // { 750 // for (uint32_t i=0; i<_param->_nb_context; i++) 751 // { 752 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_VAL [i])); 753 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 754 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_PC_CURRENT [i])); 755 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 756 // if (_param->_have_port_depth and _param->_have_port_depth) 757 // { 758 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_DEPTH_UPT_TAIL [i])); 759 // } 760 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 761 // } 762 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 763 // { 764 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ACK [i])); 765 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_BTB_HIT [i])); 766 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 767 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 768 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_BTB_CONDITION [i])); 769 // // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 770 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 771 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_DIR_ACK [i])); 772 // // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_DIR_HISTORY [i])); 773 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 774 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_RAS_ACK [i])); 775 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_RAS_HIT [i])); 776 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 777 // // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_RAS_INDEX [i])); 778 // (*(out_PREDICT_UPT_CONTEXT_ID [x])) (*( in_PREDICT_UPT_ACK [i])); 779 // } 780 // } 781 782 // for (uint32_t i=0; i<_param->_nb_context; i++) 783 // { 784 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_VAL [i])); 785 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 786 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_PC_CURRENT [i])); 787 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 788 // if (_param->_have_port_depth and _param->_have_port_depth) 789 // { 790 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_DEPTH_UPT_TAIL [i])); 791 // } 792 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 793 // } 794 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 795 // { 796 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_ACK [i])); 797 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_HIT [i])); 798 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 799 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 800 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_CONDITION [i])); 801 // // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 802 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 803 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_DIR_ACK [i])); 804 // // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_DIR_HISTORY [i])); 805 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 806 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_ACK [i])); 807 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_HIT [i])); 808 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 809 // // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_RAS_INDEX [i])); 810 // (*(out_PREDICT_UPT_BTB_ADDRESS_SRC [x])) (*( in_PREDICT_UPT_ACK [i])); 811 // } 812 813 // for (uint32_t i=0; i<_param->_nb_context; i++) 814 // { 815 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_VAL [i])); 816 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 817 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_PC_CURRENT [i])); 818 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 819 // if (_param->_have_port_depth and _param->_have_port_depth) 820 // { 821 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_DEPTH_UPT_TAIL [i])); 822 // } 823 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 824 // } 825 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 826 // { 827 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_BTB_ACK [i])); 828 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_BTB_HIT [i])); 829 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 830 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 831 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_BTB_CONDITION [i])); 832 // // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 833 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 834 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_DIR_ACK [i])); 835 // // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_DIR_HISTORY [i])); 836 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 837 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_RAS_ACK [i])); 838 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_RAS_HIT [i])); 839 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 840 // // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_RAS_INDEX [i])); 841 // (*(out_PREDICT_UPT_BTB_ADDRESS_DEST [x])) (*( in_PREDICT_UPT_ACK [i])); 842 // } 843 844 // for (uint32_t i=0; i<_param->_nb_context; i++) 845 // { 846 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_VAL [i])); 847 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 848 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_PC_CURRENT [i])); 849 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 850 // if (_param->_have_port_depth and _param->_have_port_depth) 851 // { 852 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_DEPTH_UPT_TAIL [i])); 853 // } 854 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 855 // } 856 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 857 // { 858 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_BTB_ACK [i])); 859 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_BTB_HIT [i])); 860 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 861 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 862 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_BTB_CONDITION [i])); 863 // // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 864 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 865 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_DIR_ACK [i])); 866 // // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_DIR_HISTORY [i])); 867 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 868 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_RAS_ACK [i])); 869 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_RAS_HIT [i])); 870 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 871 // // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_RAS_INDEX [i])); 872 // (*(out_PREDICT_UPT_BTB_CONDITION [x])) (*( in_PREDICT_UPT_ACK [i])); 873 // } 874 875 // for (uint32_t i=0; i<_param->_nb_context; i++) 876 // { 877 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_VAL [i])); 878 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 879 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_PC_CURRENT [i])); 880 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 881 // if (_param->_have_port_depth and _param->_have_port_depth) 882 // { 883 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_DEPTH_UPT_TAIL [i])); 884 // } 885 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 886 // } 887 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 888 // { 889 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_BTB_ACK [i])); 890 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_BTB_HIT [i])); 891 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 892 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 893 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_BTB_CONDITION [i])); 894 // // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 895 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 896 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_DIR_ACK [i])); 897 // // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_DIR_HISTORY [i])); 898 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 899 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_RAS_ACK [i])); 900 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_RAS_HIT [i])); 901 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 902 // // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_RAS_INDEX [i])); 903 // (*(out_PREDICT_UPT_BTB_LAST_TAKE [x])) (*( in_PREDICT_UPT_ACK [i])); 904 // } 905 906 // for (uint32_t i=0; i<_param->_nb_context; i++) 907 // { 908 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_VAL [i])); 909 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 910 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_PC_CURRENT [i])); 911 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 912 // if (_param->_have_port_depth and _param->_have_port_depth) 913 // { 914 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_DEPTH_UPT_TAIL [i])); 915 // } 916 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 917 // } 918 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 919 // { 920 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_BTB_ACK [i])); 921 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_BTB_HIT [i])); 922 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 923 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 924 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_BTB_CONDITION [i])); 925 // // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 926 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 927 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_DIR_ACK [i])); 928 // // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_DIR_HISTORY [i])); 929 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 930 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_RAS_ACK [i])); 931 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_RAS_HIT [i])); 932 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 933 // // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_RAS_INDEX [i])); 934 // (*(out_PREDICT_UPT_BTB_IS_ACCURATE [x])) (*( in_PREDICT_UPT_ACK [i])); 935 // } 936 937 // // for (uint32_t i=0; i<_param->_nb_context; i++) 938 // // { 939 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_VAL [i])); 940 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 941 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_PC_CURRENT [i])); 942 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 943 // // if (_param->_have_port_depth and _param->_have_port_depth) 944 // // { 945 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_DEPTH_UPT_TAIL [i])); 946 // // } 947 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 948 // // } 949 // // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 950 // // { 951 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_BTB_ACK [i])); 952 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_BTB_HIT [i])); 953 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 954 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 955 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_BTB_CONDITION [i])); 956 // // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 957 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 958 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_DIR_ACK [i])); 959 // // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_DIR_HISTORY [i])); 960 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 961 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_RAS_ACK [i])); 962 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_RAS_HIT [i])); 963 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 964 // // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_RAS_INDEX [i])); 965 // // (*(out_PREDICT_UPT_DIR_HISTORY [x])) (*( in_PREDICT_UPT_ACK [i])); 966 // // } 967 968 // for (uint32_t i=0; i<_param->_nb_context; i++) 969 // { 970 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_VAL [i])); 971 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 972 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_PC_CURRENT [i])); 973 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 974 // if (_param->_have_port_depth and _param->_have_port_depth) 975 // { 976 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_DEPTH_UPT_TAIL [i])); 977 // } 978 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 979 // } 980 // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 981 // { 982 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_BTB_ACK [i])); 983 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_BTB_HIT [i])); 984 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 985 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 986 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_BTB_CONDITION [i])); 987 // // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 988 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 989 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_DIR_ACK [i])); 990 // // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_DIR_HISTORY [i])); 991 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 992 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_RAS_ACK [i])); 993 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_RAS_HIT [i])); 994 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 995 // // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_RAS_INDEX [i])); 996 // (*(out_PREDICT_UPT_RAS_ADDRESS [x])) (*( in_PREDICT_UPT_ACK [i])); 997 // } 998 999 // // for (uint32_t i=0; i<_param->_nb_context; i++) 1000 // // { 1001 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_VAL [i])); 1002 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_PC_PREVIOUS [i])); 1003 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_PC_CURRENT [i])); 1004 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_PC_CURRENT_IS_DS_TAKE [i])); 1005 // // if (_param->_have_port_depth and _param->_have_port_depth) 1006 // // { 1007 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_DEPTH_UPT_TAIL [i])); 1008 // // } 1009 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_DEPTH_UPT_NB_BRANCH [i])); 1010 // // } 1011 // // for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 1012 // // { 1013 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_BTB_ACK [i])); 1014 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_BTB_HIT [i])); 1015 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_BTB_ADDRESS_SRC [i])); 1016 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_BTB_ADDRESS_DEST [i])); 1017 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_BTB_CONDITION [i])); 1018 // // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_BTB_LAST_TAKE [i])); 1019 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_BTB_IS_ACCURATE [i])); 1020 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_DIR_ACK [i])); 1021 // // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_DIR_HISTORY [i])); 1022 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_DIR_DIRECTION [i])); 1023 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_RAS_ACK [i])); 1024 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_RAS_HIT [i])); 1025 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_RAS_ADDRESS_POP [i])); 1026 // // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_RAS_INDEX [i])); 1027 // // (*(out_PREDICT_UPT_RAS_INDEX [x])) (*( in_PREDICT_UPT_ACK [i])); 1028 // // } 1029 // } 1018 1030 # endif 1019 1031 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 if (_param->_have_port_max_depth)1039 1040 1041 1042 1043 1044 1045 1046 1047 // 1048 1049 1032 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Method - genMealy_decod"); 1033 1034 SC_METHOD (genMealy_decod); 1035 dont_initialize (); 1036 sensitive << (*(in_CLOCK)).neg(); // use internal register 1037 for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1038 for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1039 { 1040 sensitive << (*(in_DECOD_VAL [i][j])) 1041 << (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])) 1042 << (*(in_DECOD_BRANCH_STATE [i][j])) 1043 << (*(in_DECOD_BRANCH_CONDITION [i][j])) 1044 << (*(in_DECOD_BRANCH_DIRECTION [i][j])) 1045 << (*(in_DECOD_ADDRESS_SRC [i][j])) 1046 << (*(in_DECOD_ADDRESS_DEST [i][j])); 1047 1048 if (_param->_have_port_context_id) 1049 sensitive << (*(in_DECOD_CONTEXT_ID [i][j])); 1050 if (_param->_have_port_depth) 1051 sensitive << (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1052 } 1053 for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1054 { 1055 sensitive << (*(in_DECOD_BTB_ACK [i] )) 1056 << (*(in_DECOD_RAS_ACK [i] )) 1057 << (*(in_DECOD_RAS_HIT [i] )) 1058 << (*(in_DECOD_RAS_ADDRESS_POP [i] )) 1059 // << (*(in_DECOD_RAS_INDEX [i] )) 1060 << (*(in_DECOD_UPT_ACK [i] )) ; 1061 } 1050 1062 1051 1063 # ifdef SYSTEMCASS_SPECIFIC 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 if (_param->_have_port_max_depth)1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 // 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 if (_param->_have_port_max_depth)1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 // 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 if (_param->_have_port_max_depth)1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 // 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 if (_param->_have_port_max_depth)1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 // 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 if (_param->_have_port_max_depth)1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 // 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 if (_param->_have_port_max_depth)1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208 // 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 if (_param->_have_port_max_depth)1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 // 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 if (_param->_have_port_max_depth)1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 // 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 if (_param->_have_port_max_depth)1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 // 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 if (_param->_have_port_max_depth)1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 // 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 if (_param->_have_port_max_depth)1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 // 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 if (_param->_have_port_max_depth)1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 // 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 if (_param->_have_port_max_depth)1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 // 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 if (_param->_have_port_max_depth)1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 // 1411 1412 1413 1414 1415 1416 1417 1418 1419 1420 1421 1422 if (_param->_have_port_max_depth)1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 // 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 if (_param->_have_port_max_depth)1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 // 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 if (_param->_have_port_max_depth)1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 // 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 if (_param->_have_port_max_depth)1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 // 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 if (_param->_have_port_max_depth)1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 // 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 if (_param->_have_port_max_depth)1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 // 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 if (_param->_have_port_max_depth)1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 // 1588 1589 1590 1591 // 1592 // 1593 // 1594 // 1595 // if (_param->_have_port_context_id)1596 // 1597 // 1598 // 1599 // if (_param->_have_port_max_depth)1600 // 1601 // 1602 // 1603 // 1604 // 1605 // 1606 // 1607 // 1608 // 1609 // 1610 // 1611 // 1612 // 1613 // 1614 // 1615 1616 1617 1618 1619 1620 1621 1622 1623 1624 if (_param->_have_port_max_depth)1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 // 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 if (_param->_have_port_max_depth)1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 // 1663 1664 1665 1666 if (_param->_have_port_max_depth)1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 // 1689 1690 1691 1692 1064 // // List dependency information 1065 1066 // for (uint32_t x=0; x<_param->_nb_decod_unit; x++) 1067 // for (uint32_t y=0; y<_param->_nb_inst_decod[x]; y++) 1068 // { 1069 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1070 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1071 // { 1072 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_VAL [i][j])); 1073 // if (_param->_have_port_context_id) 1074 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_CONTEXT_ID [i][j])); 1075 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1076 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_BRANCH_STATE [i][j])); 1077 // if (_param->_have_port_depth) 1078 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1079 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1080 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1081 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1082 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1083 // } 1084 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1085 // { 1086 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_BTB_ACK [i] )); 1087 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_RAS_ACK [i] )); 1088 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_RAS_HIT [i] )); 1089 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1090 // // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_RAS_INDEX [i] )); 1091 // (*(out_DECOD_ACK [x][y])) (*(in_DECOD_UPT_ACK [i] )); 1092 // } 1093 // } 1094 1095 // for (uint32_t x=0; x<_param->_nb_inst_branch_decod; x++) 1096 // { 1097 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1098 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1099 // { 1100 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_VAL [i][j])); 1101 // if (_param->_have_port_context_id) 1102 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1103 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1104 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1105 // if (_param->_have_port_depth) 1106 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1107 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1108 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1109 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1110 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1111 // } 1112 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1113 // { 1114 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_BTB_ACK [i] )); 1115 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_RAS_ACK [i] )); 1116 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_RAS_HIT [i] )); 1117 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1118 // // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_RAS_INDEX [i] )); 1119 // (*(out_DECOD_BTB_VAL [x])) (*(in_DECOD_UPT_ACK [i] )); 1120 // } 1121 1122 // if (_param->_have_port_context_id) 1123 // { 1124 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1125 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1126 // { 1127 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_VAL [i][j])); 1128 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1129 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1130 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1131 // if (_param->_have_port_depth) 1132 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1133 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1134 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1135 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1136 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1137 // } 1138 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1139 // { 1140 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_BTB_ACK [i] )); 1141 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_RAS_ACK [i] )); 1142 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_RAS_HIT [i] )); 1143 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1144 // // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_RAS_INDEX [i] )); 1145 // (*(out_DECOD_BTB_CONTEXT_ID [x])) (*(in_DECOD_UPT_ACK [i] )); 1146 // } 1147 // } 1148 1149 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1150 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1151 // { 1152 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_VAL [i][j])); 1153 // if (_param->_have_port_context_id) 1154 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1155 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1156 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1157 // if (_param->_have_port_depth) 1158 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1159 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1160 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1161 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1162 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1163 // } 1164 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1165 // { 1166 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BTB_ACK [i] )); 1167 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_ACK [i] )); 1168 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_HIT [i] )); 1169 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1170 // // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_INDEX [i] )); 1171 // (*(out_DECOD_BTB_ADDRESS_SRC [x])) (*(in_DECOD_UPT_ACK [i] )); 1172 // } 1173 1174 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1175 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1176 // { 1177 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_VAL [i][j])); 1178 // if (_param->_have_port_context_id) 1179 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1180 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1181 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1182 // if (_param->_have_port_depth) 1183 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1184 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1185 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1186 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1187 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1188 // } 1189 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1190 // { 1191 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BTB_ACK [i] )); 1192 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_ACK [i] )); 1193 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_HIT [i] )); 1194 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1195 // // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_INDEX [i] )); 1196 // (*(out_DECOD_BTB_ADDRESS_DEST [x])) (*(in_DECOD_UPT_ACK [i] )); 1197 // } 1198 1199 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1200 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1201 // { 1202 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_VAL [i][j])); 1203 // if (_param->_have_port_context_id) 1204 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1205 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1206 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1207 // if (_param->_have_port_depth) 1208 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1209 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1210 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1211 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1212 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1213 // } 1214 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1215 // { 1216 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_BTB_ACK [i] )); 1217 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_RAS_ACK [i] )); 1218 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_RAS_HIT [i] )); 1219 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1220 // // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_RAS_INDEX [i] )); 1221 // (*(out_DECOD_BTB_CONDITION [x])) (*(in_DECOD_UPT_ACK [i] )); 1222 // } 1223 1224 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1225 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1226 // { 1227 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_VAL [i][j])); 1228 // if (_param->_have_port_context_id) 1229 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1230 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1231 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1232 // if (_param->_have_port_depth) 1233 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1234 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1235 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1236 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1237 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1238 // } 1239 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1240 // { 1241 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_BTB_ACK [i] )); 1242 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_ACK [i] )); 1243 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_HIT [i] )); 1244 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1245 // // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_INDEX [i] )); 1246 // (*(out_DECOD_BTB_LAST_TAKE [x])) (*(in_DECOD_UPT_ACK [i] )); 1247 // } 1248 1249 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1250 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1251 // { 1252 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_VAL [i][j])); 1253 // if (_param->_have_port_context_id) 1254 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1255 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1256 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1257 // if (_param->_have_port_depth) 1258 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1259 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1260 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1261 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1262 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1263 // } 1264 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1265 // { 1266 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_BTB_ACK [i] )); 1267 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_RAS_ACK [i] )); 1268 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_RAS_HIT [i] )); 1269 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1270 // // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_RAS_INDEX [i] )); 1271 // (*(out_DECOD_BTB_MISS_PREDICTION [x])) (*(in_DECOD_UPT_ACK [i] )); 1272 // } 1273 1274 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1275 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1276 // { 1277 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_VAL [i][j])); 1278 // if (_param->_have_port_context_id) 1279 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1280 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1281 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1282 // if (_param->_have_port_depth) 1283 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1284 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1285 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1286 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1287 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1288 // } 1289 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1290 // { 1291 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_BTB_ACK [i] )); 1292 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_RAS_ACK [i] )); 1293 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_RAS_HIT [i] )); 1294 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1295 // // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_RAS_INDEX [i] )); 1296 // (*(out_DECOD_BTB_IS_ACCURATE [x])) (*(in_DECOD_UPT_ACK [i] )); 1297 // } 1298 1299 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1300 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1301 // { 1302 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_VAL [i][j])); 1303 // if (_param->_have_port_context_id) 1304 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1305 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1306 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1307 // if (_param->_have_port_depth) 1308 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1309 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1310 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1311 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1312 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1313 // } 1314 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1315 // { 1316 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_BTB_ACK [i] )); 1317 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_RAS_ACK [i] )); 1318 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_RAS_HIT [i] )); 1319 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1320 // // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_RAS_INDEX [i] )); 1321 // (*(out_DECOD_RAS_VAL [x])) (*(in_DECOD_UPT_ACK [i] )); 1322 // } 1323 1324 // if (_param->_have_port_context_id) 1325 // { 1326 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1327 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1328 // { 1329 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_VAL [i][j])); 1330 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1331 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1332 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1333 // if (_param->_have_port_depth) 1334 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1335 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1336 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1337 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1338 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1339 // } 1340 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1341 // { 1342 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_BTB_ACK [i] )); 1343 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_RAS_ACK [i] )); 1344 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_RAS_HIT [i] )); 1345 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1346 // // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_RAS_INDEX [i] )); 1347 // (*(out_DECOD_RAS_CONTEXT_ID [x])) (*(in_DECOD_UPT_ACK [i] )); 1348 // } 1349 // } 1350 1351 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1352 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1353 // { 1354 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_VAL [i][j])); 1355 // if (_param->_have_port_context_id) 1356 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1357 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1358 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1359 // if (_param->_have_port_depth) 1360 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1361 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1362 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1363 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1364 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1365 // } 1366 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1367 // { 1368 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_BTB_ACK [i] )); 1369 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_RAS_ACK [i] )); 1370 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_RAS_HIT [i] )); 1371 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1372 // // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_RAS_INDEX [i] )); 1373 // (*(out_DECOD_RAS_PUSH [x])) (*(in_DECOD_UPT_ACK [i] )); 1374 // } 1375 1376 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1377 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1378 // { 1379 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_VAL [i][j])); 1380 // if (_param->_have_port_context_id) 1381 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1382 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1383 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1384 // if (_param->_have_port_depth) 1385 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1386 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1387 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1388 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1389 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1390 // } 1391 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1392 // { 1393 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_BTB_ACK [i] )); 1394 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_RAS_ACK [i] )); 1395 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_RAS_HIT [i] )); 1396 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1397 // // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_RAS_INDEX [i] )); 1398 // (*(out_DECOD_RAS_ADDRESS_PUSH [x])) (*(in_DECOD_UPT_ACK [i] )); 1399 // } 1400 1401 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1402 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1403 // { 1404 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_VAL [i][j])); 1405 // if (_param->_have_port_context_id) 1406 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1407 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1408 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1409 // if (_param->_have_port_depth) 1410 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1411 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1412 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1413 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1414 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1415 // } 1416 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1417 // { 1418 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_BTB_ACK [i] )); 1419 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_RAS_ACK [i] )); 1420 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_RAS_HIT [i] )); 1421 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1422 // // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_RAS_INDEX [i] )); 1423 // (*(out_DECOD_RAS_MISS_PREDICTION [x])) (*(in_DECOD_UPT_ACK [i] )); 1424 // } 1425 1426 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1427 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1428 // { 1429 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_VAL [i][j])); 1430 // if (_param->_have_port_context_id) 1431 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1432 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1433 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1434 // if (_param->_have_port_depth) 1435 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1436 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1437 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1438 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1439 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1440 // } 1441 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1442 // { 1443 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_BTB_ACK [i] )); 1444 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_RAS_ACK [i] )); 1445 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_RAS_HIT [i] )); 1446 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1447 // // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_RAS_INDEX [i] )); 1448 // (*(out_DECOD_UPT_VAL [x])) (*(in_DECOD_UPT_ACK [i] )); 1449 // } 1450 1451 // if (_param->_have_port_context_id) 1452 // { 1453 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1454 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1455 // { 1456 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_VAL [i][j])); 1457 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1458 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1459 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1460 // if (_param->_have_port_depth) 1461 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1462 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1463 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1464 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1465 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1466 // } 1467 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1468 // { 1469 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_BTB_ACK [i] )); 1470 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_RAS_ACK [i] )); 1471 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_RAS_HIT [i] )); 1472 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1473 // // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_RAS_INDEX [i] )); 1474 // (*(out_DECOD_UPT_CONTEXT_ID [x])) (*(in_DECOD_UPT_ACK [i] )); 1475 // } 1476 // } 1477 1478 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1479 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1480 // { 1481 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_VAL [i][j])); 1482 // if (_param->_have_port_context_id) 1483 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1484 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1485 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1486 // if (_param->_have_port_depth) 1487 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1488 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1489 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1490 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1491 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1492 // } 1493 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1494 // { 1495 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_BTB_ACK [i] )); 1496 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_ACK [i] )); 1497 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_HIT [i] )); 1498 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1499 // // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_RAS_INDEX [i] )); 1500 // (*(out_DECOD_UPT_BTB_ADDRESS_SRC [x])) (*(in_DECOD_UPT_ACK [i] )); 1501 // } 1502 1503 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1504 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1505 // { 1506 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_VAL [i][j])); 1507 // if (_param->_have_port_context_id) 1508 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1509 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1510 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1511 // if (_param->_have_port_depth) 1512 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1513 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1514 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1515 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1516 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1517 // } 1518 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1519 // { 1520 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_BTB_ACK [i] )); 1521 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_ACK [i] )); 1522 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_HIT [i] )); 1523 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1524 // // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_RAS_INDEX [i] )); 1525 // (*(out_DECOD_UPT_BTB_ADDRESS_DEST [x])) (*(in_DECOD_UPT_ACK [i] )); 1526 // } 1527 1528 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1529 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1530 // { 1531 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_VAL [i][j])); 1532 // if (_param->_have_port_context_id) 1533 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1534 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1535 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1536 // if (_param->_have_port_depth) 1537 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1538 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1539 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1540 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1541 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1542 // } 1543 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1544 // { 1545 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_BTB_ACK [i] )); 1546 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_RAS_ACK [i] )); 1547 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_RAS_HIT [i] )); 1548 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1549 // // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_RAS_INDEX [i] )); 1550 // (*(out_DECOD_UPT_BTB_CONDITION [x])) (*(in_DECOD_UPT_ACK [i] )); 1551 // } 1552 1553 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1554 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1555 // { 1556 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_VAL [i][j])); 1557 // if (_param->_have_port_context_id) 1558 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1559 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1560 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1561 // if (_param->_have_port_depth) 1562 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1563 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1564 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1565 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1566 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1567 // } 1568 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1569 // { 1570 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_BTB_ACK [i] )); 1571 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_ACK [i] )); 1572 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_HIT [i] )); 1573 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1574 // // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_RAS_INDEX [i] )); 1575 // (*(out_DECOD_UPT_BTB_LAST_TAKE [x])) (*(in_DECOD_UPT_ACK [i] )); 1576 // } 1577 1578 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1579 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1580 // { 1581 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_VAL [i][j])); 1582 // if (_param->_have_port_context_id) 1583 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1584 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1585 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1586 // if (_param->_have_port_depth) 1587 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1588 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1589 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1590 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1591 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1592 // } 1593 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1594 // { 1595 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_BTB_ACK [i] )); 1596 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_RAS_ACK [i] )); 1597 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_RAS_HIT [i] )); 1598 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1599 // // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_RAS_INDEX [i] )); 1600 // (*(out_DECOD_UPT_RAS_ADDRESS [x])) (*(in_DECOD_UPT_ACK [i] )); 1601 // } 1602 1603 // // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1604 // // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1605 // // { 1606 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_VAL [i][j])); 1607 // // if (_param->_have_port_context_id) 1608 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1609 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1610 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1611 // // if (_param->_have_port_depth) 1612 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1613 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1614 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1615 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1616 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1617 // // } 1618 // // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1619 // // { 1620 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_BTB_ACK [i] )); 1621 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_RAS_ACK [i] )); 1622 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_RAS_HIT [i] )); 1623 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1624 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_RAS_INDEX [i] )); 1625 // // (*(out_DECOD_UPT_RAS_INDEX [x])) (*(in_DECOD_UPT_ACK [i] )); 1626 // // } 1627 1628 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1629 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1630 // { 1631 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_VAL [i][j])); 1632 // if (_param->_have_port_context_id) 1633 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1634 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1635 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1636 // if (_param->_have_port_depth) 1637 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1638 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1639 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1640 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1641 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1642 // } 1643 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1644 // { 1645 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_BTB_ACK [i] )); 1646 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_RAS_ACK [i] )); 1647 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_RAS_HIT [i] )); 1648 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1649 // // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_RAS_INDEX [i] )); 1650 // (*(out_DECOD_UPT_MISS_IFETCH [x])) (*(in_DECOD_UPT_ACK [i] )); 1651 // } 1652 1653 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1654 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1655 // { 1656 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_VAL [i][j])); 1657 // if (_param->_have_port_context_id) 1658 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1659 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1660 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1661 // if (_param->_have_port_depth) 1662 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1663 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1664 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1665 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1666 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1667 // } 1668 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1669 // { 1670 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_BTB_ACK [i] )); 1671 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_RAS_ACK [i] )); 1672 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_RAS_HIT [i] )); 1673 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1674 // // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_RAS_INDEX [i] )); 1675 // (*(out_DECOD_UPT_MISS_DECOD [x])) (*(in_DECOD_UPT_ACK [i] )); 1676 // } 1677 1678 // if (_param->_have_port_depth) 1679 // { 1680 // for (uint32_t i=0; i<_param->_nb_decod_unit; i++) 1681 // for (uint32_t j=0; j<_param->_nb_inst_decod[i]; j++) 1682 // { 1683 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_VAL [i][j])); 1684 // if (_param->_have_port_context_id) 1685 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_CONTEXT_ID [i][j])); 1686 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_MATCH_INST_IFETCH_PTR [i][j])); 1687 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_BRANCH_STATE [i][j])); 1688 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [i][j])); 1689 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_BRANCH_CONDITION [i][j])); 1690 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_BRANCH_DIRECTION [i][j])); 1691 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_ADDRESS_SRC [i][j])); 1692 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_ADDRESS_DEST [i][j])); 1693 // } 1694 // for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 1695 // { 1696 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_BTB_ACK [i] )); 1697 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_RAS_ACK [i] )); 1698 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_RAS_HIT [i] )); 1699 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_RAS_ADDRESS_POP [i] )); 1700 // // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_RAS_INDEX [i] )); 1701 // (*(out_DECOD_UPT_UPDATE_PREDICTION_ID [x])) (*(in_DECOD_UPT_ACK [i] )); 1702 // } 1703 // } 1704 // } 1693 1705 # endif 1694 1706 1695 1696 1697 1698 1699 // 1700 1701 1702 1703 1704 1705 1706 1707 1707 log_printf(INFO,Prediction_unit_Glue,FUNCTION,"Method - genMealy_update"); 1708 1709 SC_METHOD (genMealy_update); 1710 dont_initialize (); 1711 // sensitive << (*(in_CLOCK)).neg(); // don't use internal register 1712 for (uint32_t i=0; i<_param->_nb_inst_branch_update; i++) 1713 sensitive << (*(in_UPDATE_BTB_ACK [i])) 1714 << (*(in_UPDATE_DIR_ACK [i])) 1715 << (*(in_UPDATE_RAS_ACK [i])) 1716 << (*(in_UPDATE_UPT_VAL [i])) 1717 << (*(in_UPDATE_UPT_BTB_VAL [i])) 1718 << (*(in_UPDATE_UPT_DIR_VAL [i])) 1719 << (*(in_UPDATE_UPT_RAS_VAL [i])); 1708 1720 1709 1721 # ifdef SYSTEMCASS_SPECIFIC 1710 1711 1712 // 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747 1722 // // List dependency information 1723 // for (uint32_t x=0; x<_param->_nb_inst_branch_update; x++) 1724 // // for (uint32_t i=0; i<_param->_nb_inst_branch_update; i++) 1725 // { 1726 // uint32_t i=x; 1727 1728 // (*(out_UPDATE_BTB_VAL [x])) (*(in_UPDATE_BTB_ACK [i])); 1729 // (*(out_UPDATE_BTB_VAL [x])) (*(in_UPDATE_DIR_ACK [i])); 1730 // (*(out_UPDATE_BTB_VAL [x])) (*(in_UPDATE_RAS_ACK [i])); 1731 // (*(out_UPDATE_BTB_VAL [x])) (*(in_UPDATE_UPT_VAL [i])); 1732 // (*(out_UPDATE_BTB_VAL [x])) (*(in_UPDATE_UPT_BTB_VAL [i])); 1733 // (*(out_UPDATE_BTB_VAL [x])) (*(in_UPDATE_UPT_DIR_VAL [i])); 1734 // (*(out_UPDATE_BTB_VAL [x])) (*(in_UPDATE_UPT_RAS_VAL [i])); 1735 1736 // (*(out_UPDATE_DIR_VAL [x])) (*(in_UPDATE_BTB_ACK [i])); 1737 // (*(out_UPDATE_DIR_VAL [x])) (*(in_UPDATE_DIR_ACK [i])); 1738 // (*(out_UPDATE_DIR_VAL [x])) (*(in_UPDATE_RAS_ACK [i])); 1739 // (*(out_UPDATE_DIR_VAL [x])) (*(in_UPDATE_UPT_VAL [i])); 1740 // (*(out_UPDATE_DIR_VAL [x])) (*(in_UPDATE_UPT_BTB_VAL [i])); 1741 // (*(out_UPDATE_DIR_VAL [x])) (*(in_UPDATE_UPT_DIR_VAL [i])); 1742 // (*(out_UPDATE_DIR_VAL [x])) (*(in_UPDATE_UPT_RAS_VAL [i])); 1743 1744 // (*(out_UPDATE_RAS_VAL [x])) (*(in_UPDATE_BTB_ACK [i])); 1745 // (*(out_UPDATE_RAS_VAL [x])) (*(in_UPDATE_DIR_ACK [i])); 1746 // (*(out_UPDATE_RAS_VAL [x])) (*(in_UPDATE_RAS_ACK [i])); 1747 // (*(out_UPDATE_RAS_VAL [x])) (*(in_UPDATE_UPT_VAL [i])); 1748 // (*(out_UPDATE_RAS_VAL [x])) (*(in_UPDATE_UPT_BTB_VAL [i])); 1749 // (*(out_UPDATE_RAS_VAL [x])) (*(in_UPDATE_UPT_DIR_VAL [i])); 1750 // (*(out_UPDATE_RAS_VAL [x])) (*(in_UPDATE_UPT_RAS_VAL [i])); 1751 1752 // (*(out_UPDATE_UPT_ACK [x])) (*(in_UPDATE_BTB_ACK [i])); 1753 // (*(out_UPDATE_UPT_ACK [x])) (*(in_UPDATE_DIR_ACK [i])); 1754 // (*(out_UPDATE_UPT_ACK [x])) (*(in_UPDATE_RAS_ACK [i])); 1755 // (*(out_UPDATE_UPT_ACK [x])) (*(in_UPDATE_UPT_VAL [i])); 1756 // (*(out_UPDATE_UPT_ACK [x])) (*(in_UPDATE_UPT_BTB_VAL [i])); 1757 // (*(out_UPDATE_UPT_ACK [x])) (*(in_UPDATE_UPT_DIR_VAL [i])); 1758 // (*(out_UPDATE_UPT_ACK [x])) (*(in_UPDATE_UPT_RAS_VAL [i])); 1759 // } 1748 1760 # endif 1749 1761 #endif … … 1761 1773 if (usage_is_set(_usage,USE_STATISTICS)) 1762 1774 { 1763 1775 statistics_deallocation(); 1764 1776 } 1765 1777 #endif -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Prediction_unit_Glue_allocation.cpp
r82 r88 33 33 34 34 Entity * entity = _component->set_entity (_name 35 35 ,"Prediction_unit_Glue" 36 36 #ifdef POSITION 37 38 #endif 39 37 ,COMBINATORY 38 #endif 39 ); 40 40 41 41 _interfaces = entity->set_interfaces(); … … 45 45 Interface * interface = _interfaces->set_interface("" 46 46 #ifdef POSITION 47 48 49 50 #endif 51 47 ,IN 48 ,SOUTH, 49 "Generalist interface" 50 #endif 51 ); 52 52 53 53 in_CLOCK = interface->set_signal_clk ("clock" ,1, CLOCK_VHDL_YES); … … 58 58 { 59 59 { 60 61 62 63 64 ALLOC1_SIGNAL_IN ( in_PREDICT_PC_PREVIOUS ,"pc_previous" ,Taddress_t ,_param->_size_address);65 ALLOC1_SIGNAL_IN ( in_PREDICT_PC_CURRENT ,"pc_current" ,Taddress_t ,_param->_size_address);66 67 ALLOC1_SIGNAL_OUT(out_PREDICT_PC_NEXT ,"pc_next" ,Taddress_t ,_param->_size_address);68 69 ALLOC1_SIGNAL_OUT(out_PREDICT_INST_IFETCH_PTR ,"inst_ifetch_ptr" ,Tinst_ifetch_ptr_t ,_param->_size_inst_ifetch_ptr [alloc_signal_it1]);70 71 ALLOC1_SIGNAL_OUT(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID,"branch_update_prediction_id",Tprediction_ptr_t ,_param->_size_depth [alloc_signal_it1]);72 } 73 { 74 ALLOC2_INTERFACE("predict",IN,SOUTH,"Interface with ifetch unit",_param->_nb_context,_param->_nb_instruction[alloc_interface_it1]);75 _ALLOC2_SIGNAL_OUT(out_PREDICT_INSTRUCTION_ENABLE ,"instruction_enable" ,Tcontrol_t ,1,_param->_nb_context,_param->_nb_instruction[alloc_signal_it1]);76 } 77 78 { 79 80 81 82 83 84 ALLOC1_SIGNAL_OUT(out_PREDICT_BTB_ADDRESS ,"address" ,Taddress_t ,_param->_size_address);85 86 ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_address);87 ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_ADDRESS_DEST,"address_dest",Taddress_t ,_param->_size_address);88 60 ALLOC1_INTERFACE("predict",IN,SOUTH,"Interface with ifetch unit",_param->_nb_context); 61 62 ALLOC1_VALACK_IN ( in_PREDICT_VAL ,VAL); 63 ALLOC1_VALACK_OUT(out_PREDICT_ACK ,ACK); 64 ALLOC1_SIGNAL_IN ( in_PREDICT_PC_PREVIOUS ,"pc_previous" ,Taddress_t ,_param->_size_instruction_address); 65 ALLOC1_SIGNAL_IN ( in_PREDICT_PC_CURRENT ,"pc_current" ,Taddress_t ,_param->_size_instruction_address); 66 ALLOC1_SIGNAL_IN ( in_PREDICT_PC_CURRENT_IS_DS_TAKE ,"pc_current_is_ds_take" ,Tcontrol_t ,1); 67 ALLOC1_SIGNAL_OUT(out_PREDICT_PC_NEXT ,"pc_next" ,Taddress_t ,_param->_size_instruction_address); 68 ALLOC1_SIGNAL_OUT(out_PREDICT_PC_NEXT_IS_DS_TAKE ,"pc_next_is_ds_take" ,Tcontrol_t ,1); 69 ALLOC1_SIGNAL_OUT(out_PREDICT_INST_IFETCH_PTR ,"inst_ifetch_ptr" ,Tinst_ifetch_ptr_t ,_param->_size_inst_ifetch_ptr); 70 ALLOC1_SIGNAL_OUT(out_PREDICT_BRANCH_STATE ,"branch_state" ,Tbranch_state_t ,_param->_size_branch_state); 71 ALLOC1_SIGNAL_OUT(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID,"branch_update_prediction_id",Tprediction_ptr_t ,_param->_size_depth); 72 } 73 { 74 ALLOC2_INTERFACE("predict",IN,SOUTH,"Interface with ifetch unit",_param->_nb_context,_param->_nb_instruction[it1]); 75 _ALLOC2_SIGNAL_OUT(out_PREDICT_INSTRUCTION_ENABLE ,"instruction_enable" ,Tcontrol_t ,1,_param->_nb_context,_param->_nb_instruction[it1]); 76 } 77 78 { 79 ALLOC1_INTERFACE("predict_btb",OUT,NORTH,"Interface with ifetch unit",_param->_nb_inst_branch_predict); 80 81 ALLOC1_VALACK_OUT(out_PREDICT_BTB_VAL ,VAL); 82 ALLOC1_VALACK_IN ( in_PREDICT_BTB_ACK ,ACK); 83 ALLOC1_SIGNAL_OUT(out_PREDICT_BTB_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 84 ALLOC1_SIGNAL_OUT(out_PREDICT_BTB_ADDRESS ,"address" ,Taddress_t ,_param->_size_instruction_address); 85 ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_HIT ,"hit" ,Tcontrol_t ,1); 86 ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_instruction_address); 87 ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_ADDRESS_DEST,"address_dest",Taddress_t ,_param->_size_instruction_address); 88 ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_CONDITION ,"condition" ,Tbranch_condition_t,_param->_size_branch_condition); 89 89 // ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_LAST_TAKE ,"last_take" ,Tcontrol_t ,1); 90 91 } 92 93 { 94 95 96 97 98 ALLOC1_SIGNAL_OUT(out_PREDICT_DIR_ADDRESS_SRC,"address_src",Taddress_t ,_param->_size_address);99 90 ALLOC1_SIGNAL_IN ( in_PREDICT_BTB_IS_ACCURATE ,"is_accurate" ,Tcontrol_t ,1); 91 } 92 93 { 94 ALLOC1_INTERFACE("predict_dir",OUT,NORTH,"Interface with ifetch unit",_param->_nb_inst_branch_predict); 95 96 ALLOC1_VALACK_OUT(out_PREDICT_DIR_VAL ,VAL); 97 ALLOC1_VALACK_IN ( in_PREDICT_DIR_ACK ,ACK); 98 ALLOC1_SIGNAL_OUT(out_PREDICT_DIR_ADDRESS_SRC,"address_src",Taddress_t ,_param->_size_instruction_address); 99 ALLOC1_SIGNAL_OUT(out_PREDICT_DIR_STATIC ,"static" ,Tcontrol_t ,1); 100 100 // ALLOC1_SIGNAL_OUT(out_PREDICT_DIR_LAST_TAKE ,"last_take" ,Tcontrol_t ,1); 101 101 // ALLOC1_SIGNAL_IN ( in_PREDICT_DIR_HISTORY ,"history" ,Thistory_t ,_param->_size_history); 102 103 } 104 105 { 106 107 108 109 110 111 112 113 ALLOC1_SIGNAL_OUT(out_PREDICT_RAS_ADDRESS_PUSH,"address_push",Taddress_t ,_param->_size_address);114 ALLOC1_SIGNAL_IN ( in_PREDICT_RAS_ADDRESS_POP ,"address_pop" ,Taddress_t ,_param->_size_address);102 ALLOC1_SIGNAL_IN ( in_PREDICT_DIR_DIRECTION ,"direction" ,Tcontrol_t ,1); 103 } 104 105 { 106 ALLOC1_INTERFACE("predict_ras",OUT,NORTH,"Interface with ifetch unit",_param->_nb_inst_branch_predict); 107 108 ALLOC1_VALACK_OUT(out_PREDICT_RAS_VAL ,VAL); 109 ALLOC1_VALACK_IN ( in_PREDICT_RAS_ACK ,ACK); 110 ALLOC1_SIGNAL_OUT(out_PREDICT_RAS_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 111 ALLOC1_SIGNAL_IN ( in_PREDICT_RAS_HIT ,"hit" ,Tcontrol_t ,1); 112 ALLOC1_SIGNAL_OUT(out_PREDICT_RAS_PUSH ,"push" ,Tcontrol_t ,1); 113 ALLOC1_SIGNAL_OUT(out_PREDICT_RAS_ADDRESS_PUSH,"address_push",Taddress_t ,_param->_size_instruction_address); 114 ALLOC1_SIGNAL_IN ( in_PREDICT_RAS_ADDRESS_POP ,"address_pop" ,Taddress_t ,_param->_size_instruction_address); 115 115 // ALLOC1_SIGNAL_IN ( in_PREDICT_RAS_INDEX ,"index" ,Tptr_t ,_param->_size_ras_index); 116 116 } 117 117 118 118 { 119 ALLOC1_INTERFACE("predict_upt",OUT,NORTH,"Interface with ifetch unit",_param->_nb_inst_branch_predict); 120 121 ALLOC1_VALACK_OUT(out_PREDICT_UPT_VAL ,VAL); 122 ALLOC1_VALACK_IN ( in_PREDICT_UPT_ACK ,ACK); 123 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 124 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_ADDRESS_SRC ,"btb_address_src" ,Taddress_t ,_param->_size_address); 125 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_ADDRESS_DEST,"btb_address_dest",Taddress_t ,_param->_size_address); 126 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_CONDITION ,"btb_condition" ,Tbranch_condition_t,_param->_size_branch_condition); 127 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_LAST_TAKE ,"btb_last_take" ,Tcontrol_t ,1); 128 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_IS_ACCURATE ,"btb_is_accurate" ,Tcontrol_t ,1); 119 ALLOC1_INTERFACE("predict_upt",OUT,NORTH,"Interface with ifetch unit",_param->_nb_inst_branch_predict); 120 121 ALLOC1_VALACK_OUT(out_PREDICT_UPT_VAL ,VAL); 122 ALLOC1_VALACK_IN ( in_PREDICT_UPT_ACK ,ACK); 123 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 124 ALLOC1_SIGNAL_IN ( in_PREDICT_UPT_BRANCH_UPDATE_PREDICTION_ID,"branch_update_prediction_id",Tprediction_ptr_t ,_param->_size_depth); 125 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_ADDRESS_SRC ,"btb_address_src" ,Taddress_t ,_param->_size_instruction_address); 126 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_ADDRESS_DEST,"btb_address_dest",Taddress_t ,_param->_size_instruction_address); 127 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_CONDITION ,"btb_condition" ,Tbranch_condition_t,_param->_size_branch_condition); 128 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_LAST_TAKE ,"btb_last_take" ,Tcontrol_t ,1); 129 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_BTB_IS_ACCURATE ,"btb_is_accurate" ,Tcontrol_t ,1); 129 130 // ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_DIR_HISTORY ,"dir_history" ,Thistory_t ,_param->_size_history); 130 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_RAS_ADDRESS ,"ras_address" ,Taddress_t ,_param->_size_address);131 ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_RAS_ADDRESS ,"ras_address" ,Taddress_t ,_param->_size_instruction_address); 131 132 // ALLOC1_SIGNAL_OUT(out_PREDICT_UPT_RAS_INDEX ,"ras_index" ,Tptr_t ,_param->_size_ras_index); 132 133 } 133 134 } 134 135 135 // ~~~~~[ Interface : "decod" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 136 { 137 { 138 ALLOC2_INTERFACE("decod",IN,SOUTH,"Interface with decod unit",_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_interface_it1]); 139 140 _ALLOC2_VALACK_IN ( in_DECOD_VAL ,VAL,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 141 _ALLOC2_VALACK_OUT(out_DECOD_ACK ,ACK,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 142 _ALLOC2_SIGNAL_IN ( in_DECOD_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id ,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 143 _ALLOC2_SIGNAL_IN ( in_DECOD_MATCH_INST_IFETCH_PTR ,"match_inst_ifetch_ptr" ,Tcontrol_t ,1 ,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 144 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_STATE ,"branch_state" ,Tbranch_state_t ,_param->_size_branch_state ,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 145 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_UPDATE_PREDICTION_ID,"branch_update_prediction_id",Tprediction_ptr_t ,_param->_max_size_depth ,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 146 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_CONDITION ,"branch_condition" ,Tbranch_condition_t,_param->_size_branch_condition,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 147 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_DIRECTION ,"branch_direction" ,Tcontrol_t ,1 ,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 148 _ALLOC2_SIGNAL_IN ( in_DECOD_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_address ,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 149 _ALLOC2_SIGNAL_IN ( in_DECOD_ADDRESS_DEST ,"address_dest" ,Taddress_t ,_param->_size_address ,_param->_nb_decod_unit,_param->_nb_inst_decod[alloc_signal_it1]); 150 } 151 152 { 153 ALLOC1_INTERFACE("decod_btb",OUT,NORTH,"Interface with decod unit",_param->_nb_inst_branch_decod); 154 155 ALLOC1_VALACK_OUT(out_DECOD_BTB_VAL ,VAL); 156 ALLOC1_VALACK_IN ( in_DECOD_BTB_ACK ,ACK); 157 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 158 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_address); 159 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_ADDRESS_DEST ,"address_dest" ,Taddress_t ,_param->_size_address); 160 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_CONDITION ,"condition" ,Tbranch_condition_t,_param->_size_branch_condition); 161 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_LAST_TAKE ,"last_take" ,Tcontrol_t ,1); 162 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_MISS_PREDICTION,"miss_prediction",Tcontrol_t ,1); 163 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_IS_ACCURATE ,"is_accurate" ,Tcontrol_t ,1); 164 } 165 166 { 167 ALLOC1_INTERFACE("decod_ras",OUT,NORTH,"Interface with decod unit",_param->_nb_inst_branch_decod); 168 169 ALLOC1_VALACK_OUT(out_DECOD_RAS_VAL ,VAL); 170 ALLOC1_VALACK_IN ( in_DECOD_RAS_ACK ,ACK); 171 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_CONTEXT_ID ,"context_id" ,Tcontext_t,_param->_size_context_id); 172 ALLOC1_SIGNAL_IN ( in_DECOD_RAS_HIT ,"hit" ,Tcontrol_t,1); 173 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_PUSH ,"push" ,Tcontrol_t,1); 174 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_ADDRESS_PUSH ,"address_push" ,Taddress_t,_param->_size_address); 175 ALLOC1_SIGNAL_IN ( in_DECOD_RAS_ADDRESS_POP ,"address_pop" ,Taddress_t,_param->_size_address); 176 // ALLOC1_SIGNAL_IN ( in_DECOD_RAS_INDEX ,"index" ,Tptr_t ,_param->_size_ras_index); 177 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_MISS_PREDICTION,"miss_prediction",Tcontrol_t,1); 178 } 179 180 { 181 ALLOC1_INTERFACE("decod_upt",OUT,NORTH,"Interface with decod unit",_param->_nb_inst_branch_decod); 182 183 ALLOC1_VALACK_OUT(out_DECOD_UPT_VAL ,VAL); 184 ALLOC1_VALACK_IN ( in_DECOD_UPT_ACK ,ACK); 185 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 186 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_ADDRESS_SRC ,"btb_address_src" ,Taddress_t ,_param->_size_address); 187 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_ADDRESS_DEST ,"btb_address_dest" ,Taddress_t ,_param->_size_address); 188 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_CONDITION ,"btb_condition" ,Tbranch_condition_t,_param->_size_branch_condition); 189 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_LAST_TAKE ,"btb_last_take" ,Tcontrol_t ,1); 190 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_RAS_ADDRESS ,"ras_address" ,Taddress_t ,_param->_size_address); 191 // ALLOC1_SIGNAL_OUT(out_DECOD_UPT_RAS_INDEX ,"ras_index" ,Tptr_t ,_param->_size_ras_index); 192 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_MISS_IFETCH ,"miss_ifetch" ,Tcontrol_t ,1); 193 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_MISS_DECOD ,"miss_decod" ,Tcontrol_t ,1); 194 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_UPDATE_PREDICTION_ID,"update_prediction_id",Tprediction_ptr_t ,_param->_max_size_depth); 195 } 196 } 197 198 // ~~~~~[ Interface : "update" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 199 { 200 { 201 ALLOC1_INTERFACE("update_btb",OUT,SOUTH,"Interface with update unit",_param->_nb_inst_branch_update); 136 // ~~~~~[ Interface : "decod" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 137 { 138 { 139 ALLOC2_INTERFACE("decod",IN,SOUTH,"Interface with decod unit",_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 140 141 _ALLOC2_VALACK_IN ( in_DECOD_VAL ,VAL,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 142 _ALLOC2_VALACK_OUT(out_DECOD_ACK ,ACK,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 143 _ALLOC2_SIGNAL_IN ( in_DECOD_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 144 _ALLOC2_SIGNAL_IN ( in_DECOD_MATCH_INST_IFETCH_PTR ,"match_inst_ifetch_ptr" ,Tcontrol_t ,1 ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 145 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_STATE ,"branch_state" ,Tbranch_state_t ,_param->_size_branch_state ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 146 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_UPDATE_PREDICTION_ID,"branch_update_prediction_id",Tprediction_ptr_t ,_param->_size_depth ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 147 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_CONDITION ,"branch_condition" ,Tbranch_condition_t,_param->_size_branch_condition,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 148 _ALLOC2_SIGNAL_IN ( in_DECOD_BRANCH_DIRECTION ,"branch_direction" ,Tcontrol_t ,1 ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 149 _ALLOC2_SIGNAL_IN ( in_DECOD_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_instruction_address ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 150 _ALLOC2_SIGNAL_IN ( in_DECOD_ADDRESS_DEST ,"address_dest" ,Taddress_t ,_param->_size_instruction_address ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1]); 151 } 152 153 { 154 ALLOC1_INTERFACE("decod_btb",OUT,NORTH,"Interface with decod unit",_param->_nb_inst_branch_decod); 155 156 ALLOC1_VALACK_OUT(out_DECOD_BTB_VAL ,VAL); 157 ALLOC1_VALACK_IN ( in_DECOD_BTB_ACK ,ACK); 158 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 159 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_instruction_address); 160 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_ADDRESS_DEST ,"address_dest" ,Taddress_t ,_param->_size_instruction_address); 161 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_CONDITION ,"condition" ,Tbranch_condition_t,_param->_size_branch_condition); 162 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_LAST_TAKE ,"last_take" ,Tcontrol_t ,1); 163 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_MISS_PREDICTION,"miss_prediction",Tcontrol_t ,1); 164 ALLOC1_SIGNAL_OUT(out_DECOD_BTB_IS_ACCURATE ,"is_accurate" ,Tcontrol_t ,1); 165 } 166 167 { 168 ALLOC1_INTERFACE("decod_ras",OUT,NORTH,"Interface with decod unit",_param->_nb_inst_branch_decod); 169 170 ALLOC1_VALACK_OUT(out_DECOD_RAS_VAL ,VAL); 171 ALLOC1_VALACK_IN ( in_DECOD_RAS_ACK ,ACK); 172 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_CONTEXT_ID ,"context_id" ,Tcontext_t,_param->_size_context_id); 173 ALLOC1_SIGNAL_IN ( in_DECOD_RAS_HIT ,"hit" ,Tcontrol_t,1); 174 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_PUSH ,"push" ,Tcontrol_t,1); 175 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_ADDRESS_PUSH ,"address_push" ,Taddress_t,_param->_size_instruction_address); 176 ALLOC1_SIGNAL_IN ( in_DECOD_RAS_ADDRESS_POP ,"address_pop" ,Taddress_t,_param->_size_instruction_address); 177 // ALLOC1_SIGNAL_IN ( in_DECOD_RAS_INDEX ,"index" ,Tptr_t ,_param->_size_ras_index); 178 ALLOC1_SIGNAL_OUT(out_DECOD_RAS_MISS_PREDICTION,"miss_prediction",Tcontrol_t,1); 179 } 180 181 { 182 ALLOC1_INTERFACE("decod_upt",OUT,NORTH,"Interface with decod unit",_param->_nb_inst_branch_decod); 183 184 ALLOC1_VALACK_OUT(out_DECOD_UPT_VAL ,VAL); 185 ALLOC1_VALACK_IN ( in_DECOD_UPT_ACK ,ACK); 186 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 187 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_ADDRESS_SRC ,"btb_address_src" ,Taddress_t ,_param->_size_instruction_address); 188 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_ADDRESS_DEST ,"btb_address_dest" ,Taddress_t ,_param->_size_instruction_address); 189 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_CONDITION ,"btb_condition" ,Tbranch_condition_t,_param->_size_branch_condition); 190 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_BTB_LAST_TAKE ,"btb_last_take" ,Tcontrol_t ,1); 191 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_RAS_ADDRESS ,"ras_address" ,Taddress_t ,_param->_size_instruction_address); 192 // ALLOC1_SIGNAL_OUT(out_DECOD_UPT_RAS_INDEX ,"ras_index" ,Tptr_t ,_param->_size_ras_index); 193 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_MISS_IFETCH ,"miss_ifetch" ,Tcontrol_t ,1); 194 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_MISS_DECOD ,"miss_decod" ,Tcontrol_t ,1); 195 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_UPDATE_PREDICTION_ID,"update_prediction_id",Tprediction_ptr_t ,_param->_size_depth ); 196 ALLOC1_SIGNAL_OUT(out_DECOD_UPT_IS_ACCURATE ,"is_accurate" ,Tcontrol_t ,1); 197 } 198 } 199 200 // ~~~~~[ Interface : "update" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 201 { 202 { 203 ALLOC1_INTERFACE("update_btb",OUT,SOUTH,"Interface with update unit",_param->_nb_inst_branch_update); 202 204 203 205 ALLOC1_VALACK_OUT(out_UPDATE_BTB_VAL ,VAL); 204 206 ALLOC1_VALACK_IN ( in_UPDATE_BTB_ACK ,ACK); 205 207 // ALLOC1_SIGNAL_OUT(out_UPDATE_BTB_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 206 // ALLOC1_SIGNAL_OUT(out_UPDATE_BTB_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_ address);207 // ALLOC1_SIGNAL_OUT(out_UPDATE_BTB_ADDRESS_DEST ,"address_dest" ,Taddress_t ,_param->_size_ address);208 // ALLOC1_SIGNAL_OUT(out_UPDATE_BTB_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_instruction_address); 209 // ALLOC1_SIGNAL_OUT(out_UPDATE_BTB_ADDRESS_DEST ,"address_dest" ,Taddress_t ,_param->_size_instruction_address); 208 210 // ALLOC1_SIGNAL_OUT(out_UPDATE_BTB_CONDITION ,"condition" ,Tbranch_condition_t,_param->_size_branch_condition); 209 211 // ALLOC1_SIGNAL_OUT(out_UPDATE_BTB_LAST_TAKE ,"last_take" ,Tcontrol_t ,1); … … 212 214 213 215 { 214 216 ALLOC1_INTERFACE("update_dir",OUT,NORTH,"Interface with update unit",_param->_nb_inst_branch_update); 215 217 216 218 ALLOC1_VALACK_OUT(out_UPDATE_DIR_VAL ,VAL); 217 219 ALLOC1_VALACK_IN ( in_UPDATE_DIR_ACK ,ACK); 218 // ALLOC1_SIGNAL_OUT(out_UPDATE_DIR_ADDRESS ,"address" ,Taddress_t ,_param->_size_ address);220 // ALLOC1_SIGNAL_OUT(out_UPDATE_DIR_ADDRESS ,"address" ,Taddress_t ,_param->_size_instruction_address); 219 221 // ALLOC1_SIGNAL_OUT(out_UPDATE_DIR_HISTORY ,"history" ,Thistory_t ,_param->_size_history); 220 222 // ALLOC1_SIGNAL_OUT(out_UPDATE_DIR_DIRECTION ,"direction" ,Tcontrol_t ,1); … … 222 224 223 225 { 224 226 ALLOC1_INTERFACE("update_ras",OUT,NORTH,"Interface with update unit",_param->_nb_inst_branch_update); 225 227 226 228 ALLOC1_VALACK_OUT(out_UPDATE_RAS_VAL ,VAL); … … 228 230 // ALLOC1_SIGNAL_OUT(out_UPDATE_RAS_CONTEXT_ID ,"context_id" ,Tcontext_t ,_param->_size_context_id); 229 231 // ALLOC1_SIGNAL_OUT(out_UPDATE_RAS_PUSH ,"push" ,Tcontrol_t ,1); 230 // ALLOC1_SIGNAL_OUT(out_UPDATE_RAS_ADDRESS ,"address" ,Taddress_t ,_param->_size_ address);232 // ALLOC1_SIGNAL_OUT(out_UPDATE_RAS_ADDRESS ,"address" ,Taddress_t ,_param->_size_instruction_address); 231 233 // ALLOC1_SIGNAL_OUT(out_UPDATE_RAS_INDEX ,"index" ,Tptr_t ,_param->_size_ras_index); 232 234 // ALLOC1_SIGNAL_OUT(out_UPDATE_RAS_MISS_PREDICTION ,"miss_prediction" ,Tcontrol_t ,1); … … 235 237 236 238 { 237 239 ALLOC1_INTERFACE("update_upt",IN ,NORTH,"Interface with update unit",_param->_nb_inst_branch_update); 238 240 239 241 ALLOC1_VALACK_IN ( in_UPDATE_UPT_VAL ,VAL); … … 242 244 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_MISS_PREDICTION ,"miss_prediction" ,Tcontrol_t ,1); 243 245 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_DIRECTION_GOOD ,"direction_good" ,Tcontrol_t ,1); 244 245 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_BTB_ADDRESS_SRC ,"btb_address_src" ,Taddress_t ,_param->_size_ address);246 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_BTB_ADDRESS_DEST ,"btb_address_dest" ,Taddress_t ,_param->_size_ address);246 ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_BTB_VAL ,"btb_val" ,Tcontrol_t ,1); 247 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_BTB_ADDRESS_SRC ,"btb_address_src" ,Taddress_t ,_param->_size_instruction_address); 248 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_BTB_ADDRESS_DEST ,"btb_address_dest" ,Taddress_t ,_param->_size_instruction_address); 247 249 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_BTB_CONDITION ,"btb_condition" ,Tbranch_condition_t,_param->_size_branch_condition); 248 250 ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_DIR_VAL ,"dir_val" ,Tcontrol_t ,1); … … 250 252 ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_RAS_VAL ,"ras_val" ,Tcontrol_t ,1); 251 253 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_RAS_PUSH ,"ras_push" ,Tcontrol_t ,1); 252 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_RAS_ADDRESS ,"ras_address" ,Taddress_t ,_param->_size_ address);254 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_RAS_ADDRESS ,"ras_address" ,Taddress_t ,_param->_size_instruction_address); 253 255 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_RAS_INDEX ,"ras_index" ,Tptr_t ,_param->_size_ras_index); 254 256 // ALLOC1_SIGNAL_IN ( in_UPDATE_UPT_RAS_PREDICTION_IFETCH,"ras_prediction_ifetch",Tcontrol_t ,1); … … 256 258 } 257 259 258 // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~259 260 261 262 ALLOC1_SIGNAL_IN ( in_DEPTH_UPT_NB_BRANCH,"upt_nb_branch",Tdepth_t,_param->_size_depth[alloc_signal_it1]+1);263 ALLOC1_SIGNAL_IN ( in_DEPTH_UPT_TAIL ,"upt_tail" ,Tdepth_t,_param->_size_depth[alloc_signal_it1]);264 ALLOC1_SIGNAL_OUT(out_DEPTH_NB_BRANCH ,"nb_branch" ,Tdepth_t,_param->_size_depth[alloc_signal_it1]+1);265 ALLOC1_SIGNAL_OUT(out_DEPTH_TAIL ,"tail" ,Tdepth_t,_param->_size_depth[alloc_signal_it1]);266 260 // // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 261 // { 262 // ALLOC1_INTERFACE("depth",IN,NORTH,"Interface with depth",_param->_nb_context); 263 // 264 // ALLOC1_SIGNAL_IN ( in_DEPTH_UPT_NB_BRANCH,"upt_nb_branch",Tdepth_t,_param->_size_depth+1); 265 // ALLOC1_SIGNAL_IN ( in_DEPTH_UPT_TAIL ,"upt_tail" ,Tdepth_t,_param->_size_depth); 266 // ALLOC1_SIGNAL_OUT(out_DEPTH_NB_BRANCH ,"nb_branch" ,Tdepth_t,_param->_size_depth+1); 267 // ALLOC1_SIGNAL_OUT(out_DEPTH_TAIL ,"tail" ,Tdepth_t,_param->_size_depth); 268 // } 267 269 268 270 // ~~~~~[ Register ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 269 271 270 #ifndef NO_INIT 271 reg_PREDICT_PRIORITY = 0; 272 reg_DECOD_PRIORITY = 0; 272 #ifndef REGISTER_INIT 273 if (usage_is_set(_usage,USE_SYSTEMC)) 274 { 275 reg_PREDICT_PRIORITY = 0; 276 reg_DECOD_PRIORITY = 0; 277 } 273 278 #endif 274 279 … … 277 282 #ifdef POSITION 278 283 if (usage_is_set(_usage,USE_POSITION)) 279 284 _component->generate_file(); 280 285 #endif 281 286 -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Prediction_unit_Glue_deallocation.cpp
r82 r88 33 33 DELETE1_SIGNAL( in_PREDICT_VAL ,_param->_nb_context ,1); 34 34 DELETE1_SIGNAL(out_PREDICT_ACK ,_param->_nb_context ,1); 35 DELETE1_SIGNAL( in_PREDICT_PC_PREVIOUS ,_param->_nb_context ,_param->_size_ address);36 DELETE1_SIGNAL( in_PREDICT_PC_CURRENT ,_param->_nb_context ,_param->_size_ address);35 DELETE1_SIGNAL( in_PREDICT_PC_PREVIOUS ,_param->_nb_context ,_param->_size_instruction_address); 36 DELETE1_SIGNAL( in_PREDICT_PC_CURRENT ,_param->_nb_context ,_param->_size_instruction_address); 37 37 DELETE1_SIGNAL( in_PREDICT_PC_CURRENT_IS_DS_TAKE ,_param->_nb_context ,1); 38 DELETE1_SIGNAL(out_PREDICT_PC_NEXT ,_param->_nb_context ,_param->_size_ address);38 DELETE1_SIGNAL(out_PREDICT_PC_NEXT ,_param->_nb_context ,_param->_size_instruction_address); 39 39 DELETE1_SIGNAL(out_PREDICT_PC_NEXT_IS_DS_TAKE ,_param->_nb_context ,1); 40 DELETE1_SIGNAL(out_PREDICT_INST_IFETCH_PTR ,_param->_nb_context ,_param->_size_inst_ifetch_ptr [alloc_signal_it1]);40 DELETE1_SIGNAL(out_PREDICT_INST_IFETCH_PTR ,_param->_nb_context ,_param->_size_inst_ifetch_ptr); 41 41 DELETE1_SIGNAL(out_PREDICT_BRANCH_STATE ,_param->_nb_context ,_param->_size_branch_state); 42 DELETE1_SIGNAL(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID,_param->_nb_context ,_param->_size_depth [alloc_signal_it1]);43 DELETE2_SIGNAL(out_PREDICT_INSTRUCTION_ENABLE ,_param->_nb_context ,_param->_nb_instruction[ alloc_signal_it1],1);42 DELETE1_SIGNAL(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID,_param->_nb_context ,_param->_size_depth); 43 DELETE2_SIGNAL(out_PREDICT_INSTRUCTION_ENABLE ,_param->_nb_context ,_param->_nb_instruction[it1],1); 44 44 DELETE1_SIGNAL(out_PREDICT_BTB_VAL ,_param->_nb_inst_branch_predict,1); 45 45 DELETE1_SIGNAL( in_PREDICT_BTB_ACK ,_param->_nb_inst_branch_predict,1); 46 46 DELETE1_SIGNAL(out_PREDICT_BTB_CONTEXT_ID ,_param->_nb_inst_branch_predict,_param->_size_context_id); 47 DELETE1_SIGNAL(out_PREDICT_BTB_ADDRESS ,_param->_nb_inst_branch_predict,_param->_size_ address);47 DELETE1_SIGNAL(out_PREDICT_BTB_ADDRESS ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 48 48 DELETE1_SIGNAL( in_PREDICT_BTB_HIT ,_param->_nb_inst_branch_predict,1); 49 DELETE1_SIGNAL( in_PREDICT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_predict,_param->_size_ address);50 DELETE1_SIGNAL( in_PREDICT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_predict,_param->_size_ address);49 DELETE1_SIGNAL( in_PREDICT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 50 DELETE1_SIGNAL( in_PREDICT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 51 51 DELETE1_SIGNAL( in_PREDICT_BTB_CONDITION ,_param->_nb_inst_branch_predict,_param->_size_branch_condition); 52 52 // DELETE1_SIGNAL( in_PREDICT_BTB_LAST_TAKE ,_param->_nb_inst_branch_predict,1); … … 54 54 DELETE1_SIGNAL(out_PREDICT_DIR_VAL ,_param->_nb_inst_branch_predict,1); 55 55 DELETE1_SIGNAL( in_PREDICT_DIR_ACK ,_param->_nb_inst_branch_predict,1); 56 DELETE1_SIGNAL(out_PREDICT_DIR_ADDRESS_SRC ,_param->_nb_inst_branch_predict,_param->_size_ address);56 DELETE1_SIGNAL(out_PREDICT_DIR_ADDRESS_SRC ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 57 57 DELETE1_SIGNAL(out_PREDICT_DIR_STATIC ,_param->_nb_inst_branch_predict,1); 58 58 // DELETE1_SIGNAL(out_PREDICT_DIR_LAST_TAKE ,_param->_nb_inst_branch_predict,1); … … 64 64 DELETE1_SIGNAL( in_PREDICT_RAS_HIT ,_param->_nb_inst_branch_predict,1); 65 65 DELETE1_SIGNAL(out_PREDICT_RAS_PUSH ,_param->_nb_inst_branch_predict,1); 66 DELETE1_SIGNAL(out_PREDICT_RAS_ADDRESS_PUSH ,_param->_nb_inst_branch_predict,_param->_size_ address);67 DELETE1_SIGNAL( in_PREDICT_RAS_ADDRESS_POP ,_param->_nb_inst_branch_predict,_param->_size_ address);66 DELETE1_SIGNAL(out_PREDICT_RAS_ADDRESS_PUSH ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 67 DELETE1_SIGNAL( in_PREDICT_RAS_ADDRESS_POP ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 68 68 // DELETE1_SIGNAL( in_PREDICT_RAS_INDEX ,_param->_nb_inst_branch_predict,_param->_size_ras_index); 69 69 DELETE1_SIGNAL(out_PREDICT_UPT_VAL ,_param->_nb_inst_branch_predict,1); 70 70 DELETE1_SIGNAL( in_PREDICT_UPT_ACK ,_param->_nb_inst_branch_predict,1); 71 71 DELETE1_SIGNAL(out_PREDICT_UPT_CONTEXT_ID ,_param->_nb_inst_branch_predict,_param->_size_context_id); 72 DELETE1_SIGNAL(out_PREDICT_UPT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_predict,_param->_size_address); 73 DELETE1_SIGNAL(out_PREDICT_UPT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_predict,_param->_size_address); 72 DELETE1_SIGNAL( in_PREDICT_UPT_BRANCH_UPDATE_PREDICTION_ID,_param->_nb_inst_branch_predict,_param->_size_depth); 73 DELETE1_SIGNAL(out_PREDICT_UPT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 74 DELETE1_SIGNAL(out_PREDICT_UPT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 74 75 DELETE1_SIGNAL(out_PREDICT_UPT_BTB_CONDITION ,_param->_nb_inst_branch_predict,_param->_size_branch_condition); 75 76 DELETE1_SIGNAL(out_PREDICT_UPT_BTB_LAST_TAKE ,_param->_nb_inst_branch_predict,1); 76 77 DELETE1_SIGNAL(out_PREDICT_UPT_BTB_IS_ACCURATE ,_param->_nb_inst_branch_predict,1); 77 78 // DELETE1_SIGNAL(out_PREDICT_UPT_DIR_HISTORY ,_param->_nb_inst_branch_predict,_param->_size_history); 78 DELETE1_SIGNAL(out_PREDICT_UPT_RAS_ADDRESS ,_param->_nb_inst_branch_predict,_param->_size_ address);79 DELETE1_SIGNAL(out_PREDICT_UPT_RAS_ADDRESS ,_param->_nb_inst_branch_predict,_param->_size_instruction_address); 79 80 // DELETE1_SIGNAL(out_PREDICT_UPT_RAS_INDEX ,_param->_nb_inst_branch_predict,_param->_size_ras_index); 80 81 81 82 // ~~~~~[ Interface : "decod" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 82 DELETE2_SIGNAL( in_DECOD_VAL ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],1);83 DELETE2_SIGNAL(out_DECOD_ACK ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],1);84 DELETE2_SIGNAL( in_DECOD_CONTEXT_ID ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],_param->_size_context_id );85 DELETE2_SIGNAL( in_DECOD_MATCH_INST_IFETCH_PTR ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],1 );86 DELETE2_SIGNAL( in_DECOD_BRANCH_STATE ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],_param->_size_branch_state );87 DELETE2_SIGNAL( in_DECOD_BRANCH_UPDATE_PREDICTION_ID,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],_param->_max_size_depth);88 DELETE2_SIGNAL( in_DECOD_BRANCH_CONDITION ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],_param->_size_branch_condition);89 DELETE2_SIGNAL( in_DECOD_BRANCH_DIRECTION ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],1 );90 DELETE2_SIGNAL( in_DECOD_ADDRESS_SRC ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],_param->_size_address );91 DELETE2_SIGNAL( in_DECOD_ADDRESS_DEST ,_param->_nb_decod_unit,_param->_nb_inst_decod[ alloc_signal_it1],_param->_size_address );83 DELETE2_SIGNAL( in_DECOD_VAL ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],1); 84 DELETE2_SIGNAL(out_DECOD_ACK ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],1); 85 DELETE2_SIGNAL( in_DECOD_CONTEXT_ID ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],_param->_size_context_id ); 86 DELETE2_SIGNAL( in_DECOD_MATCH_INST_IFETCH_PTR ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],1 ); 87 DELETE2_SIGNAL( in_DECOD_BRANCH_STATE ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],_param->_size_branch_state ); 88 DELETE2_SIGNAL( in_DECOD_BRANCH_UPDATE_PREDICTION_ID,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],_param->_size_depth ); 89 DELETE2_SIGNAL( in_DECOD_BRANCH_CONDITION ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],_param->_size_branch_condition); 90 DELETE2_SIGNAL( in_DECOD_BRANCH_DIRECTION ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],1 ); 91 DELETE2_SIGNAL( in_DECOD_ADDRESS_SRC ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],_param->_size_instruction_address ); 92 DELETE2_SIGNAL( in_DECOD_ADDRESS_DEST ,_param->_nb_decod_unit,_param->_nb_inst_decod[it1],_param->_size_instruction_address ); 92 93 DELETE1_SIGNAL(out_DECOD_BTB_VAL ,_param->_nb_inst_branch_decod,1); 93 94 DELETE1_SIGNAL( in_DECOD_BTB_ACK ,_param->_nb_inst_branch_decod,1); 94 95 DELETE1_SIGNAL(out_DECOD_BTB_CONTEXT_ID ,_param->_nb_inst_branch_decod,_param->_size_context_id); 95 DELETE1_SIGNAL(out_DECOD_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_decod,_param->_size_ address);96 DELETE1_SIGNAL(out_DECOD_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_decod,_param->_size_ address);96 DELETE1_SIGNAL(out_DECOD_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_decod,_param->_size_instruction_address); 97 DELETE1_SIGNAL(out_DECOD_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_decod,_param->_size_instruction_address); 97 98 DELETE1_SIGNAL(out_DECOD_BTB_CONDITION ,_param->_nb_inst_branch_decod,_param->_size_branch_condition); 98 99 DELETE1_SIGNAL(out_DECOD_BTB_LAST_TAKE ,_param->_nb_inst_branch_decod,1); … … 105 106 DELETE1_SIGNAL( in_DECOD_RAS_HIT ,_param->_nb_inst_branch_decod,1); 106 107 DELETE1_SIGNAL(out_DECOD_RAS_PUSH ,_param->_nb_inst_branch_decod,1); 107 DELETE1_SIGNAL(out_DECOD_RAS_ADDRESS_PUSH ,_param->_nb_inst_branch_decod,_param->_size_ address);108 DELETE1_SIGNAL( in_DECOD_RAS_ADDRESS_POP ,_param->_nb_inst_branch_decod,_param->_size_ address);108 DELETE1_SIGNAL(out_DECOD_RAS_ADDRESS_PUSH ,_param->_nb_inst_branch_decod,_param->_size_instruction_address); 109 DELETE1_SIGNAL( in_DECOD_RAS_ADDRESS_POP ,_param->_nb_inst_branch_decod,_param->_size_instruction_address); 109 110 // DELETE1_SIGNAL( in_DECOD_RAS_INDEX ,_param->_nb_inst_branch_decod,_param->_size_ras_index); 110 111 DELETE1_SIGNAL(out_DECOD_RAS_MISS_PREDICTION,_param->_nb_inst_branch_decod,1); … … 113 114 DELETE1_SIGNAL( in_DECOD_UPT_ACK ,_param->_nb_inst_branch_decod,1); 114 115 DELETE1_SIGNAL(out_DECOD_UPT_CONTEXT_ID ,_param->_nb_inst_branch_decod,_param->_size_context_id); 115 DELETE1_SIGNAL(out_DECOD_UPT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_decod,_param->_size_ address);116 DELETE1_SIGNAL(out_DECOD_UPT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_decod,_param->_size_ address);116 DELETE1_SIGNAL(out_DECOD_UPT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_decod,_param->_size_instruction_address); 117 DELETE1_SIGNAL(out_DECOD_UPT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_decod,_param->_size_instruction_address); 117 118 DELETE1_SIGNAL(out_DECOD_UPT_BTB_CONDITION ,_param->_nb_inst_branch_decod,_param->_size_branch_condition); 118 119 DELETE1_SIGNAL(out_DECOD_UPT_BTB_LAST_TAKE ,_param->_nb_inst_branch_decod,1); 119 DELETE1_SIGNAL(out_DECOD_UPT_RAS_ADDRESS ,_param->_nb_inst_branch_decod,_param->_size_ address);120 DELETE1_SIGNAL(out_DECOD_UPT_RAS_ADDRESS ,_param->_nb_inst_branch_decod,_param->_size_instruction_address); 120 121 // DELETE1_SIGNAL(out_DECOD_UPT_RAS_INDEX ,_param->_nb_inst_branch_decod,_param->_size_ras_index); 121 122 DELETE1_SIGNAL(out_DECOD_UPT_MISS_IFETCH ,_param->_nb_inst_branch_decod,1); 122 123 DELETE1_SIGNAL(out_DECOD_UPT_MISS_DECOD ,_param->_nb_inst_branch_decod,1); 123 DELETE1_SIGNAL(out_DECOD_UPT_UPDATE_PREDICTION_ID,_param->_nb_inst_branch_decod,_param->_max_size_depth); 124 DELETE1_SIGNAL(out_DECOD_UPT_UPDATE_PREDICTION_ID,_param->_nb_inst_branch_decod,_param->_size_depth); 125 DELETE1_SIGNAL(out_DECOD_UPT_IS_ACCURATE ,_param->_nb_inst_branch_decod,1); 124 126 125 127 // ~~~~~[ Interface : "update" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ … … 127 129 DELETE1_SIGNAL( in_UPDATE_BTB_ACK ,_param->_nb_inst_branch_update,1); 128 130 // DELETE1_SIGNAL(out_UPDATE_BTB_CONTEXT_ID ,_param->_nb_inst_branch_update,_param->_size_context_id); 129 // DELETE1_SIGNAL(out_UPDATE_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_update,_param->_size_ address);130 // DELETE1_SIGNAL(out_UPDATE_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_update,_param->_size_ address);131 // DELETE1_SIGNAL(out_UPDATE_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_update,_param->_size_instruction_address); 132 // DELETE1_SIGNAL(out_UPDATE_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_update,_param->_size_instruction_address); 131 133 // DELETE1_SIGNAL(out_UPDATE_BTB_CONDITION ,_param->_nb_inst_branch_update,_param->_size_branch_condition); 132 134 // DELETE1_SIGNAL(out_UPDATE_BTB_LAST_TAKE ,_param->_nb_inst_branch_update,1); … … 135 137 DELETE1_SIGNAL(out_UPDATE_DIR_VAL ,_param->_nb_inst_branch_update,1); 136 138 DELETE1_SIGNAL( in_UPDATE_DIR_ACK ,_param->_nb_inst_branch_update,1); 137 // DELETE1_SIGNAL(out_UPDATE_DIR_ADDRESS ,_param->_nb_inst_branch_update,_param->_size_ address);139 // DELETE1_SIGNAL(out_UPDATE_DIR_ADDRESS ,_param->_nb_inst_branch_update,_param->_size_instruction_address); 138 140 // DELETE1_SIGNAL(out_UPDATE_DIR_HISTORY ,_param->_nb_inst_branch_update,_param->_size_history); 139 141 // DELETE1_SIGNAL(out_UPDATE_DIR_DIRECTION ,_param->_nb_inst_branch_update,1); … … 143 145 // DELETE1_SIGNAL(out_UPDATE_RAS_CONTEXT_ID ,_param->_nb_inst_branch_update,_param->_size_context_id); 144 146 // DELETE1_SIGNAL(out_UPDATE_RAS_PUSH ,_param->_nb_inst_branch_update,1); 145 // DELETE1_SIGNAL(out_UPDATE_RAS_ADDRESS ,_param->_nb_inst_branch_update,_param->_size_ address);147 // DELETE1_SIGNAL(out_UPDATE_RAS_ADDRESS ,_param->_nb_inst_branch_update,_param->_size_instruction_address); 146 148 // DELETE1_SIGNAL(out_UPDATE_RAS_INDEX ,_param->_nb_inst_branch_update,_param->_size_ras_index); 147 149 // DELETE1_SIGNAL(out_UPDATE_RAS_MISS_PREDICTION ,_param->_nb_inst_branch_update,1); … … 154 156 // DELETE1_SIGNAL( in_UPDATE_UPT_DIRECTION_GOOD ,_param->_nb_inst_branch_update,1); 155 157 DELETE1_SIGNAL( in_UPDATE_UPT_BTB_VAL ,_param->_nb_inst_branch_update,1); 156 // DELETE1_SIGNAL( in_UPDATE_UPT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_update,_param->_size_ address);157 // DELETE1_SIGNAL( in_UPDATE_UPT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_update,_param->_size_ address);158 // DELETE1_SIGNAL( in_UPDATE_UPT_BTB_ADDRESS_SRC ,_param->_nb_inst_branch_update,_param->_size_instruction_address); 159 // DELETE1_SIGNAL( in_UPDATE_UPT_BTB_ADDRESS_DEST ,_param->_nb_inst_branch_update,_param->_size_instruction_address); 158 160 // DELETE1_SIGNAL( in_UPDATE_UPT_BTB_CONDITION ,_param->_nb_inst_branch_update,_param->_size_branch_condition); 159 161 DELETE1_SIGNAL( in_UPDATE_UPT_DIR_VAL ,_param->_nb_inst_branch_update,1); … … 161 163 DELETE1_SIGNAL( in_UPDATE_UPT_RAS_VAL ,_param->_nb_inst_branch_update,1); 162 164 // DELETE1_SIGNAL( in_UPDATE_UPT_RAS_PUSH ,_param->_nb_inst_branch_update,1); 163 // DELETE1_SIGNAL( in_UPDATE_UPT_RAS_ADDRESS ,_param->_nb_inst_branch_update,_param->_size_ address);165 // DELETE1_SIGNAL( in_UPDATE_UPT_RAS_ADDRESS ,_param->_nb_inst_branch_update,_param->_size_instruction_address); 164 166 // DELETE1_SIGNAL( in_UPDATE_UPT_RAS_INDEX ,_param->_nb_inst_branch_update,_param->_size_ras_index); 165 167 // DELETE1_SIGNAL( in_UPDATE_UPT_RAS_PREDICTION_IFETCH,_param->_nb_inst_branch_update,1); 166 168 167 // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~168 DELETE1_SIGNAL( in_DEPTH_UPT_NB_BRANCH,_param->_nb_context,_param->_size_depth[alloc_signal_it1]+1);169 DELETE1_SIGNAL( in_DEPTH_UPT_TAIL ,_param->_nb_context,_param->_size_depth[alloc_signal_it1]);170 DELETE1_SIGNAL(out_DEPTH_NB_BRANCH ,_param->_nb_context,_param->_size_depth[alloc_signal_it1]+1);171 DELETE1_SIGNAL(out_DEPTH_TAIL ,_param->_nb_context,_param->_size_depth[alloc_signal_it1]);169 // // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 170 // DELETE1_SIGNAL( in_DEPTH_UPT_NB_BRANCH,_param->_nb_context,_param->_size_depth+1); 171 // DELETE1_SIGNAL( in_DEPTH_UPT_TAIL ,_param->_nb_context,_param->_size_depth); 172 // DELETE1_SIGNAL(out_DEPTH_NB_BRANCH ,_param->_nb_context,_param->_size_depth+1); 173 // DELETE1_SIGNAL(out_DEPTH_TAIL ,_param->_nb_context,_param->_size_depth); 172 174 } 173 175 // ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Prediction_unit_Glue_genMealy_decod.cpp
r82 r88 22 22 void Prediction_unit_Glue::genMealy_decod (void) 23 23 { 24 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin"); 25 24 log_begin(Prediction_unit_Glue,FUNCTION); 25 log_function(Prediction_unit_Glue,FUNCTION,_name.c_str()); 26 27 // Init 26 28 uint32_t decod_unit = reg_DECOD_PRIORITY; 27 29 28 30 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * decod_unit : %d",decod_unit); 29 31 … … 49 51 if ((port>=_param->_nb_inst_branch_decod) or 50 52 (PORT_READ(in_DECOD_VAL [decod_unit][i]) == 0)) 51 {53 { 52 54 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * DECOD[%d][%d] : not valid",decod_unit,i); 53 55 ack [i] = false; … … 55 57 else 56 58 { 57 Tcontext_t context = (_param->_have_port_context_id)?PORT_READ(in_DECOD_CONTEXT_ID [decod_unit][i]):0; 58 Tbranch_state_t branch_state = PORT_READ(in_DECOD_BRANCH_STATE [decod_unit][i]); 59 Tcontrol_t match_inst_ifetch_ptr = PORT_READ(in_DECOD_MATCH_INST_IFETCH_PTR [decod_unit][i]); 60 Tprediction_ptr_t depth = (_param->_have_port_max_depth)?PORT_READ(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [decod_unit][i]):0; 61 Tcontrol_t use_btb = false; 62 Tcontrol_t use_ras = false; 63 Tcontrol_t use_upt = true ; 64 Tcontrol_t miss_ifetch = ( (branch_state == BRANCH_STATE_NONE) or // branch not detected 65 ((branch_state != BRANCH_STATE_NONE) and (match_inst_ifetch_ptr == 0))); // branch detected, but it's not the good 66 Tcontrol_t miss_decod; 59 Tcontext_t context = (_param->_have_port_context_id)?PORT_READ(in_DECOD_CONTEXT_ID [decod_unit][i]):0; 60 Tbranch_state_t branch_state = PORT_READ(in_DECOD_BRANCH_STATE [decod_unit][i]); 61 Tcontrol_t match_inst_ifetch_ptr = PORT_READ(in_DECOD_MATCH_INST_IFETCH_PTR [decod_unit][i]); 62 Tprediction_ptr_t depth = (_param->_have_port_depth)?PORT_READ(in_DECOD_BRANCH_UPDATE_PREDICTION_ID [decod_unit][i]):0; 63 Tcontrol_t use_btb = false; 64 Tcontrol_t use_ras = false; 65 Tcontrol_t use_upt = true ; // always update upt. 66 67 // Ifetch stage made an miss if : 68 // * branch is previously predict, but it's not the good 69 Tcontrol_t miss_ifetch = ((branch_state != BRANCH_STATE_NONE) and (match_inst_ifetch_ptr == 0)); 70 // Decod stage made an miss if : 71 // * branch was not detected 72 Tcontrol_t miss_decod = (branch_state == BRANCH_STATE_NONE); 67 73 68 74 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * DECOD[%d][%d] : valid",decod_unit,i); 69 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * depth [%d] : %d",i ,depth); 75 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * branch_state : %d",branch_state); 76 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * match_inst_ifetch_ptr : %d",match_inst_ifetch_ptr); 77 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * depth : [%d] %d",i,depth); 78 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * miss_ifetch : %d",miss_ifetch); 79 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * miss_decod : %d",miss_decod); 70 80 71 81 // Test if ifetch have detecte a branch is the packet 72 if (miss_ifetch )82 if (miss_ifetch or miss_decod) 73 83 { 74 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * miss_ifetch"); 75 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * state : %d",branch_state); 76 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * match : %d",match_inst_ifetch_ptr); 77 Tbranch_condition_t condition = PORT_READ(in_DECOD_BRANCH_CONDITION [decod_unit][i]); 78 Tcontrol_t direction = PORT_READ(in_DECOD_BRANCH_DIRECTION [decod_unit][i]); 79 Taddress_t address_src = PORT_READ(in_DECOD_ADDRESS_SRC [decod_unit][i]); 80 Taddress_t address_dest = PORT_READ(in_DECOD_ADDRESS_DEST [decod_unit][i]); 84 Tbranch_condition_t condition = PORT_READ(in_DECOD_BRANCH_CONDITION [decod_unit][i]); 85 Tcontrol_t direction = PORT_READ(in_DECOD_BRANCH_DIRECTION [decod_unit][i]); 86 Taddress_t address_src = PORT_READ(in_DECOD_ADDRESS_SRC [decod_unit][i]); 87 Taddress_t address_dest = PORT_READ(in_DECOD_ADDRESS_DEST [decod_unit][i]); 81 88 Tcontrol_t is_accurate; 82 89 … … 88 95 case BRANCH_CONDITION_NONE_WITH_WRITE_STACK : 89 96 { 90 // Write stack 97 // l.jal 98 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * BRANCH_CONDITION_NONE_WITH_WRITE_STACK"); 99 100 is_accurate = true ;//PORT_READ(in_DECOD_RAS_HIT [port]); 101 use_ras = true ; 102 103 PORT_WRITE(out_DECOD_RAS_PUSH [port],1); 104 PORT_WRITE(out_DECOD_RAS_ADDRESS_PUSH [port],address_src+2); 105 106 break; 107 } 108 109 case BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK : 110 { 111 // l.jalr 112 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK"); 113 114 is_accurate = false; // address unknow : in a register 115 use_ras = true; 116 117 PORT_WRITE(out_DECOD_RAS_PUSH [port],1); 118 PORT_WRITE(out_DECOD_RAS_ADDRESS_PUSH [port],address_src+2); 119 120 break; 121 } 122 case BRANCH_CONDITION_READ_STACK : 123 { 124 // l.jr with rb=r9 125 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * BRANCH_CONDITION_READ_STACK"); 126 91 127 is_accurate = PORT_READ(in_DECOD_RAS_HIT [port]); 92 miss_decod = false;93 128 use_ras = true; 94 129 95 PORT_WRITE(out_DECOD_RAS_PUSH [port],1); 96 PORT_WRITE(out_DECOD_RAS_ADDRESS_PUSH [port],address_dest); 97 98 break; 99 } 100 101 case BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK : 102 { 103 // Write stack 104 is_accurate = false; 105 miss_decod = false; 106 use_ras = true; 107 108 PORT_WRITE(out_DECOD_RAS_PUSH [port],1); 109 PORT_WRITE(out_DECOD_RAS_ADDRESS_PUSH [port],address_dest); 110 111 break; 112 } 113 case BRANCH_CONDITION_READ_STACK : 114 { 115 // Read stack 116 is_accurate = PORT_READ(in_DECOD_RAS_HIT [port]); 117 miss_decod = false; 118 use_ras = true; 119 120 PORT_WRITE(out_DECOD_RAS_PUSH [port],0); 130 PORT_WRITE(out_DECOD_RAS_PUSH [port],0); // POP 121 131 address_dest = PORT_READ(in_DECOD_RAS_ADDRESS_POP [port]); 122 132 … … 125 135 case BRANCH_CONDITION_READ_REGISTER_WITHOUT_WRITE_STACK : 126 136 { 137 // l.jr with rb!=r9 138 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * BRANCH_CONDITION_READ_REGISTER_WITHOUT_WRITE_STACK"); 139 127 140 // * READ_REGISTER_WITHOUT_WRITE_STACK : Take but destination is unknow - don't continue 128 is_accurate = PORT_READ(in_DECOD_RAS_HIT [port]); 129 miss_decod = true; 141 is_accurate = false; // address unknow : in a register 130 142 131 143 break; … … 135 147 case BRANCH_CONDITION_FLAG_SET : 136 148 { 137 // No access at the flag149 // l.bf, l.bnf 138 150 // * FLAG : static direction and destination is know 139 is_accurate = PORT_READ(in_DECOD_RAS_HIT [port]); 140 miss_decod = false; 151 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * BRANCH_CONDITION_FLAG"); 152 153 is_accurate = true; // address dest is know 141 154 142 155 break; … … 145 158 case BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK : 146 159 { 147 // No access at the flag 148 // * NONE_WITHOUT_WRITE_STACK : take and destination is know 149 is_accurate = false; 150 miss_decod = false; 151 use_ras = true; 152 153 PORT_WRITE(out_DECOD_RAS_PUSH [port],1); 154 PORT_WRITE(out_DECOD_RAS_ADDRESS_PUSH [port],address_dest); 155 156 break; 157 } 158 160 // l.j 161 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK"); 162 163 is_accurate = true; 164 165 break; 166 } 159 167 } 160 168 … … 180 188 if (use_upt) 181 189 { 182 PORT_WRITE(out_DECOD_UPT_BTB_ADDRESS_SRC [port],address_src); 183 PORT_WRITE(out_DECOD_UPT_BTB_ADDRESS_DEST [port],address_dest); 184 PORT_WRITE(out_DECOD_UPT_BTB_CONDITION [port],condition); 185 PORT_WRITE(out_DECOD_UPT_BTB_LAST_TAKE [port],direction); 186 PORT_WRITE(out_DECOD_UPT_RAS_ADDRESS [port],PORT_READ(in_DECOD_RAS_ADDRESS_POP [port])); 190 PORT_WRITE(out_DECOD_UPT_BTB_ADDRESS_SRC [port],address_src); 191 PORT_WRITE(out_DECOD_UPT_BTB_ADDRESS_DEST[port],address_dest); 192 PORT_WRITE(out_DECOD_UPT_BTB_CONDITION [port],condition); 193 PORT_WRITE(out_DECOD_UPT_BTB_LAST_TAKE [port],direction); 194 PORT_WRITE(out_DECOD_UPT_RAS_ADDRESS [port],PORT_READ(in_DECOD_RAS_ADDRESS_POP [port])); 195 PORT_WRITE(out_DECOD_UPT_IS_ACCURATE [port],is_accurate); 187 196 } 188 197 } 189 else 190 { 191 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * hit"); 192 193 miss_decod = false; 194 // Hit speculation 195 } 196 198 // else 199 // { 200 // log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * hit"); 201 202 // miss_decod = false; 203 // // Hit speculation 204 // } 205 206 197 207 // in all case 198 208 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * use_btb : %d",use_btb); … … 231 241 PORT_WRITE(out_DECOD_UPT_MISS_IFETCH [port],miss_ifetch); 232 242 PORT_WRITE(out_DECOD_UPT_MISS_DECOD [port],miss_decod ); 233 if (_param->_have_port_ max_depth)243 if (_param->_have_port_depth) 234 244 PORT_WRITE(out_DECOD_UPT_UPDATE_PREDICTION_ID [port],depth); 235 245 … … 237 247 } 238 248 249 // Write output 250 239 251 for (uint32_t i=0; i<_param->_nb_inst_branch_decod; i++) 240 252 { … … 251 263 PORT_WRITE(out_DECOD_ACK [i][j], ack[j]); 252 264 253 log_ printf(FUNC,Prediction_unit_Glue,FUNCTION,"End");265 log_end(Prediction_unit_Glue,FUNCTION); 254 266 }; 255 267 -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Prediction_unit_Glue_genMealy_predict.cpp
r82 r88 22 22 void Prediction_unit_Glue::genMealy_predict (void) 23 23 { 24 log_printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin"); 24 log_begin(Prediction_unit_Glue,FUNCTION); 25 log_function(Prediction_unit_Glue,FUNCTION,_name.c_str()); 25 26 26 27 Tcontrol_t ack [_param->_nb_context]; 27 28 for (uint32_t i=0; i<_param->_nb_context; i++) 28 29 { 29 30 31 if (_param->_have_port_depth[i])32 33 34 35 30 ack [i] = 0; 31 32 // if (_param->_have_port_depth) 33 // { 34 // PORT_WRITE(out_DEPTH_TAIL [i],PORT_READ(in_DEPTH_UPT_TAIL [i])); 35 // } 36 // PORT_WRITE(out_DEPTH_NB_BRANCH [i],PORT_READ(in_DEPTH_UPT_NB_BRANCH [i])); 36 37 } 37 38 38 39 for (uint32_t i=0; i<_param->_nb_inst_branch_predict; i++) 39 40 { 40 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"PREDICT [%d]",i);41 42 43 44 45 46 47 48 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* context : %d",context);49 50 51 52 53 54 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* not valid ...");55 56 57 58 59 60 61 62 63 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* valid ...");64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* address : 0x%x",address);81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 // 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 // 217 218 // 219 220 221 222 223 224 225 226 // 227 // 228 // 229 // 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 // 247 // 248 249 250 251 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* address_src : 0x%x",address_src);252 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* address_src_lsb : %d",address_src_lsb);253 254 255 256 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* branch is in the last slot of the packet");257 258 259 260 261 262 263 264 265 266 267 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* address_msb : %d",address_msb);268 269 270 branch_update_prediction_id = (_param->_have_port_depth[context])?((PORT_READ(in_DEPTH_UPT_TAIL[context])+PORT_READ(in_DEPTH_UPT_NB_BRANCH [context]))%_param->_size_depth[context]):0;271 272 273 274 275 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* BTB miss : sequential order");276 277 278 279 280 281 282 283 284 285 286 287 288 289 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* instruction enable :");290 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* nb_inst : %d",_param->_nb_instruction [context]);291 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* [0:%d[ = 0",address_lsb);292 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* [%d:%d[ = 1",address_lsb,((pc_current_is_ds_take)?1:address_msb));293 log_printf(TRACE,Prediction_unit_Glue,FUNCTION,"* [%d:%d[ = 0",((pc_current_is_ds_take)?1:address_msb),_param->_nb_instruction [context]);294 295 296 297 298 299 300 301 if (_param->_have_port_inst_ifetch_ptr[context])302 303 304 if (_param->_have_port_depth[context])305 PORT_WRITE(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [context] , branch_update_prediction_id);306 307 308 309 310 311 312 41 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * PREDICT [%d]",i); 42 43 Tcontrol_t btb_val; 44 Tcontrol_t dir_val; 45 Tcontrol_t ras_val; 46 Tcontrol_t upt_val; 47 48 Tcontext_t context = (reg_PREDICT_PRIORITY+i)%_param->_nb_context; 49 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * context : %d",context); 50 51 ack [context] = 1; 52 53 if (PORT_READ(in_PREDICT_VAL[context]) == 0) 54 { 55 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * not valid ..."); 56 57 btb_val = false; 58 dir_val = false; 59 ras_val = false; 60 upt_val = false; 61 } 62 else 63 { 64 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * valid ..."); 65 66 Taddress_t pc_previous = PORT_READ(in_PREDICT_PC_PREVIOUS [context]); 67 Taddress_t pc_current = PORT_READ(in_PREDICT_PC_CURRENT [context]); 68 Tcontrol_t pc_current_is_ds_take = PORT_READ(in_PREDICT_PC_CURRENT_IS_DS_TAKE [context]); 69 70 Taddress_t pc_next ; 71 Tcontrol_t pc_next_is_ds_take ; 72 Tbranch_state_t branch_state ; 73 // Tprediction_ptr_t branch_update_prediction_id ; 74 Tinst_ifetch_ptr_t inst_ifetch_ptr ; 75 76 // STEP (1) - Compute the address source 77 Taddress_t address = (pc_current_is_ds_take)?pc_previous:pc_current; 78 Taddress_t address_lsb = pc_current%_param->_nb_instruction [context]; //if pc_current_is_ds_take, then pc_current%_param->_nb_instruction [context] == 0 79 Taddress_t address_msb; 80 81 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * address : 0x%x",address); 82 83 // STEP (2) - Test if branch (access at branch_target_buffer) 84 btb_val = true; 85 ack [context] &= PORT_READ(in_PREDICT_BTB_ACK [i]); 86 87 if (_param->_have_port_context_id) 88 PORT_WRITE(out_PREDICT_BTB_CONTEXT_ID [i],context); 89 PORT_WRITE(out_PREDICT_BTB_ADDRESS [i],address); 90 91 // special case : 92 // if pc_current_is_ds, then pc_previous have branch, also hit must be set. 93 // else : a another branch have eject this branch : can't accurate 94 Tcontrol_t hit = PORT_READ(in_PREDICT_BTB_HIT[i]); 95 Tcontrol_t is_accurate = PORT_READ(in_PREDICT_BTB_IS_ACCURATE [i]) and not (pc_current_is_ds_take and not hit); 96 97 // STEP (3) : Test if have branch in the packet 98 if (hit == 1) 99 { 100 // STEP (3a) : branch - test condition 101 102 bool use_dir = false; 103 bool use_ras = false; 104 bool use_upt = false; 105 106 Tbranch_condition_t cond = PORT_READ(in_PREDICT_BTB_CONDITION [i]); 107 Taddress_t address_src = PORT_READ(in_PREDICT_BTB_ADDRESS_SRC [i]); 108 Taddress_t address_dest = PORT_READ(in_PREDICT_BTB_ADDRESS_DEST [i]); 109 Tcontrol_t push; 110 Tcontrol_t direction; 111 112 switch (cond) 113 { 114 case BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK : // l.j 115 { 116 // use none unit (dir, upt and ras) 117 direction = true; 118 pc_next = address_dest; 119 branch_state = BRANCH_STATE_NSPEC_TAKE; 120 break; 121 } 122 case BRANCH_CONDITION_NONE_WITH_WRITE_STACK : // l.jal 123 { 124 use_upt = true; 125 use_ras = true; 126 push = true; 127 direction = true; 128 pc_next = address_dest; 129 branch_state = BRANCH_STATE_NSPEC_TAKE; 130 break; 131 } 132 case BRANCH_CONDITION_FLAG_UNSET : // l.bnf 133 case BRANCH_CONDITION_FLAG_SET : // l.bf 134 { 135 use_upt = true; 136 use_dir = true; 137 // Test direction 138 direction = PORT_READ(in_PREDICT_DIR_DIRECTION [i]); // Direction is not the "flag predict" ... also flag_unset and flag_set is the same 139 if (direction = 1) 140 { 141 branch_state = BRANCH_STATE_SPEC_TAKE; 142 pc_next = address_dest; 143 } 144 else 145 { 146 branch_state = BRANCH_STATE_SPEC_NTAKE; 147 pc_next = address_src+2; // +1 = delay slot 148 } 149 break; 150 } 151 case BRANCH_CONDITION_READ_REGISTER_WITHOUT_WRITE_STACK : // l.jr (rb!=9) 152 { 153 use_upt = true; 154 use_ras = true; 155 push = true; 156 direction = true; 157 pc_next = address_dest; 158 branch_state = BRANCH_STATE_SPEC_TAKE; 159 break; 160 } 161 case BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK : // l.jalr 162 { 163 use_upt = true; 164 use_ras = true; 165 push = true; 166 direction = true; 167 pc_next = address_dest; 168 branch_state = BRANCH_STATE_NSPEC_TAKE; 169 break; 170 } 171 case BRANCH_CONDITION_READ_STACK : // l.jr (rb==9) 172 { 173 use_upt = true; 174 use_ras = true; 175 push = false; 176 direction = true; 177 pc_next = PORT_READ(in_PREDICT_RAS_ADDRESS_POP [i]); 178 branch_state = BRANCH_STATE_SPEC_TAKE; 179 break; 180 } 181 default : 182 { 183 ERRORMORPHEO(FUNCTION,"Unknow Condition"); 184 break; 185 } 186 } 187 188 if (use_dir) 189 { 190 ack[context] &= PORT_READ(in_PREDICT_DIR_ACK [i]); 191 PORT_WRITE(out_PREDICT_DIR_ADDRESS_SRC [i], address_src); 192 PORT_WRITE(out_PREDICT_DIR_STATIC [i], address_dest<address_src); // if destination is previous : the static direction is take 193 // PORT_WRITE(out_PREDICT_DIR_LAST_TAKE [i], PORT_READ(in_PREDICT_BTB_LAST_TAKE [i])); 194 } 195 196 if (use_ras) 197 { 198 ack[context] &= PORT_READ(in_PREDICT_RAS_ACK [i]); 199 if (_param->_have_port_context_id) 200 PORT_WRITE(out_PREDICT_RAS_CONTEXT_ID [i], context); 201 PORT_WRITE(out_PREDICT_RAS_PUSH [i], push); 202 PORT_WRITE(out_PREDICT_RAS_ADDRESS_PUSH [i], address_src+2); 203 204 is_accurate &= PORT_READ(in_PREDICT_RAS_HIT [i]); // if miss - prediction is not accurate 205 } 206 207 if (use_upt) 208 { 209 ack[context] &= PORT_READ(in_PREDICT_UPT_ACK [i]); 210 211 PORT_WRITE(out_PREDICT_UPT_CONTEXT_ID [i],context); 212 PORT_WRITE(out_PREDICT_UPT_BTB_ADDRESS_SRC [i],address_src); 213 PORT_WRITE(out_PREDICT_UPT_BTB_ADDRESS_DEST [i],address_dest); 214 PORT_WRITE(out_PREDICT_UPT_BTB_CONDITION [i],cond); 215 PORT_WRITE(out_PREDICT_UPT_BTB_LAST_TAKE [i],direction); 216 PORT_WRITE(out_PREDICT_UPT_BTB_IS_ACCURATE [i],is_accurate); 217 // PORT_WRITE(out_PREDICT_UPT_DIR_HISTORY [i],PORT_READ(in_PREDICT_DIR_HISTORY [i])); 218 PORT_WRITE(out_PREDICT_UPT_RAS_ADDRESS [i],PORT_READ(in_PREDICT_RAS_ADDRESS_POP [i])); 219 // PORT_WRITE(out_PREDICT_UPT_RAS_INDEX [i],PORT_READ(in_PREDICT_RAS_INDEX [i])); 220 } 221 222 // ack = 1 if : 223 // * btb_ack 224 // * use_dir and dir_ack 225 // * use_ras and ras_ack 226 // * use_upt and upt_ack 227 // ack [context] = (PORT_READ(in_PREDICT_BTB_ACK [i]) and 228 // (use_dir and PORT_READ(in_PREDICT_DIR_ACK [i])) and 229 // (use_ras and PORT_READ(in_PREDICT_RAS_ACK [i])) and 230 // (use_upt and PORT_READ(in_PREDICT_UPT_ACK [i]))); 231 232 dir_val = (use_dir and 233 PORT_READ(in_PREDICT_BTB_ACK [i]) and 234 (not use_ras or (use_ras and PORT_READ(in_PREDICT_RAS_ACK [i]))) and 235 (not use_upt or (use_upt and PORT_READ(in_PREDICT_UPT_ACK [i])))); 236 237 ras_val = (use_ras and 238 PORT_READ(in_PREDICT_BTB_ACK [i]) and 239 (not use_dir or (use_dir and PORT_READ(in_PREDICT_DIR_ACK [i]))) and 240 (not use_upt or (use_upt and PORT_READ(in_PREDICT_UPT_ACK [i])))); 241 242 upt_val = (use_upt and 243 PORT_READ(in_PREDICT_BTB_ACK [i]) and 244 (not use_dir or (use_dir and PORT_READ(in_PREDICT_DIR_ACK [i]))) and 245 (not use_ras or (use_ras and PORT_READ(in_PREDICT_RAS_ACK [i])))); 246 247 // pc_next - is previously computed 248 // branch_state - is previously computed 249 250 Taddress_t address_src_lsb = address_src%_param->_nb_instruction [context]; 251 252 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * address_src : 0x%x",address_src); 253 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * address_src_lsb : %d",address_src_lsb); 254 if (address_src_lsb == (_param->_nb_instruction [context]-1)) 255 { 256 // branch is in the last slot of the packet 257 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * branch is in the last slot of the packet"); 258 259 address_msb = _param->_nb_instruction [context]; // == (address_src_lsb+1) 260 pc_next_is_ds_take = 1; 261 } 262 else 263 { 264 // branch is in the last slot of the packet 265 address_msb = (address_src_lsb+2); // +1 == delayed slot 266 pc_next_is_ds_take = 0; 267 } 268 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * address_msb : %d",address_msb); 269 270 inst_ifetch_ptr = address_src_lsb; 271 // branch_update_prediction_id = (_param->_have_port_depth)?((PORT_READ(in_DEPTH_UPT_TAIL[context])+PORT_READ(in_DEPTH_UPT_NB_BRANCH [context]))%_param->_array_size_depth[context]):0; 272 } 273 else 274 { 275 // STEP (3b) : Sequential order : compute next paquet 276 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * BTB miss : sequential order"); 277 278 pc_next = address-address_lsb+_param->_nb_instruction [context]; // sequencial 279 pc_next_is_ds_take = 0; // no branch, also no delay slot 280 inst_ifetch_ptr = 0; 281 branch_state = BRANCH_STATE_NONE; 282 // branch_update_prediction_id = 0; 283 284 address_msb = _param->_nb_instruction [context]; 285 } 286 287 PORT_WRITE(out_PREDICT_PC_NEXT [context] , pc_next ); 288 PORT_WRITE(out_PREDICT_PC_NEXT_IS_DS_TAKE [context] , pc_next_is_ds_take ); 289 290 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * instruction enable :"); 291 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * nb_inst : %d",_param->_nb_instruction [context]); 292 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * [0:%d[ = 0",address_lsb); 293 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * [%d:%d[ = 1",address_lsb,((pc_current_is_ds_take)?1:address_msb)); 294 log_printf(TRACE,Prediction_unit_Glue,FUNCTION," * [%d:%d[ = 0",((pc_current_is_ds_take)?1:address_msb),_param->_nb_instruction [context]); 295 296 for (uint32_t j=0; j<address_lsb; j++) 297 PORT_WRITE(out_PREDICT_INSTRUCTION_ENABLE [context][j], 0); // Before the address : not valid 298 for (uint32_t j=address_lsb; j<((pc_current_is_ds_take)?1:address_msb); j++) 299 PORT_WRITE(out_PREDICT_INSTRUCTION_ENABLE [context][j], 1); // Vald packet 300 for (uint32_t j=((pc_current_is_ds_take)?1:address_msb); j<_param->_nb_instruction [context]; j++) 301 PORT_WRITE(out_PREDICT_INSTRUCTION_ENABLE [context][j], 0); // After last address (branch) : not valid 302 if (_param->_have_port_inst_ifetch_ptr) 303 PORT_WRITE(out_PREDICT_INST_IFETCH_PTR [context] , inst_ifetch_ptr ); 304 PORT_WRITE(out_PREDICT_BRANCH_STATE [context] , branch_state ); 305 if (_param->_have_port_depth) 306 PORT_WRITE(out_PREDICT_BRANCH_UPDATE_PREDICTION_ID [context] , PORT_READ(in_PREDICT_UPT_BRANCH_UPDATE_PREDICTION_ID [i])); 307 } 308 309 // Write output 310 PORT_WRITE(out_PREDICT_BTB_VAL [i], btb_val); 311 PORT_WRITE(out_PREDICT_DIR_VAL [i], dir_val); 312 PORT_WRITE(out_PREDICT_RAS_VAL [i], ras_val); 313 PORT_WRITE(out_PREDICT_UPT_VAL [i], upt_val); 313 314 } 314 315 … … 316 317 PORT_WRITE(out_PREDICT_ACK[i],ack[i]); 317 318 318 log_ printf(FUNC,Prediction_unit_Glue,FUNCTION,"End");319 log_end(Prediction_unit_Glue,FUNCTION); 319 320 }; 320 321 -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Prediction_unit_Glue_genMealy_update.cpp
r82 r88 22 22 void Prediction_unit_Glue::genMealy_update (void) 23 23 { 24 log_ printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin");24 log_begin(Prediction_unit_Glue,FUNCTION); 25 25 26 26 // for (uint32_t i=0; i<_param->_nb_inst_branch_update; i++) … … 52 52 // } 53 53 54 log_ printf(FUNC,Prediction_unit_Glue,FUNCTION,"End");54 log_end(Prediction_unit_Glue,FUNCTION); 55 55 }; 56 56 -
trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Prediction_unit_Glue/src/Prediction_unit_Glue_transition.cpp
r82 r88 22 22 void Prediction_unit_Glue::transition (void) 23 23 { 24 log_ printf(FUNC,Prediction_unit_Glue,FUNCTION,"Begin");24 log_begin(Prediction_unit_Glue,FUNCTION); 25 25 26 26 if (PORT_READ(in_NRESET) == 0) … … 39 39 #endif 40 40 41 log_ printf(FUNC,Prediction_unit_Glue,FUNCTION,"End");41 log_end(Prediction_unit_Glue,FUNCTION); 42 42 }; 43 43
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