/* * Copyright © <2013>, Intel Corporation. * * This program is licensed under the terms and conditions of the * Eclipse Public License (EPL), version 1.0. The full text of the EPL is at * http://www.opensource.org/licenses/eclipse-1.0.php. * */ // Modual name: mpeg2_inter_gen8.asm // // Make inter predition estimation for MPEG2 Inter-frame on gen8 // // // Now, begin source code.... // #define SAVE_RET add (1) RETURN_REG<1>:ud ip:ud 32:ud #define RETURN mov (1) ip:ud RETURN_REG<0,1,0>:ud /* * __START */ __INTER_START: mov (16) tmp_reg0.0<1>:UD 0x0:UD {align1}; mov (16) tmp_reg2.0<1>:UD 0x0:UD {align1}; mov (16) tmp_reg4.0<1>:UD 0x0:UD {align1} ; mov (16) tmp_reg6.0<1>:UD 0x0:UD {align1} ; shl (2) vme_m0.8<1>:UW orig_xy_ub<2,2,1>:UB 4:UW {align1}; /* (x, y) * 16 */ mov (1) vme_m0.20<1>:UB thread_id_ub {align1}; /* dispatch id */ mul (1) obw_m0.8<1>:UD w_in_mb_uw<0,1,0>:UW orig_y_ub<0,1,0>:UB {align1}; add (1) obw_m0.8<1>:UD obw_m0.8<0,1,0>:UD orig_x_ub<0,1,0>:UB {align1}; mul (1) obw_m0.8<1>:UD obw_m0.8<0,1,0>:UD 24:UD {align1}; mov (1) obw_m0.20<1>:UB thread_id_ub {align1}; /* dispatch id */ shl (2) pic_ref.0<1>:uw r4.24<2,2,1>:uw 4:uw {align1}; mov (2) pic_ref.16<1>:uw r4.20<2,2,1>:uw {align1}; mov (8) mb_mvp_ref.0<1>:ud 0:ud {align1}; mov (8) mb_ref_win.0<1>:ud 0:ud {align1}; mov (8) mba_result.0<1>:ud 0x0:ud {align1}; mov (8) mbb_result.0<1>:ud 0x0:ud {align1}; mov (8) mbc_result.0<1>:ud 0x0:ud {align1}; and.z.f0.0 (1) null:uw mb_hwdep<0,1,0>:uw 0x04:uw {align1}; (f0.0) jmpi (1) __mb_hwdep_end; /* read back the data for MB A */ /* the layout of MB result is: rx.0(Available). rx.4(MVa), rX.8(MVb), rX.16(Pred_L0 flag), * rX.18 (Pred_L1 flag), rX.20(Forward reference ID), rX.22(Backwared reference ID) */ mba_start: mov (8) mb_msg0.0<1>:ud 0:ud {align1}; and.z.f0.0 (1) null:uw input_mb_intra_ub<0,1,0>:ub INTRA_PRED_AVAIL_FLAG_AE:uw {align1}; /* MB A doesn't exist. Zero MV. mba_flag is zero and ref ID = -1 */ (f0.0) mov (2) mba_result.20<1>:w -1:w {align1}; (f0.0) jmpi (1) mbb_start; mov (1) mba_result.0<1>:d MB_AVAIL {align1}; mov (2) tmp_reg0.0<1>:UW orig_xy_ub<2,2,1>:UB {align1}; add (1) tmp_reg0.0<1>:w tmp_reg0.0<0,1,0>:w -1:w {align1}; mul (1) mb_msg0.8<1>:UD w_in_mb_uw<0,1,0>:UW tmp_reg0.2<0,1,0>:UW {align1}; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD tmp_reg0.0<0,1,0>:uw {align1}; mul (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD 24:UD {align1}; mov (1) mb_msg0.20<1>:UB thread_id_ub {align1}; /* dispatch id */ /* bind index 3, read 4 oword (64bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_wb.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_4, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 2 {align1}; /* TODO: RefID is required after multi-references are added */ cmp.l.f0.0 (1) null:w mb_intra_wb.16<0,1,0>:uw mb_inter_wb.8<0,1,0>:uw {align1}; (f0.0) mov (2) mba_result.20<1>:w -1:w {align1}; (f0.0) jmpi (1) mbb_start; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:ud 3:ud {align1}; /* Read MV for MB A */ /* bind index 3, read 2 oword (32 bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_mv0.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_2, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 1 {align1}; /* TODO: RefID is required after multi-references are added */ /* MV */ mov (2) mba_result.4<1>:ud mb_mv0.0<2,2,1>:ud {align1}; mov (1) mba_result.16<1>:w MB_PRED_FLAG {align1}; mbb_start: mov (8) mb_msg0.0<1>:ud 0:ud {align1}; and.z.f0.0 (1) null:uw input_mb_intra_ub<0,1,0>:ub INTRA_PRED_AVAIL_FLAG_B:uw {align1}; /* MB B doesn't exist. Zero MV. mba_flag is zero */ /* If MB B doesn't exist, neither MB C nor D exists */ (f0.0) mov (2) mbb_result.20<1>:w -1:w {align1}; (f0.0) mov (2) mbc_result.20<1>:w -1:w {align1}; (f0.0) jmpi (1) mb_mvp_start; mov (1) mbb_result.0<1>:d MB_AVAIL {align1}; mov (2) tmp_reg0.0<1>:UW orig_xy_ub<2,2,1>:UB {align1}; add (1) tmp_reg0.2<1>:w tmp_reg0.2<0,1,0>:w -1:w {align1}; mul (1) mb_msg0.8<1>:UD w_in_mb_uw<0,1,0>:UW tmp_reg0.2<0,1,0>:UW {align1}; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD tmp_reg0.0<0,1,0>:uw {align1}; mul (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD 24:UD {align1}; mov (1) mb_msg0.20<1>:UB thread_id_ub {align1}; /* dispatch id */ /* bind index 3, read 4 oword (64bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_wb.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_4, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 2 {align1}; /* TODO: RefID is required after multi-references are added */ cmp.l.f0.0 (1) null:w mb_intra_wb.16<0,1,0>:uw mb_inter_wb.8<0,1,0>:uw {align1}; (f0.0) mov (2) mbb_result.20<1>:w -1:w {align1}; (f0.0) jmpi (1) mbc_start; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:ud 3:ud {align1}; /* Read MV for MB B */ /* bind index 3, read 2 oword (32bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_mv0.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_2, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 1 {align1}; /* TODO: RefID is required after multi-references are added */ mov (2) mbb_result.4<1>:ud mb_mv0.0<2,2,1>:ud {align1}; mov (1) mbb_result.16<1>:w MB_PRED_FLAG {align1}; mbc_start: mov (8) mb_msg0.0<1>:ud 0:ud {align1}; and.z.f0.0 (1) null:uw input_mb_intra_ub<0,1,0>:ub INTRA_PRED_AVAIL_FLAG_C:uw {align1}; /* MB C doesn't exist. Zero MV. mba_flag is zero */ /* Based on h264 spec the MB D will be replaced if MB C doesn't exist */ (f0.0) jmpi (1) mbd_start; mov (1) mbc_result.0<1>:d MB_AVAIL {align1}; mov (2) tmp_reg0.0<1>:UW orig_xy_ub<2,2,1>:UB {align1}; add (1) tmp_reg0.2<1>:w tmp_reg0.2<0,1,0>:w -1:w {align1}; add (1) tmp_reg0.0<1>:w tmp_reg0.0<0,1,0>:w 1:w {align1}; mul (1) mb_msg0.8<1>:UD w_in_mb_uw<0,1,0>:UW tmp_reg0.2<0,1,0>:UW {align1}; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD tmp_reg0.0<0,1,0>:uw {align1}; mul (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD 24:UD {align1}; mov (1) mb_msg0.20<1>:UB thread_id_ub {align1}; /* dispatch id */ /* bind index 3, read 4 oword (64bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_wb.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_4, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 2 {align1}; /* TODO: RefID is required after multi-references are added */ cmp.l.f0.0 (1) null:w mb_intra_wb.16<0,1,0>:uw mb_inter_wb.8<0,1,0>:uw {align1}; (f0.0) mov (2) mbc_result.20<1>:w -1:w {align1}; (f0.0) jmpi (1) mb_mvp_start; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:ud 3:ud {align1}; /* Read MV for MB C */ /* bind index 3, read 2 oword (32bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_mv0.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_2, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 1 {align1}; /* TODO: RefID is required after multi-references are added */ /* Forward MV */ mov (2) mbc_result.4<1>:ud mb_mv0.0<2,2,1>:ud {align1}; mov (1) mbc_result.16<1>:w MB_PRED_FLAG {align1}; jmpi (1) mb_mvp_start; mbd_start: mov (8) mb_msg0.0<1>:ud 0:ud {align1}; and.z.f0.0 (1) null:uw input_mb_intra_ub<0,1,0>:ub INTRA_PRED_AVAIL_FLAG_D:uw {align1}; (f0.0) mov (2) mbc_result.20<1>:w -1:w {align1}; (f0.0) jmpi (1) mb_mvp_start; mov (1) mbc_result.0<1>:d MB_AVAIL {align1}; mov (2) tmp_reg0.0<1>:UW orig_xy_ub<2,2,1>:UB {align1}; add (2) tmp_reg0.0<1>:w tmp_reg0.0<2,2,1>:w -1:w {align1}; mul (1) mb_msg0.8<1>:UD w_in_mb_uw<0,1,0>:UW tmp_reg0.2<0,1,0>:UW {align1}; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD tmp_reg0.0<0,1,0>:uw {align1}; mul (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:UD 24:UD {align1}; mov (1) mb_msg0.20<1>:UB thread_id_ub {align1}; /* dispatch id */ /* bind index 3, read 4 oword (64bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_wb.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_4, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 2 {align1}; cmp.l.f0.0 (1) null:w mb_intra_wb.16<0,1,0>:uw mb_inter_wb.8<0,1,0>:uw {align1}; (f0.0) mov (2) mbc_result.20<1>:w -1:w {align1}; (f0.0) jmpi (1) mb_mvp_start; add (1) mb_msg0.8<1>:UD mb_msg0.8<0,1,0>:ud 3:ud {align1}; /* Read MV for MB D */ /* bind index 3, read 2 oword (32bytes), msg type: 0(OWord Block Read) */ send (16) mb_ind mb_mv0.0<1>:ub NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_TYPE, OBR_CONTROL_2, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 1 {align1}; /* TODO: RefID is required after multi-references are added */ /* Forward MV */ mov (2) mbc_result.4<1>:ud mb_mv0.0<2,2,1>:ud {align1}; mov (1) mbc_result.16<1>:w MB_PRED_FLAG {align1}; mb_mvp_start: /*TODO: Add the skip prediction */ /* Check whether both MB B and C are inavailable */ add (1) tmp_reg0.0<1>:d mbb_result.0<0,1,0>:d mbc_result.0<0,1,0>:d {align1}; cmp.z.f0.0 (1) null:d tmp_reg0.0<0,1,0>:d 0:d {align1}; (-f0.0) jmpi (1) mb_median_start; cmp.nz.f0.0 (1) null:d mba_result.0<0,1,0>:d 0:d {align1}; (f0.0) mov (1) mbb_result.4<1>:ud mba_result.4<0,1,0>:ud {align1}; (f0.0) mov (1) mbc_result.4<1>:ud mba_result.4<0,1,0>:ud {align1}; (f0.0) mov (1) mbb_result.20<1>:uw mba_result.20<0,1,0>:uw {align1}; (f0.0) mov (1) mbc_result.20<1>:uw mba_result.20<0,1,0>:uw {align1}; (f0.0) mov (1) mb_mvp_ref.0<1>:ud mba_result.4<0,1,0>:ud {align1}; (-f0.0) mov (1) mb_mvp_ref.0<1>:ud 0:ud {align1}; jmpi (1) __mb_hwdep_end; mb_median_start: /* check whether only one neighbour MB has the same ref ID with the current MB */ mov (8) tmp_reg0.0<1>:ud 0:ud {align1}; cmp.z.f0.0 (1) null:d mba_result.20<0,1,0>:w 0:w {align1}; (f0.0) add (1) tmp_reg0.0<1>:w tmp_reg0.0<0,1,0>:w 1:w {align1}; (f0.0) mov (1) tmp_reg0.4<1>:ud mba_result.4<0,1,0>:ud {align1}; cmp.z.f0.0 (1) null:d mbb_result.20<0,1,0>:w 0:w {align1}; (f0.0) add (1) tmp_reg0.0<1>:w tmp_reg0.0<0,1,0>:w 1:w {align1}; (f0.0) mov (1) tmp_reg0.4<1>:ud mbb_result.4<0,1,0>:ud {align1}; cmp.z.f0.0 (1) null:d mbc_result.20<0,1,0>:w 0:w {align1}; (f0.0) add (1) tmp_reg0.0<1>:w tmp_reg0.0<0,1,0>:w 1:w {align1}; (f0.0) mov (1) tmp_reg0.4<1>:ud mbc_result.4<0,1,0>:ud {align1}; cmp.e.f0.0 (1) null:d tmp_reg0.0<0,1,0>:w 1:w {align1}; (f0.0) mov (1) mb_mvp_ref.0<1>:ud tmp_reg0.4<0,1,0>:ud {align1}; (f0.0) jmpi (1) __mb_hwdep_end; mov (1) INPUT_ARG0.0<1>:w mba_result.4<0,1,0>:w {align1}; mov (1) INPUT_ARG0.4<1>:w mbb_result.4<0,1,0>:w {align1}; mov (1) INPUT_ARG0.8<1>:w mbc_result.4<0,1,0>:w {align1}; SAVE_RET {align1}; jmpi (1) word_imedian; mov (1) mb_mvp_ref.0<1>:w RET_ARG<0,1,0>:w {align1}; mov (1) INPUT_ARG0.0<1>:w mba_result.6<0,1,0>:w {align1}; mov (1) INPUT_ARG0.4<1>:w mbb_result.6<0,1,0>:w {align1}; mov (1) INPUT_ARG0.8<1>:w mbc_result.6<0,1,0>:w {align1}; SAVE_RET {align1}; jmpi (1) word_imedian; mov (1) mb_mvp_ref.2<1>:w RET_ARG<0,1,0>:w {align1}; __mb_hwdep_end: mov (2) mv_cc_ref.0<1>:w mba_result.4<2,2,1>:w {align1}; /* Calibrate the ref window for MPEG2 */ mov (1) vme_m0.0<1>:W -16:W {align1}; mov (1) vme_m0.2<1>:W -12:W {align1}; mov (1) INPUT_ARG0.0<1>:ud vme_m0.0<0,1,0>:ud {align1}; mov (1) INPUT_ARG0.8<1>:ud vme_m0.8<0,1,0>:ud {align1}; mov (8) INPUT_ARG1.0<1>:ud pic_ref.0<8,8,1>:ud {align1}; SAVE_RET {align1}; jmpi (1) ref_boundary_check; mov (2) vme_m0.0<1>:w RET_ARG<2,2,1>:w {align1}; /* m2, get the MV/Mb cost passed from constant buffer when spawning thread by MEDIA_OBJECT */ mov (8) vme_m2<1>:UD r1.0<8,8,1>:UD {align1}; mov (8) vme_msg_2<1>:UD vme_m2.0<8,8,1>:UD {align1}; /* m3 FWD/BWD cost center*/ mov (8) vme_msg_3<1>:UD 0x0:UD {align1}; /* m4 skip center*/ mov (8) vme_msg_4<1>:UD 0x0:UD {align1}; /* m5 */ mov (8) vme_msg_5<1>:UD 0x0:UD {align1}; /* Use the Luma mode */ mov (1) tmp_reg0.0<1>:UW LUMA_INTRA_MODE:UW {align1}; mov (1) vme_msg_5.5<1>:UB tmp_reg0.0<0,1,0>:UB {align1}; mov (1) tmp_reg0.0<1>:UW INTRA16_DC_PRED:UW {align1}; mov (1) vme_msg_5.4<1>:ub tmp_reg0.0<0,1,0>:UB {align1}; /* m6 */ mov (8) vme_msg_6<1>:UD 0x0:UD {align1}; mov (1) vme_msg_6.16<1>:UD INTRA_PREDICTORE_MODE {align1}; /* the penalty for Intra mode */ mov (1) vme_msg_6.28<1>:UD 0x010101:UD {align1}; /* m7 */ mov (8) vme_msg_7.0<1>:ud 0x0:ud {align1}; /* * SIC VME message */ /* Disable Intra8x8/Intra4x4 Intra-prediction */ /* m1 */ mov (8) vme_m1.0<1>:ud 0x0:UD {align1}; mov (1) intra_flag<1>:UW 0x0:UW {align1} ; mov (1) tmp_reg0.0<1>:uw LUMA_INTRA_8x8_DISABLE:uw {align1}; add (1) tmp_reg0.0<1>:uw tmp_reg0.0<0,1,0>:uw LUMA_INTRA_4x4_DISABLE:uw {align1}; mov (1) intra_part_mask_ub<1>:UB tmp_reg0.0<0,1,0>:ub {align1}; /* assign MB intra struct from the thread payload*/ mov (1) mb_intra_struct_ub<1>:UB input_mb_intra_ub<0,1,0>:UB {align1}; /* Enable DC HAAR component when calculating HARR SATD block */ mov (1) tmp_reg0.0<1>:UW DC_HARR_ENABLE:UW {align1}; mov (1) vme_m1.30<1>:UB tmp_reg0.0<0,1,0>:UB {align1}; mov (8) vme_msg_1<1>:UD vme_m1.0<8,8,1>:UD {align1}; /* m0 */ mov (1) vme_m0.12<1>:UD INTRA_SAD_HAAR:UD {align1}; /* 16x16 Source, Intra_harr */ mov (8) vme_msg_0.0<1>:UD vme_m0.0<8,8,1>:UD {align1}; /* after verification it will be passed by using payload */ send (8) vme_msg_ind vme_wb<1>:UD null cre( BIND_IDX_VME, VME_SIC_MESSAGE_TYPE ) mlen sic_vme_msg_length rlen vme_wb_length {align1}; /* * Oword Block Write message */ mov (8) msg_reg0.0<1>:UD obw_m0<8,8,1>:UD {align1}; mov (1) msg_reg1.0<1>:UD vme_wb.0<0,1,0>:UD {align1}; mov (1) msg_reg1.4<1>:UD vme_wb.16<0,1,0>:UD {align1}; mov (1) msg_reg1.8<1>:UD vme_wb.20<0,1,0>:UD {align1}; mov (1) msg_reg1.12<1>:UD vme_wb.24<0,1,0>:UD {align1}; /* Distortion, Intra (17-16), */ mov (1) msg_reg1.16<1>:UW vme_wb.12<0,1,0>:UW {align1}; mov (1) msg_reg1.20<1>:UD vme_wb.8<0,1,0>:UD {align1}; /* VME clock counts */ mov (1) msg_reg1.24<1>:UD vme_wb.28<0,1,0>:UD {align1}; mov (1) msg_reg1.28<1>:UD obw_m0.8<0,1,0>:UD {align1}; /* bind index 3, write 2 oword (32bytes), msg type: 8(OWord Block Write) */ send (16) msg_ind obw_wb null data_port( OBW_CACHE_TYPE, OBW_MESSAGE_TYPE, OBW_CONTROL_2, OBW_BIND_IDX, OBW_WRITE_COMMIT_CATEGORY, OBW_HEADER_PRESENT ) mlen 2 rlen obw_wb_length {align1}; /* IME search */ mov (1) vme_m0.12<1>:UD SEARCH_CTRL_SINGLE + INTER_PART_MASK + INTER_SAD_HAAR:UD {align1}; /* 16x16 Source, harr */ mov (1) vme_m0.22<1>:UW REF_REGION_SIZE {align1}; /* Reference Width&Height, 48x40 */ mov (1) vme_m0.4<1>:UD vme_m0.0<0,1,0>:UD {align1}; mov (8) vme_msg_0.0<1>:UD vme_m0.0<8,8,1>:UD {align1}; mov (1) vme_m1.0<1>:UD ADAPTIVE_SEARCH_ENABLE:ud {align1} ; /* the Max MV number is passed by constant buffer */ mov (1) vme_m1.4<1>:UB r4.28<0,1,0>:UB {align1}; mov (1) vme_m1.8<1>:UD START_CENTER + SEARCH_PATH_LEN:UD {align1}; mov (8) vme_msg_1.0<1>:UD vme_m1.0<8,8,1>:UD {align1}; /* Setup the Cost center */ /* currently four 8x8 share the same cost center */ mov (4) vme_m3.0<2>:ud mv_cc_ref.0<0,1,0>:ud {align1}; mov (4) vme_m3.4<2>:ud mv_cc_ref.0<0,1,0>:ud {align1}; mov (8) vme_msg_3<1>:UD vme_m3.0<8,8,1>:UD {align1}; mov (8) vme_msg_2<1>:UD vme_m2.0<8,8,1>:UD {align1}; /* M4/M5 search path */ mov (1) vme_msg_4.0<1>:UD 0x01010101:UD {align1}; mov (1) vme_msg_4.4<1>:UD 0x10010101:UD {align1}; mov (1) vme_msg_4.8<1>:UD 0x0F0F0F0F:UD {align1}; mov (1) vme_msg_4.12<1>:UD 0x100F0F0F:UD {align1}; mov (1) vme_msg_4.16<1>:UD 0x01010101:UD {align1}; mov (1) vme_msg_4.20<1>:UD 0x10010101:UD {align1}; mov (1) vme_msg_4.24<1>:UD 0x0F0F0F0F:UD {align1}; mov (1) vme_msg_4.28<1>:UD 0x100F0F0F:UD {align1}; mov (1) vme_msg_5.0<1>:UD 0x01010101:UD {align1}; mov (1) vme_msg_5.4<1>:UD 0x10010101:UD {align1}; mov (1) vme_msg_5.8<1>:UD 0x0F0F0F0F:UD {align1}; mov (1) vme_msg_5.12<1>:UD 0x000F0F0F:UD {align1}; mov (4) vme_msg_5.16<1>:UD 0x0:UD {align1}; send (8) vme_msg_ind vme_wb<1>:UD null vme( BIND_IDX_VME, 0, 0, VME_IME_MESSAGE_TYPE ) mlen ime_vme_msg_length rlen vme_wb_length {align1}; /* Set Macroblock-shape/mode for FBR */ mov (1) vme_m2.20<1>:UD 0x0:UD {align1}; mov (1) vme_m2.21<1>:UB vme_wb.25<0,1,0>:UB {align1}; mov (1) vme_m2.22<1>:UB vme_wb.26<0,1,0>:UB {align1}; and (1) tmp_reg0.0<1>:UW vme_wb.0<0,1,0>:UW 0x03:UW {align1}; mov (1) vme_m2.20<1>:UB tmp_reg0.0<0,1,0>:UB {align1}; /* Send FBR message into CRE */ mov (8) vme_msg_4.0<1>:UD vme_wb1.0<8,8,1>:UD {align1}; mov (8) vme_msg_5.0<1>:ud vme_wb2.0<8,8,1>:ud {align1}; mov (8) vme_msg_6.0<1>:ud vme_wb3.0<8,8,1>:ud {align1}; mov (8) vme_msg_7.0<1>:ud vme_wb4.0<8,8,1>:ud {align1}; mov (1) vme_m0.12<1>:UD INTER_SAD_HAAR + SUB_PEL_MODE_HALF + FBR_BME_DISABLE:UD {align1}; /* 16x16 Source, 1/2 pixel, harr, BME disable */ /* Bilinear filter */ mov (1) tmp_reg0.0<1>:uw 0x04:uw {align1}; add (1) vme_m1.30<1>:ub vme_m1.30<0,1,0>:ub tmp_reg0.0<0,1,0>:ub {align1}; mov (8) vme_msg_0.0<1>:UD vme_m0.0<8,8,1>:UD {align1}; mov (8) vme_msg_1.0<1>:UD vme_m1.0<8,8,1>:UD {align1}; mov (8) vme_msg_2.0<1>:UD vme_m2.0<8,8,1>:UD {align1}; mov (8) vme_msg_3.0<1>:UD vme_m3.0<8,8,1>:UD {align1}; /* after verification it will be passed by using payload */ send (8) vme_msg_ind vme_wb<1>:UD null cre( BIND_IDX_VME, VME_FBR_MESSAGE_TYPE ) mlen fbr_vme_msg_length rlen vme_wb_length {align1}; and.z.f0.0 (1) null:uw mb_hwdep<0,1,0>:uw 0x04:uw {align1}; (-f0.0) jmpi (1) vme_run_again; nop; vme_mv_output: add (1) obw_m0.8<1>:UD obw_m0.8<0,1,0>:UD 0x02:UD {align1}; mov (8) msg_reg0.0<1>:UD obw_m0<8,8,1>:UD {align1}; /* write FME info */ mov (1) msg_reg1.0<1>:UD vme_wb.0<0,1,0>:UD {align1}; mov (1) msg_reg1.4<1>:UD vme_wb.24<0,1,0>:UD {align1}; /* Inter distortion of FME */ mov (1) msg_reg1.8<1>:UD vme_wb.8<0,1,0>:UD {align1}; mov (1) msg_reg1.12<1>:UD vme_m2.20<0,1,0>:UD {align1}; /* bind index 3, write oword (16bytes), msg type: 8(OWord Block Write) */ send (16) msg_ind obw_wb null data_port( OBW_CACHE_TYPE, OBW_MESSAGE_TYPE, OBW_CONTROL_0, OBW_BIND_IDX, OBW_WRITE_COMMIT_CATEGORY, OBW_HEADER_PRESENT ) mlen 2 rlen obw_wb_length {align1}; /* Write FME/BME MV */ add (1) obw_m0.8<1>:UD obw_m0.8<0,1,0>:UD 0x01:UD {align1}; mov (8) msg_reg0.0<1>:UD obw_m0.0<8,8,1>:UD {align1}; mov (8) msg_reg1.0<1>:UD vme_wb1.0<8,8,1>:UD {align1}; mov (8) msg_reg2.0<1>:ud vme_wb2.0<8,8,1>:ud {align1}; mov (8) msg_reg3.0<1>:ud vme_wb3.0<8,8,1>:ud {align1}; mov (8) msg_reg4.0<1>:ud vme_wb4.0<8,8,1>:ud {align1}; /* bind index 3, write 2 oword (32 bytes), msg type: 8(OWord Block Write) */ send (16) msg_ind obw_wb null data_port( OBW_CACHE_TYPE, OBW_MESSAGE_TYPE, OBW_CONTROL_2, OBW_BIND_IDX, OBW_WRITE_COMMIT_CATEGORY, OBW_HEADER_PRESENT ) mlen 2 rlen obw_wb_length {align1}; /* Write FME/BME RefID */ add (1) obw_m0.8<1>:UD obw_m0.8<0,1,0>:UD 0x08:UD {align1}; mov (8) msg_reg0.0<1>:UD obw_m0<8,8,1>:UD {align1}; mov (8) msg_reg1.0<1>:UD vme_wb6.0<8,8,1>:UD {align1}; /* bind index 3, write 2 oword (32bytes), msg type: 8(OWord Block Write) */ send (16) msg_ind obw_wb null data_port( OBW_CACHE_TYPE, OBW_MESSAGE_TYPE, OBW_CONTROL_2, OBW_BIND_IDX, OBW_WRITE_COMMIT_CATEGORY, OBW_HEADER_PRESENT ) mlen 2 rlen obw_wb_length {align1}; /* Issue message fence so that the previous write message is committed */ send (16) mb_ind mb_wb.0<1>:ud NULL data_port( OBR_CACHE_TYPE, OBR_MESSAGE_FENCE, OBR_MF_COMMIT, OBR_BIND_IDX, OBR_WRITE_COMMIT_CATEGORY, OBR_HEADER_PRESENT ) mlen 1 rlen 1 {align1}; __EXIT: /* * kill thread */ mov (8) ts_msg_reg0<1>:UD r0<8,8,1>:UD {align1}; send (16) ts_msg_ind acc0<1>UW null thread_spawner(0, 0, 1) mlen 1 rlen 0 {align1 EOT}; nop ; nop ; word_imedian: cmp.ge.f0.0 (1) null:w INPUT_ARG0.0<0,1,0>:w INPUT_ARG0.4<0,1,0>:w {align1}; (f0.0) jmpi (1) cmp_a_ge_b; cmp.ge.f0.0 (1) null:w INPUT_ARG0.0<0,1,0>:w INPUT_ARG0.8<0,1,0>:w {align1}; (f0.0) mov (1) RET_ARG<1>:w INPUT_ARG0.0<0,1,0>:w {align1}; (f0.0) jmpi (1) cmp_end; cmp.ge.f0.0 (1) null:w INPUT_ARG0.4<0,1,0>:w INPUT_ARG0.8<0,1,0>:w {align1}; (f0.0) mov (1) RET_ARG<1>:w INPUT_ARG0.8<0,1,0>:w {align1}; (-f0.0) mov (1) RET_ARG<1>:w INPUT_ARG0.4<0,1,0>:w {align1}; jmpi (1) cmp_end; cmp_a_ge_b: cmp.ge.f0.0 (1) null:w INPUT_ARG0.4<0,1,0>:w INPUT_ARG0.8<0,1,0>:w {align1}; (f0.0) mov (1) RET_ARG<1>:w INPUT_ARG0.4<0,1,0>:w {align1}; (f0.0) jmpi (1) cmp_end; cmp.ge.f0.0 (1) null:w INPUT_ARG0.0<0,1,0>:w INPUT_ARG0.8<0,1,0>:w {align1}; (f0.0) mov (1) RET_ARG<1>:w INPUT_ARG0.8<0,1,0>:w {align1}; (-f0.0) mov (1) RET_ARG<1>:w INPUT_ARG0.0<0,1,0>:w {align1}; cmp_end: RETURN {align1}; nop; nop; ref_boundary_check: /* The left/up coordinate of reference window */ add (2) TEMP_VAR0.0<1>:w INPUT_ARG0.8<2,2,1>:w INPUT_ARG0.0<2,2,1>:w {align1}; /* The right/bottom coordinate of reference window */ add (1) TEMP_VAR0.16<1>:w TEMP_VAR0.0<0,1,0>:w 48:w {align1}; add (1) TEMP_VAR0.18<1>:w TEMP_VAR0.2<0,1,0>:w 40:w {align1}; /* Firstly the MV range is checked */ mul (2) TEMP_VAR1.16<1>:w INPUT_ARG1.16<2,2,1>:w -1:w {align1}; add (2) TEMP_VAR1.0<1>:w INPUT_ARG0.8<2,2,1>:w TEMP_VAR1.16<2,2,1>:w {align1}; add (2) TEMP_VAR1.4<1>:w INPUT_ARG0.8<2,2,1>:w INPUT_ARG1.16<2,2,1>:w {align1}; cmp.l.f0.0 (1) null:w TEMP_VAR0.0<0,1,0>:w TEMP_VAR1.0<0,1,0>:w {align1}; (f0.0) mov (1) TEMP_VAR0.0<1>:w TEMP_VAR1.0<0,1,0>:w {align1}; cmp.g.f0.0 (1) null:w TEMP_VAR0.16<0,1,0>:w TEMP_VAR1.4<0,1,0>:w {align1}; (f0.0) add (1) TEMP_VAR0.0<1>:w TEMP_VAR1.4<0,1,0>:w -48:w {align1}; cmp.l.f0.0 (1) null:w TEMP_VAR0.2<0,1,0>:w TEMP_VAR1.2<0,1,0>:w {align1}; (f0.0) mov (1) TEMP_VAR0.2<1>:w TEMP_VAR1.2<0,1,0>:w {align1}; cmp.g.f0.0 (1) null:w TEMP_VAR0.18<0,1,0>:w TEMP_VAR1.6<0,1,0>:w {align1}; (f0.0) add (1) TEMP_VAR0.2<1>:w TEMP_VAR1.6<0,1,0>:w -40:w {align1}; x_left_cmp: cmp.l.f0.0 (1) null:w TEMP_VAR0.0<0,1,0>:w 0:w {align1}; (-f0.0) jmpi (1) x_right_cmp; (f0.0) mov (1) TEMP_VAR0.0<1>:w 0:w {align1}; jmpi (1) y_top_cmp; x_right_cmp: cmp.g.f0.0 (1) null:w TEMP_VAR0.16<0,1,0>:w INPUT_ARG1.0<0,1,0>:w {align1}; (-f0.0) jmpi (1) y_top_cmp; (f0.0) add (1) TEMP_VAR0.0<1>:w INPUT_ARG1.0<0,1,0>:w -48:w {align1}; y_top_cmp: cmp.l.f0.0 (1) null:w TEMP_VAR0.2<0,1,0>:w 0:w {align1}; (-f0.0) jmpi (1) y_bottom_cmp; (f0.0) mov (1) TEMP_VAR0.2<1>:w 0:w {align1}; jmpi (1) y_bottom_end; y_bottom_cmp: cmp.g.f0.0 (1) null:w TEMP_VAR0.18<0,1,0>:w INPUT_ARG1.2<0,1,0>:w {align1}; (f0.0) add (1) TEMP_VAR0.2<1>:w INPUT_ARG1.2<0,1,0>:w -40:w {align1}; y_bottom_end: mul (2) TEMP_VAR1.0<1>:w INPUT_ARG0.8<2,2,1>:w -1:w {align1}; add (2) RET_ARG<1>:w TEMP_VAR0.0<2,2,1>:w TEMP_VAR1.0<2,2,1>:w {align1}; RETURN {align1}; nop; nop; vme_run_again: asr (2) mb_ref_win.0<1>:w mb_mvp_ref.0<2,2,1>:w 2:w {align1}; mov (2) tmp_reg0.0<1>:w mb_ref_win.0<2,2,1>:w {align1}; add (2) mb_ref_win.8<1>:w mb_ref_win.0<2,2,1>:w 3:w {align1}; and (2) mb_ref_win.16<1>:uw mb_ref_win.8<2,2,1>:uw 0xFFFC:uw {align1}; cmp.l.f0.0 (1) null:w tmp_reg0.0<0,1,0>:w 0:w {align1}; (f0.0) mul (1) tmp_reg0.0<1>:w tmp_reg0.0<0,1,0>:w -1:w {align1}; cmp.l.f0.0 (1) null:w tmp_reg0.2<0,1,0>:w 0:w {align1}; (f0.0) mul (1) tmp_reg0.2<1>:w tmp_reg0.2<0,1,0>:w -1:w {align1}; cmp.ge.f0.0 (1) null:w tmp_reg0.0<0,1,0>:w 4:w {align1}; (f0.0) jmpi (1) vme_start; cmp.ge.f0.0 (1) null:w tmp_reg0.2<0,1,0>:w 4:w {align1}; (f0.0) jmpi (1) vme_start; jmpi (1) vme_done; vme_start: mov (8) tmp_vme_wb0.0<1>:ud vme_wb0.0<8,8,1>:ud {align1}; mov (8) tmp_vme_wb1.0<1>:ud vme_wb1.0<8,8,1>:ud {align1}; /* Calibrate the ref window for MPEG2 */ mov (1) vme_m0.0<1>:W -16:W {align1}; mov (1) vme_m0.2<1>:W -12:W {align1}; mov (1) INPUT_ARG0.8<1>:ud vme_m0.8<0,1,0>:ud {align1}; add (2) INPUT_ARG0.0<1>:w vme_m0.0<2,2,1>:w mb_ref_win.16<2,2,1>:w {align1}; mov (8) INPUT_ARG1.0<1>:ud pic_ref.0<8,8,1>:ud {align1}; SAVE_RET {align1}; jmpi (1) ref_boundary_check; mov (2) vme_m0.0<1>:w RET_ARG<2,2,1>:w {align1}; /* IME search */ mov (1) vme_m0.12<1>:UD SEARCH_CTRL_SINGLE + INTER_PART_MASK + INTER_SAD_HAAR:UD {align1}; /* 16x16 Source, harr */ mov (1) vme_m0.22<1>:UW REF_REGION_SIZE {align1}; /* Reference Width&Height, 48x40 */ mov (1) vme_m0.4<1>:UD vme_m0.0<0,1,0>:UD {align1}; mov (8) vme_msg_0.0<1>:UD vme_m0.0<8,8,1>:UD {align1}; mov (8) vme_m1.0<1>:ud 0x0:UD {align1}; mov (1) vme_m1.0<1>:UD ADAPTIVE_SEARCH_ENABLE:ud {align1} ; /* the Max MV number is passed by constant buffer */ mov (1) vme_m1.4<1>:UB r4.28<0,1,0>:UB {align1}; mov (1) vme_m1.8<1>:UD START_CENTER + SEARCH_PATH_LEN:UD {align1}; mov (8) vme_msg_1.0<1>:UD vme_m1.0<8,8,1>:UD {align1}; /* Setup the Cost center */ /* currently four 8x8 share the same cost center */ mov (4) vme_m3.0<2>:ud mv_cc_ref.0<0,1,0>:ud {align1}; mov (4) vme_m3.4<2>:ud mv_cc_ref.0<0,1,0>:ud {align1}; mov (8) vme_msg_3<1>:UD vme_m3.0<8,8,1>:UD {align1}; mov (8) vme_msg_2<1>:UD vme_m2.0<8,8,1>:UD {align1}; /* M4/M5 search path */ mov (1) vme_msg_4.0<1>:UD 0x01010101:UD {align1}; mov (1) vme_msg_4.4<1>:UD 0x10010101:UD {align1}; mov (1) vme_msg_4.8<1>:UD 0x0F0F0F0F:UD {align1}; mov (1) vme_msg_4.12<1>:UD 0x100F0F0F:UD {align1}; mov (1) vme_msg_4.16<1>:UD 0x01010101:UD {align1}; mov (1) vme_msg_4.20<1>:UD 0x10010101:UD {align1}; mov (1) vme_msg_4.24<1>:UD 0x0F0F0F0F:UD {align1}; mov (1) vme_msg_4.28<1>:UD 0x100F0F0F:UD {align1}; mov (1) vme_msg_5.0<1>:UD 0x01010101:UD {align1}; mov (1) vme_msg_5.4<1>:UD 0x10010101:UD {align1}; mov (1) vme_msg_5.8<1>:UD 0x0F0F0F0F:UD {align1}; mov (1) vme_msg_5.12<1>:UD 0x000F0F0F:UD {align1}; mov (4) vme_msg_5.16<1>:UD 0x0:UD {align1}; send (8) vme_msg_ind vme_wb<1>:UD null vme( BIND_IDX_VME, 0, 0, VME_IME_MESSAGE_TYPE ) mlen ime_vme_msg_length rlen vme_wb_length {align1}; /* Set Macroblock-shape/mode for FBR */ mov (1) vme_m2.20<1>:UD 0x0:UD {align1}; mov (1) vme_m2.21<1>:UB vme_wb.25<0,1,0>:UB {align1}; mov (1) vme_m2.22<1>:UB vme_wb.26<0,1,0>:UB {align1}; and (1) tmp_reg0.0<1>:UW vme_wb.0<0,1,0>:UW 0x03:UW {align1}; mov (1) vme_m2.20<1>:UB tmp_reg0.0<0,1,0>:UB {align1}; /* Send FBR message into CRE */ mov (8) vme_msg_4.0<1>:UD vme_wb1.0<8,8,1>:UD {align1}; mov (8) vme_msg_5.0<1>:ud vme_wb2.0<8,8,1>:ud {align1}; mov (8) vme_msg_6.0<1>:ud vme_wb3.0<8,8,1>:ud {align1}; mov (8) vme_msg_7.0<1>:ud vme_wb4.0<8,8,1>:ud {align1}; mov (1) vme_m0.12<1>:UD INTER_SAD_HAAR + SUB_PEL_MODE_HALF + FBR_BME_DISABLE:UD {align1}; /* 16x16 Source, 1/2 pixel, harr, BME disable */ /* Bilinear filter */ mov (1) tmp_reg0.0<1>:uw 0x04:uw {align1}; add (1) vme_m1.30<1>:ub vme_m1.30<0,1,0>:ub tmp_reg0.0<0,1,0>:ub {align1}; mov (8) vme_msg_0.0<1>:UD vme_m0.0<8,8,1>:UD {align1}; mov (8) vme_msg_1.0<1>:UD vme_m1.0<8,8,1>:UD {align1}; mov (8) vme_msg_2.0<1>:UD vme_m2.0<8,8,1>:UD {align1}; mov (8) vme_msg_3.0<1>:UD vme_m3.0<8,8,1>:UD {align1}; /* after verification it will be passed by using payload */ send (8) vme_msg_ind vme_wb<1>:UD null cre( BIND_IDX_VME, VME_FBR_MESSAGE_TYPE ) mlen fbr_vme_msg_length rlen vme_wb_length {align1}; cmp.l.f0.0 (1) null:uw vme_wb0.8<0,1,0>:uw tmp_vme_wb0.8<0,1,0>:uw {align1}; (f0.0) jmpi (1) vme_done; mov (8) vme_wb0.0<1>:ud tmp_vme_wb0.0<8,8,1>:ud {align1}; mov (8) vme_wb1.0<1>:ud tmp_vme_wb1.0<8,8,1>:ud {align1}; vme_done: jmpi (1) vme_mv_output; nop; nop; nop;