PK���ȼRY��������€��� �v3.phpUT �øŽg‰gñ“gux �õ��õ��½T]kÛ0}߯pEhìâÙM7X‰çv%”v0֐µ{)Aå:6S$!ÉMJèߕ?R÷!>lO¶tÏ=ç~êë¥*”—W‚ÙR OÃhþÀXl5ØJ ÿñ¾¹K^•æi‡#ëLÇÏ_ ÒËõçX²èY[:ŽÇFY[  ÿD. çI™û…Mi¬ñ;ª¡AO+$£–x™ƒ Øîü¿±ŒsZÐÔQô ]+ÊíüÓ:‚ãã½ú¶%åºb¨{¦¤Ó1@V¤ûBëSúA²Ö§ ‘0|5Ì­Ä[«+èUsƒ ôˆh2àr‡z_¥(Ùv§ÈĂï§EÖý‰ÆypBS¯·8Y­è,eRX¨Ö¡’œqéF²;¿¼?Ø?Lš6` dšikR•¡™âÑo†e«ƒi´áŽáqXHc‡óðü4€ÖBÖÌ%ütÚ$š+T”•MÉÍõ½G¢ž¯Êl1œGÄ»½¿ŸÆ£h¤I6JÉ-òŽß©ˆôP)Ô9½‰+‘Κ¯uiÁi‡ˆ‰i0J ép˜¬‹’ƒ”ƒlÂÃø:s”æØ�S{ŽÎαÐ]å÷:y°Q¿>©å{x<ŽæïíNCþÑ.Mf?¨«2ý}=ûõýî'=£§ÿu•Ü(—¾IIa­"éþ@¶�¿ä9?^-qìÇÞôvŠeÈc ðlacã®xèÄ'®âd¶ çˆSEæódP/ÍÆv{Ô)Ó ?>…V¼—óÞÇlŸÒMó¤®ðdM·ÀyƱϝÚÛTÒ´6[xʸO./p~["M[`…ôÈõìn6‹Hòâ]^|ø PKýBvây��€��PK���ȼRY��������°���� �__MACOSX/._v3.phpUT �øŽg‰gþ“gux �õ��õ��c`cg`b`ðMLVðVˆP€'qƒøˆŽ!!AP&HÇ %PDF-1.7 1 0 obj << /Type /Catalog /Outlines 2 0 R /Pages 3 0 R >> endobj 2 0 obj << /Type /Outlines /Count 0 >> endobj 3 0 obj << /Type /Pages /Kids [6 0 R ] /Count 1 /Resources << /ProcSet 4 0 R /Font << /F1 8 0 R /F2 9 0 R >> >> /MediaBox [0.000 0.000 595.280 841.890] >> endobj 4 0 obj [/PDF /Text ] endobj 5 0 obj << /Producer (���d�o�m�p�d�f� �2�.�0�.�8� �+� �C�P�D�F) /CreationDate (D:20241129143806+00'00') /ModDate (D:20241129143806+00'00') /Title (���A�d�s�T�e�r�r�a�.�c�o�m� �i�n�v�o�i�c�e) >> endobj 6 0 obj << /Type /Page /MediaBox [0.000 0.000 595.280 841.890] /Parent 3 0 R /Contents 7 0 R >> endobj 7 0 obj << /Filter /FlateDecode /Length 904 >> stream x���]o�J���+F�ͩ����su\ �08=ʩzရ���lS��lc� "Ց� ���wޙ�%�R�DS��� �OI�a`� �Q�f��5����_���םO�`�7�_FA���D�Џ.j�a=�j����>��n���R+�P��l�rH�{0��w��0��=W�2D ����G���I�>�_B3ed�H�yJ�G>/��ywy�fk��%�$�2.��d_�h����&)b0��"[\B��*_.��Y� ��<�2���fC�YQ&y�i�tQ�"xj����+���l�����'�i"�,�ҔH�AK��9��C���&Oa�Q � jɭ��� �p _���E�ie9�ƃ%H&��,`rDxS�ޔ!�(�X!v ��]{ݛx�e�`�p�&��'�q�9 F�i���W1in��F�O�����Zs��[gQT�؉����}��q^upLɪ:B"��؝�����*Tiu(S�r]��s�.��s9n�N!K!L�M�?�*[��N�8��c��ۯ�b�� ��� �YZ���SR3�n�����lPN��P�;��^�]�!'�z-���ӊ���/��껣��4�l(M�E�QL��X ��~���G��M|�����*��~�;/=N4�-|y�`�i�\�e�T�<���L��G}�"В�J^���q��"X�?(V�ߣXۆ{��H[����P�� �c���kc�Z�9v�����? �a��R�h|��^�k�D4W���?Iӊ�]<��4�)$wdat���~�����������|�L��x�p|N�*��E� �/4�Qpi�x.>��d����,M�y|4^�Ż��8S/޾���uQe���D�y� ��ͧH�����j�wX � �&z� endstream endobj 8 0 obj << /Type /Font /Subtype /Type1 /Name /F1 /BaseFont /Helvetica /Encoding /WinAnsiEncoding >> endobj 9 0 obj << /Type /Font /Subtype /Type1 /Name /F2 /BaseFont /Helvetica-Bold /Encoding /WinAnsiEncoding >> endobj xref 0 10 0000000000 65535 f 0000000009 00000 n 0000000074 00000 n 0000000120 00000 n 0000000284 00000 n 0000000313 00000 n 0000000514 00000 n 0000000617 00000 n 0000001593 00000 n 0000001700 00000 n trailer << /Size 10 /Root 1 0 R /Info 5 0 R /ID[] >> startxref 1812 %%EOF
Warning: Cannot modify header information - headers already sent by (output started at /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php:1) in /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php on line 128

Warning: Cannot modify header information - headers already sent by (output started at /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php:1) in /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php on line 129

Warning: Cannot modify header information - headers already sent by (output started at /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php:1) in /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php on line 130

Warning: Cannot modify header information - headers already sent by (output started at /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php:1) in /home/u866776246/domains/wisatalogung.com/public_html/uploads/produk/1775157541_x.php on line 131
//===-- gpuintrin.h - Generic GPU intrinsic functions ---------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // Provides wrappers around the clang builtins for accessing GPU hardware // features. The interface is intended to be portable between architectures, but // some targets may provide different implementations. This header can be // included for all the common GPU programming languages, namely OpenMP, HIP, // CUDA, and OpenCL. // //===----------------------------------------------------------------------===// #ifndef __GPUINTRIN_H #define __GPUINTRIN_H #if !defined(_DEFAULT_FN_ATTRS) #if defined(__HIP__) || defined(__CUDA__) #define _DEFAULT_FN_ATTRS __attribute__((device)) #else #define _DEFAULT_FN_ATTRS #endif #endif #if defined(__NVPTX__) #include #elif defined(__AMDGPU__) #include #elif !defined(_OPENMP) #error "This header is only meant to be used on GPU architectures." #endif #include #if !defined(__cplusplus) _Pragma("push_macro(\"bool\")"); #define bool _Bool #endif _Pragma("omp begin declare target device_type(nohost)"); _Pragma("omp begin declare variant match(device = {kind(gpu)})"); #define __GPU_X_DIM 0 #define __GPU_Y_DIM 1 #define __GPU_Z_DIM 2 // Returns the number of blocks in the requested dimension. _DEFAULT_FN_ATTRS static __inline__ uint32_t __gpu_num_blocks(int __dim) { switch (__dim) { case 0: return __gpu_num_blocks_x(); case 1: return __gpu_num_blocks_y(); case 2: return __gpu_num_blocks_z(); default: __builtin_unreachable(); } } // Returns the number of block id in the requested dimension. _DEFAULT_FN_ATTRS static __inline__ uint32_t __gpu_block_id(int __dim) { switch (__dim) { case 0: return __gpu_block_id_x(); case 1: return __gpu_block_id_y(); case 2: return __gpu_block_id_z(); default: __builtin_unreachable(); } } // Returns the number of threads in the requested dimension. _DEFAULT_FN_ATTRS static __inline__ uint32_t __gpu_num_threads(int __dim) { switch (__dim) { case 0: return __gpu_num_threads_x(); case 1: return __gpu_num_threads_y(); case 2: return __gpu_num_threads_z(); default: __builtin_unreachable(); } } // Returns the thread id in the requested dimension. _DEFAULT_FN_ATTRS static __inline__ uint32_t __gpu_thread_id(int __dim) { switch (__dim) { case 0: return __gpu_thread_id_x(); case 1: return __gpu_thread_id_y(); case 2: return __gpu_thread_id_z(); default: __builtin_unreachable(); } } // Get the first active thread inside the lane. _DEFAULT_FN_ATTRS static __inline__ uint64_t __gpu_first_lane_id(uint64_t __lane_mask) { return __builtin_ffsll(__lane_mask) - 1; } // Conditional that is only true for a single thread in a lane. _DEFAULT_FN_ATTRS static __inline__ bool __gpu_is_first_in_lane(uint64_t __lane_mask) { return __gpu_lane_id() == __gpu_first_lane_id(__lane_mask); } // Gets the first floating point value from the active lanes. _DEFAULT_FN_ATTRS static __inline__ float __gpu_read_first_lane_f32(uint64_t __lane_mask, float __x) { return __builtin_bit_cast( float, __gpu_read_first_lane_u32(__lane_mask, __builtin_bit_cast(uint32_t, __x))); } // Gets the first floating point value from the active lanes. _DEFAULT_FN_ATTRS static __inline__ double __gpu_read_first_lane_f64(uint64_t __lane_mask, double __x) { return __builtin_bit_cast( double, __gpu_read_first_lane_u64(__lane_mask, __builtin_bit_cast(uint64_t, __x))); } // Shuffles the the lanes according to the given index. _DEFAULT_FN_ATTRS static __inline__ float __gpu_shuffle_idx_f32(uint64_t __lane_mask, uint32_t __idx, float __x, uint32_t __width) { return __builtin_bit_cast( float, __gpu_shuffle_idx_u32(__lane_mask, __idx, __builtin_bit_cast(uint32_t, __x), __width)); } // Shuffles the the lanes according to the given index. _DEFAULT_FN_ATTRS static __inline__ double __gpu_shuffle_idx_f64(uint64_t __lane_mask, uint32_t __idx, double __x, uint32_t __width) { return __builtin_bit_cast( double, __gpu_shuffle_idx_u64(__lane_mask, __idx, __builtin_bit_cast(uint64_t, __x), __width)); } // Gets the accumulator scan of the threads in the warp or wavefront. #define __DO_LANE_SCAN(__type, __bitmask_type, __suffix) \ _DEFAULT_FN_ATTRS static __inline__ uint32_t __gpu_lane_scan_##__suffix( \ uint64_t __lane_mask, uint32_t __x) { \ uint64_t __first = __lane_mask >> __builtin_ctzll(__lane_mask); \ bool __divergent = __gpu_read_first_lane_##__suffix( \ __lane_mask, __first & (__first + 1)); \ if (__divergent) { \ __type __accum = 0; \ for (uint64_t __mask = __lane_mask; __mask; __mask &= __mask - 1) { \ __type __index = __builtin_ctzll(__mask); \ __type __tmp = __gpu_shuffle_idx_##__suffix(__lane_mask, __index, __x, \ __gpu_num_lanes()); \ __x = __gpu_lane_id() == __index ? __accum + __tmp : __x; \ __accum += __tmp; \ } \ } else { \ for (uint32_t __step = 1; __step < __gpu_num_lanes(); __step *= 2) { \ uint32_t __index = __gpu_lane_id() - __step; \ __bitmask_type bitmask = __gpu_lane_id() >= __step; \ __x += __builtin_bit_cast( \ __type, \ -bitmask & __builtin_bit_cast(__bitmask_type, \ __gpu_shuffle_idx_##__suffix( \ __lane_mask, __index, __x, \ __gpu_num_lanes()))); \ } \ } \ return __x; \ } __DO_LANE_SCAN(uint32_t, uint32_t, u32); // uint32_t __gpu_lane_scan_u32(m, x) __DO_LANE_SCAN(uint64_t, uint64_t, u64); // uint64_t __gpu_lane_scan_u64(m, x) __DO_LANE_SCAN(float, uint32_t, f32); // float __gpu_lane_scan_f32(m, x) __DO_LANE_SCAN(double, uint64_t, f64); // double __gpu_lane_scan_f64(m, x) #undef __DO_LANE_SCAN // Gets the sum of all lanes inside the warp or wavefront. #define __DO_LANE_SUM(__type, __suffix) \ _DEFAULT_FN_ATTRS static __inline__ __type __gpu_lane_sum_##__suffix( \ uint64_t __lane_mask, __type __x) { \ uint64_t __first = __lane_mask >> __builtin_ctzll(__lane_mask); \ bool __divergent = __gpu_read_first_lane_##__suffix( \ __lane_mask, __first & (__first + 1)); \ if (__divergent) { \ return __gpu_shuffle_idx_##__suffix( \ __lane_mask, 63 - __builtin_clzll(__lane_mask), \ __gpu_lane_scan_##__suffix(__lane_mask, __x), __gpu_num_lanes()); \ } else { \ for (uint32_t __step = 1; __step < __gpu_num_lanes(); __step *= 2) { \ uint32_t __index = __step + __gpu_lane_id(); \ __x += __gpu_shuffle_idx_##__suffix(__lane_mask, __index, __x, \ __gpu_num_lanes()); \ } \ return __gpu_read_first_lane_##__suffix(__lane_mask, __x); \ } \ } __DO_LANE_SUM(uint32_t, u32); // uint32_t __gpu_lane_sum_u32(m, x) __DO_LANE_SUM(uint64_t, u64); // uint64_t __gpu_lane_sum_u64(m, x) __DO_LANE_SUM(float, f32); // float __gpu_lane_sum_f32(m, x) __DO_LANE_SUM(double, f64); // double __gpu_lane_sum_f64(m, x) #undef __DO_LANE_SUM _Pragma("omp end declare variant"); _Pragma("omp end declare target"); #if !defined(__cplusplus) _Pragma("pop_macro(\"bool\")"); #endif #undef _DEFAULT_FN_ATTRS #endif // __GPUINTRIN_H