Linux ip-172-26-2-223 5.4.0-1018-aws #18-Ubuntu SMP Wed Jun 24 01:15:00 UTC 2020 x86_64
Apache
: 172.26.2.223 | : 3.148.219.214
Cant Read [ /etc/named.conf ]
8.1.13
www
www.github.com/MadExploits
Terminal
AUTO ROOT
Adminer
Backdoor Destroyer
Linux Exploit
Lock Shell
Lock File
Create User
CREATE RDP
PHP Mailer
BACKCONNECT
UNLOCK SHELL
HASH IDENTIFIER
CPANEL RESET
CREATE WP USER
BLACK DEFEND!
README
+ Create Folder
+ Create File
/
usr /
share /
cmake-3.16 /
Modules /
FindCUDA /
[ HOME SHELL ]
Name
Size
Permission
Action
make2cmake.cmake
3.83
KB
-rw-r--r--
parse_cubin.cmake
3.36
KB
-rw-r--r--
run_nvcc.cmake
11.65
KB
-rw-r--r--
select_compute_arch.cmake
10.11
KB
-rw-r--r--
Delete
Unzip
Zip
${this.title}
Close
Code Editor : select_compute_arch.cmake
# Synopsis: # CUDA_SELECT_NVCC_ARCH_FLAGS(out_variable [target_CUDA_architectures]) # -- Selects GPU arch flags for nvcc based on target_CUDA_architectures # target_CUDA_architectures : Auto | Common | All | LIST(ARCH_AND_PTX ...) # - "Auto" detects local machine GPU compute arch at runtime. # - "Common" and "All" cover common and entire subsets of architectures # ARCH_AND_PTX : NAME | NUM.NUM | NUM.NUM(NUM.NUM) | NUM.NUM+PTX # NAME: Fermi Kepler Maxwell Kepler+Tegra Kepler+Tesla Maxwell+Tegra Pascal Volta Turing # NUM: Any number. Only those pairs are currently accepted by NVCC though: # 2.0 2.1 3.0 3.2 3.5 3.7 5.0 5.2 5.3 6.0 6.2 7.0 7.2 7.5 # Returns LIST of flags to be added to CUDA_NVCC_FLAGS in ${out_variable} # Additionally, sets ${out_variable}_readable to the resulting numeric list # Example: # CUDA_SELECT_NVCC_ARCH_FLAGS(ARCH_FLAGS 3.0 3.5+PTX 5.2(5.0) Maxwell) # LIST(APPEND CUDA_NVCC_FLAGS ${ARCH_FLAGS}) # # More info on CUDA architectures: https://en.wikipedia.org/wiki/CUDA # if(CMAKE_CUDA_COMPILER_LOADED) # CUDA as a language if(CMAKE_CUDA_COMPILER_ID STREQUAL "NVIDIA" AND CMAKE_CUDA_COMPILER_VERSION MATCHES "^([0-9]+\\.[0-9]+)") set(CUDA_VERSION "${CMAKE_MATCH_1}") endif() endif() # See: https://docs.nvidia.com/cuda/cuda-compiler-driver-nvcc/index.html#gpu-feature-list # This list will be used for CUDA_ARCH_NAME = All option set(CUDA_KNOWN_GPU_ARCHITECTURES "Fermi" "Kepler" "Maxwell") # This list will be used for CUDA_ARCH_NAME = Common option (enabled by default) set(CUDA_COMMON_GPU_ARCHITECTURES "3.0" "3.5" "5.0") if(CUDA_VERSION VERSION_LESS "7.0") set(CUDA_LIMIT_GPU_ARCHITECTURE "5.2") endif() # This list is used to filter CUDA archs when autodetecting set(CUDA_ALL_GPU_ARCHITECTURES "3.0" "3.2" "3.5" "5.0") if(CUDA_VERSION VERSION_GREATER_EQUAL "7.0") list(APPEND CUDA_KNOWN_GPU_ARCHITECTURES "Kepler+Tegra" "Kepler+Tesla" "Maxwell+Tegra") list(APPEND CUDA_COMMON_GPU_ARCHITECTURES "5.2") if(CUDA_VERSION VERSION_LESS "8.0") list(APPEND CUDA_COMMON_GPU_ARCHITECTURES "5.2+PTX") set(CUDA_LIMIT_GPU_ARCHITECTURE "6.0") endif() endif() if(CUDA_VERSION VERSION_GREATER_EQUAL "8.0") list(APPEND CUDA_KNOWN_GPU_ARCHITECTURES "Pascal") list(APPEND CUDA_COMMON_GPU_ARCHITECTURES "6.0" "6.1") list(APPEND CUDA_ALL_GPU_ARCHITECTURES "6.0" "6.1" "6.2") if(CUDA_VERSION VERSION_LESS "9.0") list(APPEND CUDA_COMMON_GPU_ARCHITECTURES "6.1+PTX") set(CUDA_LIMIT_GPU_ARCHITECTURE "7.0") endif() endif () if(CUDA_VERSION VERSION_GREATER_EQUAL "9.0") list(APPEND CUDA_KNOWN_GPU_ARCHITECTURES "Volta") list(APPEND CUDA_COMMON_GPU_ARCHITECTURES "7.0" "7.0+PTX") list(APPEND CUDA_ALL_GPU_ARCHITECTURES "7.0" "7.0+PTX" "7.2" "7.2+PTX") if(CUDA_VERSION VERSION_LESS "10.0") set(CUDA_LIMIT_GPU_ARCHITECTURE "8.0") endif() endif() if(CUDA_VERSION VERSION_GREATER_EQUAL "10.0") list(APPEND CUDA_KNOWN_GPU_ARCHITECTURES "Turing") list(APPEND CUDA_COMMON_GPU_ARCHITECTURES "7.5" "7.5+PTX") list(APPEND CUDA_ALL_GPU_ARCHITECTURES "7.5" "7.5+PTX") if(CUDA_VERSION VERSION_LESS "11.0") set(CUDA_LIMIT_GPU_ARCHITECTURE "9.0") endif() endif() ################################################################################################ # A function for automatic detection of GPUs installed (if autodetection is enabled) # Usage: # CUDA_DETECT_INSTALLED_GPUS(OUT_VARIABLE) # function(CUDA_DETECT_INSTALLED_GPUS OUT_VARIABLE) if(NOT CUDA_GPU_DETECT_OUTPUT) if(CMAKE_CUDA_COMPILER_LOADED) # CUDA as a language set(file "${PROJECT_BINARY_DIR}/detect_cuda_compute_capabilities.cu") else() set(file "${PROJECT_BINARY_DIR}/detect_cuda_compute_capabilities.cpp") endif() file(WRITE ${file} "" "#include <cuda_runtime.h>\n" "#include <cstdio>\n" "int main()\n" "{\n" " int count = 0;\n" " if (cudaSuccess != cudaGetDeviceCount(&count)) return -1;\n" " if (count == 0) return -1;\n" " for (int device = 0; device < count; ++device)\n" " {\n" " cudaDeviceProp prop;\n" " if (cudaSuccess == cudaGetDeviceProperties(&prop, device))\n" " std::printf(\"%d.%d \", prop.major, prop.minor);\n" " }\n" " return 0;\n" "}\n") if(CMAKE_CUDA_COMPILER_LOADED) # CUDA as a language try_run(run_result compile_result ${PROJECT_BINARY_DIR} ${file} RUN_OUTPUT_VARIABLE compute_capabilities) else() try_run(run_result compile_result ${PROJECT_BINARY_DIR} ${file} CMAKE_FLAGS "-DINCLUDE_DIRECTORIES=${CUDA_INCLUDE_DIRS}" LINK_LIBRARIES ${CUDA_LIBRARIES} RUN_OUTPUT_VARIABLE compute_capabilities) endif() # Filter unrelated content out of the output. string(REGEX MATCHALL "[0-9]+\\.[0-9]+" compute_capabilities "${compute_capabilities}") if(run_result EQUAL 0) string(REPLACE "2.1" "2.1(2.0)" compute_capabilities "${compute_capabilities}") set(CUDA_GPU_DETECT_OUTPUT ${compute_capabilities} CACHE INTERNAL "Returned GPU architectures from detect_gpus tool" FORCE) endif() endif() if(NOT CUDA_GPU_DETECT_OUTPUT) message(STATUS "Automatic GPU detection failed. Building for common architectures.") set(${OUT_VARIABLE} ${CUDA_COMMON_GPU_ARCHITECTURES} PARENT_SCOPE) else() # Filter based on CUDA version supported archs set(CUDA_GPU_DETECT_OUTPUT_FILTERED "") separate_arguments(CUDA_GPU_DETECT_OUTPUT) foreach(ITEM IN ITEMS ${CUDA_GPU_DETECT_OUTPUT}) if(CUDA_LIMIT_GPU_ARCHITECTURE AND ITEM VERSION_GREATER_EQUAL CUDA_LIMIT_GPU_ARCHITECTURE) list(GET CUDA_COMMON_GPU_ARCHITECTURES -1 NEWITEM) string(APPEND CUDA_GPU_DETECT_OUTPUT_FILTERED " ${NEWITEM}") else() string(APPEND CUDA_GPU_DETECT_OUTPUT_FILTERED " ${ITEM}") endif() endforeach() set(${OUT_VARIABLE} ${CUDA_GPU_DETECT_OUTPUT_FILTERED} PARENT_SCOPE) endif() endfunction() ################################################################################################ # Function for selecting GPU arch flags for nvcc based on CUDA architectures from parameter list # Usage: # SELECT_NVCC_ARCH_FLAGS(out_variable [list of CUDA compute archs]) function(CUDA_SELECT_NVCC_ARCH_FLAGS out_variable) set(CUDA_ARCH_LIST "${ARGN}") if("X${CUDA_ARCH_LIST}" STREQUAL "X" ) set(CUDA_ARCH_LIST "Auto") endif() set(cuda_arch_bin) set(cuda_arch_ptx) if("${CUDA_ARCH_LIST}" STREQUAL "All") set(CUDA_ARCH_LIST ${CUDA_KNOWN_GPU_ARCHITECTURES}) elseif("${CUDA_ARCH_LIST}" STREQUAL "Common") set(CUDA_ARCH_LIST ${CUDA_COMMON_GPU_ARCHITECTURES}) elseif("${CUDA_ARCH_LIST}" STREQUAL "Auto") CUDA_DETECT_INSTALLED_GPUS(CUDA_ARCH_LIST) message(STATUS "Autodetected CUDA architecture(s): ${CUDA_ARCH_LIST}") endif() # Now process the list and look for names string(REGEX REPLACE "[ \t]+" ";" CUDA_ARCH_LIST "${CUDA_ARCH_LIST}") list(REMOVE_DUPLICATES CUDA_ARCH_LIST) foreach(arch_name ${CUDA_ARCH_LIST}) set(arch_bin) set(arch_ptx) set(add_ptx FALSE) # Check to see if we are compiling PTX if(arch_name MATCHES "(.*)\\+PTX$") set(add_ptx TRUE) set(arch_name ${CMAKE_MATCH_1}) endif() if(arch_name MATCHES "^([0-9]\\.[0-9](\\([0-9]\\.[0-9]\\))?)$") set(arch_bin ${CMAKE_MATCH_1}) set(arch_ptx ${arch_bin}) else() # Look for it in our list of known architectures if(${arch_name} STREQUAL "Fermi") set(arch_bin 2.0 "2.1(2.0)") elseif(${arch_name} STREQUAL "Kepler+Tegra") set(arch_bin 3.2) elseif(${arch_name} STREQUAL "Kepler+Tesla") set(arch_bin 3.7) elseif(${arch_name} STREQUAL "Kepler") set(arch_bin 3.0 3.5) set(arch_ptx 3.5) elseif(${arch_name} STREQUAL "Maxwell+Tegra") set(arch_bin 5.3) elseif(${arch_name} STREQUAL "Maxwell") set(arch_bin 5.0 5.2) set(arch_ptx 5.2) elseif(${arch_name} STREQUAL "Pascal") set(arch_bin 6.0 6.1) set(arch_ptx 6.1) elseif(${arch_name} STREQUAL "Volta") set(arch_bin 7.0 7.0) set(arch_ptx 7.0) elseif(${arch_name} STREQUAL "Turing") set(arch_bin 7.5) set(arch_ptx 7.5) else() message(SEND_ERROR "Unknown CUDA Architecture Name ${arch_name} in CUDA_SELECT_NVCC_ARCH_FLAGS") endif() endif() if(NOT arch_bin) message(SEND_ERROR "arch_bin wasn't set for some reason") endif() list(APPEND cuda_arch_bin ${arch_bin}) if(add_ptx) if (NOT arch_ptx) set(arch_ptx ${arch_bin}) endif() list(APPEND cuda_arch_ptx ${arch_ptx}) endif() endforeach() # remove dots and convert to lists string(REGEX REPLACE "\\." "" cuda_arch_bin "${cuda_arch_bin}") string(REGEX REPLACE "\\." "" cuda_arch_ptx "${cuda_arch_ptx}") string(REGEX MATCHALL "[0-9()]+" cuda_arch_bin "${cuda_arch_bin}") string(REGEX MATCHALL "[0-9]+" cuda_arch_ptx "${cuda_arch_ptx}") if(cuda_arch_bin) list(REMOVE_DUPLICATES cuda_arch_bin) endif() if(cuda_arch_ptx) list(REMOVE_DUPLICATES cuda_arch_ptx) endif() set(nvcc_flags "") set(nvcc_archs_readable "") # Tell NVCC to add binaries for the specified GPUs foreach(arch ${cuda_arch_bin}) if(arch MATCHES "([0-9]+)\\(([0-9]+)\\)") # User explicitly specified ARCH for the concrete CODE list(APPEND nvcc_flags -gencode arch=compute_${CMAKE_MATCH_2},code=sm_${CMAKE_MATCH_1}) list(APPEND nvcc_archs_readable sm_${CMAKE_MATCH_1}) else() # User didn't explicitly specify ARCH for the concrete CODE, we assume ARCH=CODE list(APPEND nvcc_flags -gencode arch=compute_${arch},code=sm_${arch}) list(APPEND nvcc_archs_readable sm_${arch}) endif() endforeach() # Tell NVCC to add PTX intermediate code for the specified architectures foreach(arch ${cuda_arch_ptx}) list(APPEND nvcc_flags -gencode arch=compute_${arch},code=compute_${arch}) list(APPEND nvcc_archs_readable compute_${arch}) endforeach() string(REPLACE ";" " " nvcc_archs_readable "${nvcc_archs_readable}") set(${out_variable} ${nvcc_flags} PARENT_SCOPE) set(${out_variable}_readable ${nvcc_archs_readable} PARENT_SCOPE) endfunction()
Close
