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tensorflow/c/eager/c_api_experimental_test.cc
// First create a simple identity function. TF_Graph* function_graph = TF_NewGraph(); TF_OperationDescription* arg_descr = TF_NewOperation(function_graph, "Placeholder", "arg"); TF_SetAttrType(arg_descr, "dtype", TF_INT32); TF_Status* status = TF_NewStatus(); TF_Operation* arg = TF_FinishOperation(arg_descr, status); ASSERT_TRUE(TF_GetCode(status) == TF_OK) << TF_Message(status); TF_OperationDescription* id_descr =
C++ - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Thu Aug 03 03:14:26 GMT 2023 - 31.5K bytes - Viewed (1) -
tensorflow/c/c_test_util.cc
static void BoolDeallocator(void* data, size_t, void* arg) { delete[] static_cast<bool*>(data); } static void Int32Deallocator(void* data, size_t, void* arg) { delete[] static_cast<int32_t*>(data); } static void DoubleDeallocator(void* data, size_t, void* arg) { delete[] static_cast<double*>(data); } static void FloatDeallocator(void* data, size_t, void* arg) { delete[] static_cast<float*>(data); }
C++ - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Fri Oct 15 03:16:52 GMT 2021 - 17.8K bytes - Viewed (2) -
tensorflow/c/eager/dlpack.cc
if (!status->status.ok()) { return nullptr; } return tensor; } // Deleter for DLManagedTensor void DLManagedTensorDeleter(DLManagedTensor* arg) { TfDlManagedTensorCtx* owner = static_cast<TfDlManagedTensorCtx*>(arg->manager_ctx); owner->reference.Unref(); delete owner; } // Converts TF_DATAType to DLPack data type. DLDataType GetDlDataType(TF_DataType data_type, TF_Status* status) {
C++ - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Thu Feb 15 09:49:45 GMT 2024 - 12.8K bytes - Viewed (0) -
tensorflow/c/eager/c_api_unified_experimental_test.cc
// Build two abstract input tensors as function arguments. std::vector<TF_AbstractTensor*> func_args; { TFE_Context* eager_ctx = TF_ExecutionContextGetTFEContext(eager_execution_ctx, s); // 1st Arg float vals1[] = {0.0f, 1.0f, 1.0f, 0.0f}; int64_t dims[] = {2, 2}; // Matrices will be 2 x 2 int num_dims = sizeof(dims) / sizeof(dims[0]); TFE_TensorHandle* input_eager =
C++ - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Fri May 19 21:44:52 GMT 2023 - 39.1K bytes - Viewed (0) -
tensorflow/c/c_api_experimental.cc
if (!status->status.ok()) return nullptr; if (input_index >= op_def->input_arg_size() || input_index < 0) { status->status = tensorflow::errors::InvalidArgument( input_index, " out of range for ", op_name); return nullptr; } const tensorflow::OpDef_ArgDef& input_arg = op_def->input_arg()[input_index]; if (input_arg.number_attr().empty()) { status->status = tensorflow::errors::NotFound(
C++ - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Mon Apr 15 03:35:10 GMT 2024 - 29.4K bytes - Viewed (0) -
tensorflow/c/eager/immediate_execution_context.h
// Tensor creation functions virtual AbstractTensorInterface* CreateTensor( DataType dtype, absl::Span<const int64_t> dim_sizes) = 0; typedef void (*MemoryReleaser)(void* data, size_t len, void* arg); // Create a tensor instance from the given data buffer and description. // `memory_releaser` will be called on destruction, and it's responsible for // cleaning up the underlying buffer.
C - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Thu Jul 06 08:34:00 GMT 2023 - 12.3K bytes - Viewed (0) -
tensorflow/c/experimental/next_pluggable_device/c_api.cc
TF_Status* status) { auto* cc_ctx = reinterpret_cast<tensorflow::OpKernelContext*>(ctx); const tensorflow::Tensor& arg_tensor = cc_ctx->input(index); absl::Status cc_status; if (arg_tensor.dtype() != tensorflow::DT_RESOURCE) { cc_status = absl::InvalidArgumentError( absl::StrCat("Trying to obtain resource handle from Input[", index,
C++ - Registered: Tue Feb 27 12:39:08 GMT 2024 - Last Modified: Tue Jan 09 00:52:04 GMT 2024 - 13.9K bytes - Viewed (1) -
tensorflow/c/eager/c_api_distributed_test.cc
CHECK(tensorflow::protobuf::TextFormat::ParseFromString( " signature {" " name: 'AddVariablesFunction'" " input_arg {" " name: 'var'" " type: DT_RESOURCE" " }" " output_arg {" " name: 'sum'" " type: DT_FLOAT" " }" " }" " node_def {" " name: 'read0'"
C++ - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Thu Feb 15 09:49:45 GMT 2024 - 23.5K bytes - Viewed (0) -
tensorflow/c/eager/c_api.cc
void (*deallocator)(void* data, size_t len, void* arg), void* deallocator_arg, TF_Status* status) { tensorflow::Device* device = nullptr; tensorflow::EagerContext* context = tensorflow::ContextFromInterface(tensorflow::unwrap(ctx)); status->status = context->FindDeviceFromName(device_name, &device); if (!status->status.ok()) { deallocator(data, len, deallocator_arg); status->status =
C++ - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Tue Mar 12 20:00:09 GMT 2024 - 43.9K bytes - Viewed (2) -
tensorflow/c/eager/c_api_experimental.h
TFE_Context* ctx, const char* device_name, TF_DataType, const int64_t* dims, int num_dims, void* data, size_t len, void (*deallocator)(void* data, size_t len, void* arg), void* deallocator_arg, TF_Status* status); // Retrieves the address space (i.e. job, replia, task) of the local host and // saves it in the buffer. TF_CAPI_EXPORT extern void TFE_HostAddressSpace(TFE_Context* ctx,
C - Registered: Tue Apr 30 12:39:09 GMT 2024 - Last Modified: Wed Feb 21 22:37:46 GMT 2024 - 39.5K bytes - Viewed (0)