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Results 11 - 20 of 37 for new_dims (0.07 sec)
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tensorflow/c/eager/c_api_unified_experimental_test.cc
// Build an abstract input tensor. int64_t dims[] = {2, 2}; // Matrices will be 2 x 2 int num_dims = sizeof(dims) / sizeof(dims[0]); float vals[] = {0.0f, 0.0f, 0.0f, 0.0f}; TFE_Context* eager_ctx = TF_ExecutionContextGetTFEContext(ctx, status.get()); TFE_TensorHandle* t = TestMatrixTensorHandleWithInput(eager_ctx, vals, dims, num_dims); TF_AbstractTensor* at = TF_CreateAbstractTensorFromEagerTensor(
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Sat Oct 12 05:11:17 UTC 2024 - 39.1K bytes - Viewed (0) -
tensorflow/c/c_api.h
TF_Status* status); // Fills in `dims` with the list of shapes in the attribute `attr_name` of // `oper` and `num_dims` with the corresponding number of dimensions. On return, // for every i where `num_dims[i]` > 0, `dims[i]` will be an array of // `num_dims[i]` elements. A value of -1 for `num_dims[i]` indicates that the
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Thu Oct 26 21:08:15 UTC 2023 - 82.3K bytes - Viewed (0) -
tensorflow/c/eager/c_api_test_util.cc
float data[], int64_t dims[], int num_dims) { TF_Status* status = TF_NewStatus(); TF_Tensor* t = TFE_AllocateHostTensor(ctx, TF_FLOAT, &dims[0], num_dims, status); memcpy(TF_TensorData(t), &data[0], TF_TensorByteSize(t)); TFE_TensorHandle* th = TFE_NewTensorHandleFromTensor(ctx, t, status);
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Wed Feb 21 22:37:46 UTC 2024 - 23.5K bytes - Viewed (0) -
tensorflow/c/eager/gradients_internal.h
DataType value, ForwardOperation*); absl::Status SetAttrShape(AbstractOperation*, const char* attr_name, const int64_t* dims, const int num_dims, ForwardOperation*); absl::Status SetAttrFunction(AbstractOperation*, const char* attr_name, const AbstractOperation* value, ForwardOperation*);
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Sat Oct 12 05:11:17 UTC 2024 - 4.7K bytes - Viewed (0) -
tensorflow/c/eager/c_api_unified_experimental.cc
return nullptr; } tensorflow::PartialTensorShape partial_shape; if (shape.num_dims != -1) { DCHECK(shape.dim_sizes != nullptr); Status status = tensorflow::PartialTensorShape::MakePartialShape( reinterpret_cast<int64_t*>(shape.dim_sizes), shape.num_dims, &partial_shape); if (!status.ok()) { tsl::Set_TF_Status_from_Status(s, status); return nullptr;
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Sat Oct 12 05:11:17 UTC 2024 - 9K bytes - Viewed (0) -
tensorflow/c/eager/dlpack.cc
return nullptr; } size_t total_bytes = dl_tensor->dtype.bits / 8; for (int i = 0; i < num_dims; i++) { total_bytes *= dims[i]; } if (dl_tensor->strides != nullptr && !IsValidStrideCompactRowMajorData(dl_tensor->shape, dl_tensor->strides, num_dims)) { status->status = tensorflow::errors::InvalidArgument( "Invalid strides array from DLPack");
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Sat Oct 12 05:11:17 UTC 2024 - 12.9K bytes - Viewed (0) -
tensorflow/c/c_test_util.cc
TF_Tensor* Int8Tensor(const int64_t* dims, int num_dims, const char* values) { int64_t num_values = 1; for (int i = 0; i < num_dims; ++i) { num_values *= dims[i]; } TF_Tensor* t = TF_AllocateTensor(TF_INT8, dims, num_dims, sizeof(char) * num_values); memcpy(TF_TensorData(t), values, sizeof(char) * num_values); return t; } TF_Tensor* Int32Tensor(const int64_t* dims, int num_dims,
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Fri Oct 15 03:16:52 UTC 2021 - 17.8K bytes - Viewed (0) -
tensorflow/c/eager/abstract_operation.h
virtual absl::Status SetAttrType(const char* attr_name, DataType value) = 0; virtual absl::Status SetAttrShape(const char* attr_name, const int64_t* dims, const int num_dims) = 0; virtual absl::Status SetAttrShape(const char* attr_name, const PartialTensorShape shape); virtual absl::Status SetAttrFunction(const char* attr_name,
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Sat Oct 12 05:11:17 UTC 2024 - 7.3K bytes - Viewed (0) -
tensorflow/c/c_api_experimental.h
// Read the shape of a variable and write to `dims` TF_CAPI_EXPORT extern void TF_CheckpointReaderGetVariableShape( TF_CheckpointReader* reader, const char* name, int64_t* dims, int num_dims, TF_Status* status); // Get the number of dimension of a variable TF_CAPI_EXPORT extern int TF_CheckpointReaderGetVariableNumDims( TF_CheckpointReader* reader, const char* name); // Load the weight of a variable
Registered: Tue Nov 05 12:39:12 UTC 2024 - Last Modified: Thu Apr 27 21:07:00 UTC 2023 - 15.1K bytes - Viewed (0) -
docs/pt/docs/advanced/additional-responses.md
```Python old_dict = { "old key": "old value", "second old key": "second old value", } new_dict = {**old_dict, "new key": "new value"} ``` Aqui, o `new_dict` terĂ¡ todos os pares de chave-valor do `old_dict` mais o novo par de chave-valor: ```Python { "old key": "old value", "second old key": "second old value",
Registered: Sun Nov 03 07:19:11 UTC 2024 - Last Modified: Sun Oct 06 20:36:54 UTC 2024 - 9.3K bytes - Viewed (0)