Visible to Intel only — GUID: GUID-55C4E4B9-795D-4479-BD39-B320DDDBC98A
Convolution
Inner Product
Matrix Multiplication
RNN
Batch Normalization
Binary
Concat
Eltwise
Layer Normalization
Local Response Normalization (LRN)
Pooling
PReLU
General
Execution Arguments
Implementation Details
Implementation Limitations
Performance Tips
Example
Resampling
Shuffle
Softmax
Sum
Reorder
Reduction
Abs
AbsBackward
Add
AvgPool
AvgPoolBackward
BatchNormForwardTraining
BatchNormInference
BatchNormTrainingBackward
BiasAdd
BiasAddBackward
Clamp
ClampBackward
Concat
Convolution
ConvolutionBackwardData
ConvolutionBackwardWeights
ConvTranspose
ConvTransposeBackwardData
ConvTransposeBackwardWeights
Dequantize
Divide
DynamicDequantize
DynamicQuantize
Elu
EluBackward
End
Exp
GELU
GELUBackward
HardSwish
HardSwishBackward
Interpolate
InterpolateBackward
LayerNorm
LayerNormBackward
LeakyReLU
Log
LogSoftmax
LogSoftmaxBackward
MatMul
Maximum
MaxPool
MaxPoolBackward
Minimum
Mish
MishBackward
Multiply
PReLU
PReLUBackward
Quantize
Reciprocal
ReduceL1
ReduceL2
ReduceMax
ReduceMean
ReduceMin
ReduceProd
ReduceSum
ReLU
ReLUBackward
Reorder
Round
Sigmoid
SigmoidBackward
Softmax
SoftmaxBackward
SoftPlus
SoftPlusBackward
Sqrt
SqrtBackward
Square
SquaredDifference
StaticReshape
StaticTranspose
Subtract
Tanh
TanhBackward
TypeCast
Wildcard
enum dnnl_alg_kind_t
enum dnnl_normalization_flags_t
enum dnnl_primitive_kind_t
enum dnnl_prop_kind_t
enum dnnl_query_t
enum dnnl::normalization_flags
enum dnnl::query
struct dnnl_exec_arg_t
struct dnnl_primitive
struct dnnl_primitive_desc
struct dnnl::primitive
struct dnnl::primitive_desc
struct dnnl::primitive_desc_base
enum dnnl_rnn_direction_t
enum dnnl_rnn_flags_t
enum dnnl::rnn_direction
enum dnnl::rnn_flags
struct dnnl::augru_backward
struct dnnl::augru_forward
struct dnnl::gru_backward
struct dnnl::gru_forward
struct dnnl::lbr_augru_backward
struct dnnl::lbr_augru_forward
struct dnnl::lbr_gru_backward
struct dnnl::lbr_gru_forward
struct dnnl::lstm_backward
struct dnnl::lstm_forward
struct dnnl::rnn_primitive_desc_base
struct dnnl::vanilla_rnn_backward
struct dnnl::vanilla_rnn_forward
Visible to Intel only — GUID: GUID-55C4E4B9-795D-4479-BD39-B320DDDBC98A
PReLU
General
The PReLU primitive (Leaky ReLU with trainable alpha parameter) performs forward or backward operation on data tensor. Weights (alpha) tensor supports broadcast-semantics. Broadcast configuration is assumed based on src and weights dimensions.
Example broadcasts:
broadcast type |
src dimensions |
weights dimensions |
|---|---|---|
Channel-shared |
|
|
Channel-wise |
|
|
Whole-tensor |
|
|
Shared-axes |
|
|
NOTE:
Shared-axes indicates broadcast with any combination of shared dimensions.
Forward
The PReLU operation is defined by the following formulas. We show formulas only for 2D spatial data which are straightforward to generalize to cases of higher and lower dimensions. Variable names follow the standard Naming Conventions. For no broadcast case, results are calculated using formula:
Depending on broadcast configuration, result is calculated taking into account shared dimensions of weights tensor.
Difference Between Forward Training and Forward Inference
There is no difference between the dnnl_forward_training and dnnl_forward_inference propagation kinds.
Backward
The backward propagation computes and . For no broadcast case, results are calculated using formula:
Similar to forward propagation, result is calculated taking into account shared dimensions of weights tensor. results are accumulated according to weights tensor shared dimensions, since tensor must match tensor.
Execution Arguments
When executed, the inputs and outputs should be mapped to an execution argument index as specified by the following table.
Primitive input/output |
Execution argument index |
|---|---|
|
DNNL_ARG_SRC |
|
DNNL_ARG_DST |
|
DNNL_ARG_WEIGHTS |
|
DNNL_ARG_DIFF_SRC |
|
DNNL_ARG_DIFF_DST |
|
DNNL_ARG_DIFF_WEIGHTS |
Implementation Details
General Notes
Prelu primitive requires all input/output tensors to have the same number of dimensions. Dimension sizes can differ however.
- tensor dimensions sizes must follow broadcast semantics. Each dimension can either equal corresponding data dimension or equal 1 - to indicate that dimension is shared.
Prelu primitive requires that
tensor has exact same dimensions sizes as tensor, as src and as dst.- tensor can be initialized with format_tag::any primitive will match it to data tensor format.
Data Type Support
The PReLU primitive supports the following combinations of data types:
Propagation |
Source / Destination |
|---|---|
forward / backward |
f32, s32, bf16, f16, s8, u8 |
Data Representation
The PReLU primitive works with arbitrary data tensors. There is no special meaning associated with any logical dimensions.
Implementation Limitations
Current implementation supports all tensors up to 3D spatial (n, c, d, h, w).
Performance Tips
Its recommended to allow PReLU primitive to choose the appropriate weights memory format by passing weights_md with format_tag::any. For best performance, the weights memory format should match data memory format.
Example
PReLU Primitive Example
This C++ API example demonstrates how to create and execute an PReLU primitive in forward training propagation mode.