Visible to Intel only — GUID: GUID-DF6DF5E3-E85B-4DA3-AB55-5CF279ED2662
Visible to Intel only — GUID: GUID-DF6DF5E3-E85B-4DA3-AB55-5CF279ED2662
Pooling
General
The pooling primitive performs forward or backward max or average pooling operation on 1D, 2D, or 3D spatial data.
Forward
The pooling 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.
Max pooling:
Average pooling:
Here output spatial dimensions are calculated similarly to how they are done in Convolution.
Average pooling supports two algorithms:
dnnl_pooling_avg_include_padding, in which case ,
dnnl_pooling_avg_exclude_padding, in which case equals to the size of overlap between an averaging window and images.
TODO: a picture would be nice here.
Difference Between Forward Training and Forward Inference
Max pooling requires a workspace for the dnnl_forward_training propagation kind, and does not require it for dnnl_forward_inference (see details below).
Backward
The backward propagation computes , based on and (in case of max pooling) workspace.
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 |
|
workspace |
DNNL_ARG_WORKSPACE |
DNNL_ARG_DIFF_SRC |
|
DNNL_ARG_DIFF_DST |
|
DNNL_ARG_ATTR_MULTIPLE_POST_OP(binary_post_op_position) | DNNL_ARG_SRC_1 |
Implementation Details
General Notes
During training, max pooling requires a workspace on forward (dnnl_forward_training) and backward passes to save indices where a maximum was found. The workspace format is opaque, and the indices cannot be restored from it. However, one can use backward pooling to perform up-sampling (used in some detection topologies). The workspace can be created via workspace_desc() from the pooling primitive descriptor.
A user can use memory format tag dnnl_format_tag_any for dst memory descriptor when creating pooling forward propagation. The library would derive the appropriate format from the src memory descriptor. However, the src itself must be defined. Similarly, a user can use memory format tag dnnl_format_tag_any for the diff_src memory descriptor when creating pooling backward propagation.
Data Type Support
The pooling primitive supports the following combinations of data types:
Propagation |
Source |
Destination |
Accumulation data type (used for average pooling only) |
---|---|---|---|
forward / backward |
f32 |
f32 |
f32 |
forward / backward |
bf16 |
bf16 |
bf16 |
forward / backward |
f16 |
f16 |
f32 |
forward |
s8 |
s8 |
s32 |
forward |
u8 |
u8 |
s32 |
forward |
s32 |
s32 |
s32 |
forward inference |
s8 |
u8 |
s32 |
forward inference |
u8 |
s8 |
s32 |
forward inference |
s8 |
f16 |
f32 |
forward inference |
u8 |
f16 |
f32 |
forward inference |
f16 |
s8 |
f32 |
forward inference |
f16 |
u8 |
f32 |
forward inference |
s8 |
f32 |
f32 |
forward inference |
u8 |
f32 |
f32 |
forward inference |
f32 |
s8 |
f32 |
forward inference |
f32 |
u8 |
f32 |
Data Representation
Source, Destination, and Their Gradients
Like other CNN primitives, the pooling primitive expects data to be an tensor for the 1D spatial case, an tensor for the 2D spatial case, and an tensor for the 3D spatial case.
The pooling primitive is optimized for the following memory formats:
Spatial |
Logical tensor |
Data type |
Implementations optimized for memory formats |
---|---|---|---|
1D |
NCW |
f32 |
|
1D |
NCW |
s32, s8, u8 |
|
2D |
NCHW |
f32 |
dnnl_nchw ( dnnl_abcd ), dnnl_nhwc ( dnnl_acdb ), optimized^ |
2D |
NCHW |
s32, s8, u8 |
|
3D |
NCDHW |
f32 |
dnnl_ncdhw ( dnnl_abcde ), dnnl_ndhwc ( dnnl_acdeb ), optimized^ |
3D |
NCDHW |
s32, s8, u8 |
dnnl_ndhwc ( dnnl_acdeb ), optimized^ |
Here optimized^ means the format that comes out of any preceding compute-intensive primitive.
Post-Ops and Attributes
Implementation Limitations
Refer to Data Types for limitations related to data types support.
CPU
Different data types of source and destination in forward inference are not supported.
Performance Tips
N/A
Example
Pooling Primitive Example
This C++ API example demonstrates how to create and execute a Pooling primitive in forward training propagation mode.