Bfloat16 Training¶
Introduction¶
On the path to better performance, a recent proposal introduces the idea of working with a bfloat16 (bf16
) 16-bit floating point data type based on the IEEE 32-bit single-precision floating point data type (f32
).
Both bf16
and f32
have an 8-bit exponent. However, while f32
has a 23-bit mantissa, bf16
has only a 7-bit one, keeping only the most significant bits. As a result, while these data types support a very close numerical range of values, bf16
has a significantly reduced precision. Therefore, bf16
occupies a spot between f32
and the IEEE 16-bit half-precision floating point data type, f16
. Compared directly to f16
, which has a 5-bit exponent and a 10-bit mantissa, bf16
trades increased range for reduced precision.
More details of the bfloat16 data type can be found at Intel’s site and TensorFlow’s documentation.
One of the advantages of using bf16
versus f32
is reduced memory footprint and, hence, increased memory access throughput. Additionally, when executing on hardware that supports Intel DL Boost bfloat16 instructions, bf16
may offer an increase in computational throughput.
bfloat16 Support¶
Most of the primitives have been updated to support the bf16
data type for source and weights tensors. Destination tensors can be specified to have either the bf16
or f32
data type. The latter is intended for cases in which the output is to be fed to operations that do not support bfloat16 or require better precision.
bfloat16 Workflow¶
The main difference between implementing training with the f32
data type and with the bf16
data type is the way the weights updates are treated. With the f32
data type, the weights gradients have the same data type as the weights themselves. This is not necessarily the case with the bf16
data type as oneDNN allows some flexibility here. For example, one could maintain a master copy of all the weights, computing weights gradients in f32
and converting the result to bf16
afterwards.
Example¶
The CNN bf16 training example shows how to use bf16
to train CNNs.