Add support for fast clipping of dense layer gradients where the dimension of the input is larger than 1.

This change specifically wraps the fast clipping logic used in EinsumDense layers, which is a generalization of the Gramian-based that was used for dense layer clipping. PiperOrigin-RevId: 585809850
2023-11-27 17:58:08 -08:00 · 2023-11-27 17:58:08 -08:00 · f51b637dda
commit f51b637dda
parent b19088f048
3 changed files with 12 additions and 28 deletions
--- a/tensorflow_privacy/privacy/fast_gradient_clipping/registry_functions/BUILD
+++ b/tensorflow_privacy/privacy/fast_gradient_clipping/registry_functions/BUILD
@ -57,6 +57,7 @@ py_library(
    srcs = ["dense.py"],
    srcs_version = "PY3",
    deps = [
+        ":einsum_utils",
        "//tensorflow_privacy/privacy/fast_gradient_clipping:common_manip_utils",
        "//tensorflow_privacy/privacy/fast_gradient_clipping:type_aliases",
    ],
--- a/tensorflow_privacy/privacy/fast_gradient_clipping/registry_functions/dense.py
+++ b/tensorflow_privacy/privacy/fast_gradient_clipping/registry_functions/dense.py
@ -16,8 +16,8 @@
 from collections.abc import Mapping, Sequence
 from typing import Any, Optional
 import tensorflow as tf
-from tensorflow_privacy.privacy.fast_gradient_clipping import common_manip_utils
 from tensorflow_privacy.privacy.fast_gradient_clipping import type_aliases
+from tensorflow_privacy.privacy.fast_gradient_clipping.registry_functions import einsum_utils


 def dense_layer_computation(
@ -74,28 +74,12 @@ def dense_layer_computation(
  outputs = orig_activation(base_vars) if orig_activation else base_vars

  def sqr_norm_fn(base_vars_grads):
-    def _compute_gramian(x):
-      if num_microbatches is not None:
-        x_microbatched = common_manip_utils.maybe_add_microbatch_axis(
-            x,
-            num_microbatches,
-        )
-        return tf.matmul(x_microbatched, x_microbatched, transpose_b=True)
-      else:
-        # Special handling for better efficiency
-        return tf.reduce_sum(tf.square(x), axis=tf.range(1, tf.rank(x)))
-
-    inputs_gram = _compute_gramian(*input_args)
-    base_vars_grads_gram = _compute_gramian(base_vars_grads)
-    if layer_instance.use_bias:
-      # Adding a bias term is equivalent to a layer with no bias term and which
-      # adds an additional variable to the layer input that only takes a
-      # constant value of 1.0. This is thus equivalent to adding 1.0 to the sum
-      # of the squared values of the inputs.
-      inputs_gram += 1.0
-    return tf.reduce_sum(
-        inputs_gram * base_vars_grads_gram,
-        axis=tf.range(1, tf.rank(inputs_gram)),
+    return einsum_utils.compute_fast_einsum_squared_gradient_norm(
+        "...b,bc->...c",
+        input_args[0],
+        base_vars_grads,
+        "c" if layer_instance.use_bias else None,
+        num_microbatches,
    )

  return base_vars, outputs, sqr_norm_fn
--- a/tensorflow_privacy/privacy/fast_gradient_clipping/registry_functions/einsum_utils.py
+++ b/tensorflow_privacy/privacy/fast_gradient_clipping/registry_functions/einsum_utils.py
@ -19,7 +19,6 @@ import os
 import re
 from typing import Optional

-import numpy as np
 import tensorflow as tf
 from tensorflow_privacy.privacy.fast_gradient_clipping import common_manip_utils

@ -198,10 +197,10 @@ def _reshape_einsum_inputs(
    pivot_idx = b_idx
  # The output tensor is a batched set of matrices, split at the pivot index
  # of the previously prepped tensor.
-  base_tensor_shape = input_tensor.shape
-  batch_size = base_tensor_shape[0]
-  num_rows = int(np.prod(base_tensor_shape[1:pivot_idx]))
-  num_columns = int(np.prod(base_tensor_shape[pivot_idx:]))
+  input_shape = tf.shape(input_tensor)
+  batch_size = input_shape[0]
+  num_rows = tf.reduce_prod(input_shape[1:pivot_idx])
+  num_columns = tf.reduce_prod(input_shape[pivot_idx:])
  return tf.reshape(input_tensor, shape=[batch_size, num_rows, num_columns])