Activations
Special algorithms for gradient descent.
Note the below algorithms are not reflective of all of the availabe choices for activations. If you need more than the below please consider using Samediff with a much wider array of features. Samediff can be embedded in a dl4j network using the layers in:
What are activations?
At a simple level, activation functions help decide whether a neuron should be activated. This helps determine whether the information that the neuron is receiving is relevant for the input. The activation function is a non-linear transformation that happens over an input signal, and the transformed output is sent to the next neuron.
Usage
The recommended method to use activations is to add an activation layer in your neural network, and configure your desired activation:
Available activations
ActivationRectifiedTanh
Rectified tanh
Essentially max(0, tanh(x))
Underlying implementation is in native code
ActivationELU
f(x) = alpha (exp(x) - 1.0); x < 0 = x ; x>= 0
alpha defaults to 1, if not specified
ActivationReLU
f(x) = max(0, x)
ActivationRationalTanh
Rational tanh approximation From https://arxiv.org/pdf/1508.01292v3
f(x) = 1.7159 tanh(2x/3) where tanh is approximated as follows, tanh(y) ~ sgn(y) { 1 - 1/(1+|y|+y^2+1.41645y^4)}
Underlying implementation is in native code
ActivationThresholdedReLU
Thresholded RELU
f(x) = x for x > theta, f(x) = 0 otherwise. theta defaults to 1.0
ActivationReLU6
f(x) = min(max(input, cutoff), 6)
ActivationHardTanH
ActivationSigmoid
f(x) = 1 / (1 + exp(-x))
ActivationGELU
GELU activation function - Gaussian Error Linear Units
ActivationPReLU
/ Parametrized Rectified Linear Unit (PReLU)
f(x) = alpha x for x < 0, f(x) = x for x >= 0
alpha has the same shape as x and is a learned parameter.
ActivationIdentity
f(x) = x
ActivationSoftSign
f_i(x) = x_i / (1+
x_i
)
ActivationHardSigmoid
f(x) = min(1, max(0, 0.2x + 0.5))
ActivationSoftmax
f_i(x) = exp(x_i - shift) / sum_j exp(x_j - shift) where shift = max_i(x_i)
ActivationCube
f(x) = x^3
ActivationRReLU
f(x) = max(0,x) + alpha min(0, x)
alpha is drawn from uniform(l,u) during training and is set to l+u/2 during test l and u default to 1/8 and 1/3 respectively
Empirical Evaluation of Rectified Activations in Convolutional Network
ActivationTanH
f(x) = (exp(x) - exp(-x)) / (exp(x) + exp(-x))
ActivationSELU
https://arxiv.org/pdf/1706.02515.pdf
ActivationLReLU
Leaky RELU f(x) = max(0, x) + alpha min(0, x) alpha defaults to 0.01
ActivationSwish
f(x) = x sigmoid(x)
ActivationSoftPlus
f(x) = log(1+e^x)
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