vi_kl_forward: The forward Kullback-Leibler Csiszar-function in log-space
In tfprobability: Interface to 'TensorFlow Probability'
vi_kl_forward R Documentation
The forward Kullback-Leibler Csiszar-function in log-space
Description
A Csiszar-function is a member of F = { f:R_+ to R : f convex }.
Usage
vi_kl_forward(logu, self_normalized = FALSE, name = NULL)
Arguments
logu
float-like Tensor representing log(u) from above.
self_normalized
logical indicating whether f'(u=1)=0. When
f'(u=1)=0 the implied Csiszar f-Divergence remains non-negative even
when p, q are unnormalized measures.
name
name prefixed to Ops created by this function.
Details
When self_normalized = TRUE, the KL-reverse Csiszar-function is f(u) = u log(u) - (u - 1).
When self_normalized = FALSE the (u - 1) term is omitted.
Observe that as an f-Divergence, this Csiszar-function implies: D_f[p, q] = KL[q, p]
The KL is "forward" because in maximum likelihood we think of minimizing q as in KL[p, q].
Warning: when self_normalized = Truethis function makes non-log-space calculations and may therefore be numerically unstable for|logu| >> 0'.
Value
kl_forward_of_u: float-like Tensor of the Csiszar-function evaluated at
u = exp(logu).
See Also
Other vi-functions:
vi_amari_alpha(),
vi_arithmetic_geometric(),
vi_chi_square(),
vi_csiszar_vimco(),
vi_dual_csiszar_function(),
vi_fit_surrogate_posterior(),
vi_jeffreys(),
vi_jensen_shannon(),
vi_kl_reverse(),
vi_log1p_abs(),
vi_modified_gan(),
vi_monte_carlo_variational_loss(),
vi_pearson(),
vi_squared_hellinger(),
vi_symmetrized_csiszar_function()
tfprobability documentation built on Sept. 1, 2022, 5:07 p.m.
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| vi_kl_forward | R Documentation |
The forward Kullback-Leibler Csiszar-function in log-space
Description
A Csiszar-function is a member of F = { f:R_+ to R : f convex }.
Usage
vi_kl_forward(logu, self_normalized = FALSE, name = NULL)
Arguments
logu |
|
self_normalized |
|
name |
name prefixed to Ops created by this function. |
Details
When self_normalized = TRUE, the KL-reverse Csiszar-function is f(u) = u log(u) - (u - 1).
When self_normalized = FALSE the (u - 1) term is omitted.
Observe that as an f-Divergence, this Csiszar-function implies: D_f[p, q] = KL[q, p]
The KL is "forward" because in maximum likelihood we think of minimizing q as in KL[p, q].
Warning: when self_normalized = Truethis function makes non-log-space calculations and may therefore be numerically unstable for|logu| >> 0'.
Value
kl_forward_of_u: float-like Tensor of the Csiszar-function evaluated at
u = exp(logu).
See Also
Other vi-functions:
vi_amari_alpha(),
vi_arithmetic_geometric(),
vi_chi_square(),
vi_csiszar_vimco(),
vi_dual_csiszar_function(),
vi_fit_surrogate_posterior(),
vi_jeffreys(),
vi_jensen_shannon(),
vi_kl_reverse(),
vi_log1p_abs(),
vi_modified_gan(),
vi_monte_carlo_variational_loss(),
vi_pearson(),
vi_squared_hellinger(),
vi_symmetrized_csiszar_function()
R Package Documentation
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