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seq(0.01, 0.99, by = 0.01), with optional user-supplied
quantile levels and weights through
exdqlmDiagnostics().exdqlmForecastDiagnostics() for held-out
exdqlmForecast() objects, reporting target-quantile check
loss and CRPS from posterior predictive forecast draws without
redefining article-side scoring helpers.exdqlmPlot() and
compPlot(), including plot = FALSE summary
extraction and user-supplied axis limits/labels, while preserving the
existing plotting defaults.exalStaticDiagnostics() objects and a
plot(..., type = "coefficients") display for static
LDVB/MCMC coefficient comparisons, with optional shared axis limits,
legend labels, and a beta.ref overlay for simulation
benchmarks.exdqlmForecast() handling of future evolution
matrices so constant fGG matrices expand across the
forecast horizon and time-varying fGG arrays are validated
against horizon k.FNN::KL.divergence() dynamic
diagnostic with a deterministic one-dimensional semiclosed KL normality
diagnostic for MAP standardized forecast errors. The scalar
KL is the primary user-facing calibration diagnostic,
KL (flipped) is a secondary sensitivity diagnostic, and
by-k sensitivity/Gaussian plug-in checks are stored under
kl.details rather than as competing top-level KL
fields.KL now
corresponds to the documented forecast-error-to-standard-normal
diagnostic KL(P_error || N(0,1)); KL (flipped)
reports the reverse direction.exdqlmLDVB: Laplace-Delta variational Bayes routine for
dynamic quantile state-space fitting under the extended asymmetric
Laplace error distribution.exdqlmISVB(), exdqlmLDVB(),
exdqlmMCMC()) through dqlm.ind = TRUE, fixing
gamma = 0 for AL/DQLM inference when desired.quantileSynthesis() for
combining posterior quantile-draw objects.regMod() and static exAL inference routines for VB/LDVB and
MCMC workflows.dqlm.ind = TRUE) in
exalStaticLDVB() and exalStaticMCMC().beta_prior = "ridge" / "rhs") in
both static LDVB and static MCMC.rhs_ns prior support for both
static LDVB and static MCMC (beta_prior = "rhs_ns"),
including slab-control aliases (a_zeta,
b_zeta, zeta2_fixed) while preserving existing
rhs and ridge behavior.exdqlmTransferLDVB() for post-fit transformed
summaries analogous to the ISVB path.exdqlmTransferMCMC() for fixed-lam
transfer-function exDQLM fitting under the dynamic MCMC workflow.fit$diagnostics$vb_trace, exposing iteration-wise ELBO,
sigma, gamma, and convergence deltas in a
plot-ready table while preserving the existing engine-specific
diagnostics.exalStatic..., exdqlmTransfer..., and
quantileSynthesis(), while retaining documented legacy ISVB
entry points where needed for backward-compatible workflows.climateIndices, a documented monthly NOI/AMO
climate-index data frame used for reproducible external-regressor
examples.exdqlmLDVB() and exdqlmTransferLDVB() are now
the main VB entry points, while exdqlmISVB() and
exdqlmTransferISVB() are documented as legacy compatibility
paths.al.ind as a static-model convenience alias for
dqlm.ind in exalStaticLDVB() and
exalStaticMCMC(), with conflict checks when both flags are
provided.fix.sigma defaults from TRUE to
FALSE for the shared dynamic exDQLM VB entry points and the
reduced dynamic DQLM CAVI helper, while preserving explicit fixed-sigma
workflows when users request them.G_{t+1} for parity with the C++ bridge and theory
derivations.psi = 0 boundary behavior in exAL
sigma updates to avoid unstable scale draws in reduced/near-reduced
settings.(sigma, gamma) transformed
objective/entropy handling with the Jacobian contract used in the static
theory reference.elbo.part in kalman.cpp
is an internal diagnostic; package-level ELBO reporting remains R-level
contract output.exalStaticMCMC and exalStaticLDVB and aligned
post-fit compatibility for exdqlm classes.arma::is_finite(...) usage in FFBS
C++ with std::isfinite(...) to eliminate compiler
deprecation warnings.exdqlm.use_cpp_builders default FALSE); no
backend default flip in this release.exdqlm.use_cpp_postpred default FALSE).tf.df.tau scheduling remains on by default, while exAL VB/MCMC
entry points apply a light (sigma, gamma) warmup unless
users explicitly override it through vb_control or
mcmc_control.sigma/gamma histories in
diagnostics objects and callbacks.BTflow dataset provenance as observed
monthly USGS streamflow and removed the unused BTprec
dataset from the package data API.options(exdqlm.use_cpp_kf = TRUE)
and options(exdqlm.use_cpp_samplers = TRUE).diagnostics$elbo recorded per ISVB iteration.options(exdqlm.compute_elbo = TRUE) and
options(exdqlm.tol_elbo = 1e-4).dexal(), pexal(), qexal(),
rexal() for density, cdf, quantile and random
generation.get_gamma_bounds() to compute valid (L, U)
bounds for gamma given p0.gamma within bounds;
clearer errors.MD5 file; added ignore so it won’t be
re-created in builds..gitkeep) from
package sources.Imports/LinkingTo
clarified; encoding/notes consistent).gamma within valid bounds for
the chosen p0.sourceCpp()).These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.
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