diff --git a/docs/reference/find_inverted_chains.html b/docs/reference/find_inverted_chains.html
index 36386fd..785c689 100644
--- a/docs/reference/find_inverted_chains.html
+++ b/docs/reference/find_inverted_chains.html
@@ -137,14 +137,14 @@
Examples
#> Chain 1: Iteration: 30 / 30 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.008 seconds (Warm-up)
-#> Chain 1: 0.007 seconds (Sampling)
-#> Chain 1: 0.015 seconds (Total)
+#> Chain 1: 0.006 seconds (Sampling)
+#> Chain 1: 0.014 seconds (Total)
#> Chain 1:
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 2).
#> Chain 2:
-#> Chain 2: Gradient evaluation took 3.8e-05 seconds
-#> Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.38 seconds.
+#> Chain 2: Gradient evaluation took 3.6e-05 seconds
+#> Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.36 seconds.
#> Chain 2: Adjust your expectations accordingly!
#> Chain 2:
#> Chain 2:
@@ -164,9 +164,9 @@ Examples
#> Chain 2: Iteration: 27 / 30 [ 90%] (Sampling)
#> Chain 2: Iteration: 30 / 30 [100%] (Sampling)
#> Chain 2:
-#> Chain 2: Elapsed Time: 0.008 seconds (Warm-up)
-#> Chain 2: 0.004 seconds (Sampling)
-#> Chain 2: 0.012 seconds (Total)
+#> Chain 2: Elapsed Time: 0.007 seconds (Warm-up)
+#> Chain 2: 0.003 seconds (Sampling)
+#> Chain 2: 0.01 seconds (Total)
#> Chain 2:
#> Warning: There were 2 chains where the estimated Bayesian Fraction of Missing Information was low. See
#> https://mc-stan.org/misc/warnings.html#bfmi-low
diff --git a/docs/reference/find_regimes.html b/docs/reference/find_regimes.html
index 2da7bd7..bc0a5da 100644
--- a/docs/reference/find_regimes.html
+++ b/docs/reference/find_regimes.html
@@ -138,8 +138,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'regime_1' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 1.8e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.18 seconds.
+#> Chain 1: Gradient evaluation took 1.7e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.17 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -182,8 +182,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'hmm_gaussian' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 0.000128 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.28 seconds.
+#> Chain 1: Gradient evaluation took 0.000127 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.27 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -208,9 +208,9 @@ Examples
#> Chain 1: Iteration: 45 / 50 [ 90%] (Sampling)
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.461 seconds (Warm-up)
-#> Chain 1: 0.36 seconds (Sampling)
-#> Chain 1: 0.821 seconds (Total)
+#> Chain 1: Elapsed Time: 0.433 seconds (Warm-up)
+#> Chain 1: 0.327 seconds (Sampling)
+#> Chain 1: 0.76 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is NA, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -439,7 +439,7 @@ Examples
#> log_lik[100] 0.17 0.02 0.09 -0.05 0.13 0.19 0.24 0.28 25 0.96
#> lp__ 114.02 0.15 0.74 112.57 113.57 114.22 114.57 114.94 25 1.09
#>
-#> Samples were drawn using NUTS(diag_e) at Fri Oct 18 16:33:38 2024.
+#> Samples were drawn using NUTS(diag_e) at Sat Oct 19 06:26:20 2024.
#> For each parameter, n_eff is a crude measure of effective sample size,
#> and Rhat is the potential scale reduction factor on split chains (at
#> convergence, Rhat=1).
diff --git a/docs/reference/find_swans.html b/docs/reference/find_swans.html
index 53a7c92..f834c35 100644
--- a/docs/reference/find_swans.html
+++ b/docs/reference/find_swans.html
@@ -127,8 +127,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 4.2e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.42 seconds.
+#> Chain 1: Gradient evaluation took 4.1e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.41 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
diff --git a/docs/reference/fit_dfa.html b/docs/reference/fit_dfa.html
index 9b2182b..f615291 100644
--- a/docs/reference/fit_dfa.html
+++ b/docs/reference/fit_dfa.html
@@ -330,8 +330,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 3.7e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.37 seconds.
+#> Chain 1: Gradient evaluation took 3.4e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.34 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -356,9 +356,9 @@ Examples
#> Chain 1: Iteration: 45 / 50 [ 90%] (Sampling)
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.012 seconds (Warm-up)
-#> Chain 1: 0.108 seconds (Sampling)
-#> Chain 1: 0.12 seconds (Total)
+#> Chain 1: Elapsed Time: 0.011 seconds (Warm-up)
+#> Chain 1: 0.101 seconds (Sampling)
+#> Chain 1: 0.112 seconds (Total)
#> Chain 1:
#> Warning: There were 16 divergent transitions after warmup. See
#> https://mc-stan.org/misc/warnings.html#divergent-transitions-after-warmup
diff --git a/docs/reference/fit_regimes.html b/docs/reference/fit_regimes.html
index ab53f00..b2e35b0 100644
--- a/docs/reference/fit_regimes.html
+++ b/docs/reference/fit_regimes.html
@@ -133,8 +133,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'regime_1' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 8e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.08 seconds.
+#> Chain 1: Gradient evaluation took 7e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.07 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -383,7 +383,7 @@ Examples
#> log_lik[100] 0.16 0.03 0.13 -0.05 0.06 0.15 0.27 0.38 17 0.97
#> lp__ 113.34 0.44 1.19 111.43 112.13 113.48 114.37 114.92 7 1.50
#>
-#> Samples were drawn using NUTS(diag_e) at Fri Oct 18 16:33:44 2024.
+#> Samples were drawn using NUTS(diag_e) at Sat Oct 19 06:26:26 2024.
#> For each parameter, n_eff is a crude measure of effective sample size,
#> and Rhat is the potential scale reduction factor on split chains (at
#> convergence, Rhat=1).
diff --git a/docs/reference/loo.html b/docs/reference/loo.html
index d106dbf..ce358fb 100644
--- a/docs/reference/loo.html
+++ b/docs/reference/loo.html
@@ -125,8 +125,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 3.6e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.36 seconds.
+#> Chain 1: Gradient evaluation took 3.5e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.35 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -152,8 +152,8 @@ Examples
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.011 seconds (Warm-up)
-#> Chain 1: 0.288 seconds (Sampling)
-#> Chain 1: 0.299 seconds (Total)
+#> Chain 1: 0.277 seconds (Sampling)
+#> Chain 1: 0.288 seconds (Total)
#> Chain 1:
#> Warning: There were 3 divergent transitions after warmup. See
#> https://mc-stan.org/misc/warnings.html#divergent-transitions-after-warmup
diff --git a/docs/reference/plot_fitted.html b/docs/reference/plot_fitted.html
index aa388b0..1b273f8 100644
--- a/docs/reference/plot_fitted.html
+++ b/docs/reference/plot_fitted.html
@@ -125,8 +125,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 4.4e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.44 seconds.
+#> Chain 1: Gradient evaluation took 4.1e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.41 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -151,9 +151,9 @@ Examples
#> Chain 1: Iteration: 45 / 50 [ 90%] (Sampling)
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.01 seconds (Warm-up)
-#> Chain 1: 0.029 seconds (Sampling)
-#> Chain 1: 0.039 seconds (Total)
+#> Chain 1: Elapsed Time: 0.009 seconds (Warm-up)
+#> Chain 1: 0.028 seconds (Sampling)
+#> Chain 1: 0.037 seconds (Total)
#> Chain 1:
#> Warning: There were 19 divergent transitions after warmup. See
#> https://mc-stan.org/misc/warnings.html#divergent-transitions-after-warmup
diff --git a/docs/reference/plot_loadings.html b/docs/reference/plot_loadings.html
index e0c6a55..b9b7695 100644
--- a/docs/reference/plot_loadings.html
+++ b/docs/reference/plot_loadings.html
@@ -136,8 +136,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 3.6e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.36 seconds.
+#> Chain 1: Gradient evaluation took 3.5e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.35 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -163,8 +163,8 @@ Examples
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.033 seconds (Warm-up)
-#> Chain 1: 0.373 seconds (Sampling)
-#> Chain 1: 0.406 seconds (Total)
+#> Chain 1: 0.361 seconds (Sampling)
+#> Chain 1: 0.394 seconds (Total)
#> Chain 1:
#> Warning: There were 1 chains where the estimated Bayesian Fraction of Missing Information was low. See
#> https://mc-stan.org/misc/warnings.html#bfmi-low
diff --git a/docs/reference/plot_regime_model.html b/docs/reference/plot_regime_model.html
index 6c10624..1d60c31 100644
--- a/docs/reference/plot_regime_model.html
+++ b/docs/reference/plot_regime_model.html
@@ -134,8 +134,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'hmm_gaussian' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 9.9e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.99 seconds.
+#> Chain 1: Gradient evaluation took 0.000117 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.17 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -160,9 +160,9 @@ Examples
#> Chain 1: Iteration: 45 / 50 [ 90%] (Sampling)
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.292 seconds (Warm-up)
-#> Chain 1: 0.686 seconds (Sampling)
-#> Chain 1: 0.978 seconds (Total)
+#> Chain 1: Elapsed Time: 0.298 seconds (Warm-up)
+#> Chain 1: 0.353 seconds (Sampling)
+#> Chain 1: 0.651 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is NA, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
diff --git a/docs/reference/plot_trends.html b/docs/reference/plot_trends.html
index 5d3c5f6..8041d05 100644
--- a/docs/reference/plot_trends.html
+++ b/docs/reference/plot_trends.html
@@ -123,8 +123,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 3.8e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.38 seconds.
+#> Chain 1: Gradient evaluation took 3.5e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.35 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -149,9 +149,9 @@ Examples
#> Chain 1: Iteration: 45 / 50 [ 90%] (Sampling)
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.013 seconds (Warm-up)
-#> Chain 1: 0.032 seconds (Sampling)
-#> Chain 1: 0.045 seconds (Total)
+#> Chain 1: Elapsed Time: 0.01 seconds (Warm-up)
+#> Chain 1: 0.005 seconds (Sampling)
+#> Chain 1: 0.015 seconds (Total)
#> Chain 1:
#> Warning: There were 1 chains where the estimated Bayesian Fraction of Missing Information was low. See
#> https://mc-stan.org/misc/warnings.html#bfmi-low
diff --git a/docs/reference/rotate_trends.html b/docs/reference/rotate_trends.html
index 419d334..2b9cb41 100644
--- a/docs/reference/rotate_trends.html
+++ b/docs/reference/rotate_trends.html
@@ -108,8 +108,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'dfa' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 3.5e-05 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.35 seconds.
+#> Chain 1: Gradient evaluation took 3.4e-05 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.34 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -134,9 +134,9 @@ Examples
#> Chain 1: Iteration: 45 / 50 [ 90%] (Sampling)
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.015 seconds (Warm-up)
-#> Chain 1: 0.173 seconds (Sampling)
-#> Chain 1: 0.188 seconds (Total)
+#> Chain 1: Elapsed Time: 0.011 seconds (Warm-up)
+#> Chain 1: 0.104 seconds (Sampling)
+#> Chain 1: 0.115 seconds (Total)
#> Chain 1:
#> Warning: There were 16 divergent transitions after warmup. See
#> https://mc-stan.org/misc/warnings.html#divergent-transitions-after-warmup
diff --git a/docs/reference/trend_cor.html b/docs/reference/trend_cor.html
index 8a45a30..95bde21 100644
--- a/docs/reference/trend_cor.html
+++ b/docs/reference/trend_cor.html
@@ -187,9 +187,9 @@ Examples
#> Chain 1: Iteration: 45 / 50 [ 90%] (Sampling)
#> Chain 1: Iteration: 50 / 50 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.021 seconds (Warm-up)
-#> Chain 1: 0.317 seconds (Sampling)
-#> Chain 1: 0.338 seconds (Total)
+#> Chain 1: Elapsed Time: 0.018 seconds (Warm-up)
+#> Chain 1: 0.292 seconds (Sampling)
+#> Chain 1: 0.31 seconds (Total)
#> Chain 1:
#> Warning: There were 1 chains where the estimated Bayesian Fraction of Missing Information was low. See
#> https://mc-stan.org/misc/warnings.html#bfmi-low
@@ -300,8 +300,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 9e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.09 seconds.
+#> Chain 1: Gradient evaluation took 8e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.08 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -318,9 +318,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is 1.09, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -334,8 +334,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -353,8 +353,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -365,8 +365,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -414,9 +414,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.005 seconds (Warm-up)
-#> Chain 1: 0.005 seconds (Sampling)
-#> Chain 1: 0.01 seconds (Total)
+#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is 1.05, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -430,8 +430,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -448,9 +448,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.013 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.015 seconds (Total)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -511,8 +511,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -541,15 +541,15 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.008 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.006 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.01 seconds (Total)
+#> Chain 1: 0.008 seconds (Total)
#> Chain 1:
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -566,9 +566,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.007 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.006 seconds (Warm-up)
#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.01 seconds (Total)
+#> Chain 1: 0.009 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -628,9 +628,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -672,8 +672,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -703,8 +703,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 5e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
+#> Chain 1: Gradient evaluation took 6e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -752,9 +752,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.007 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -783,9 +783,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.007 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.006 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.009 seconds (Total)
+#> Chain 1: 0.008 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is 1.07, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -817,9 +817,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.005 seconds (Total)
+#> Chain 1: 0.006 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -861,8 +861,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 5e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
+#> Chain 1: Gradient evaluation took 6e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -957,8 +957,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 5e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
+#> Chain 1: Gradient evaluation took 6e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -988,8 +988,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 5e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
+#> Chain 1: Gradient evaluation took 4e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.04 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1019,8 +1019,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1037,9 +1037,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.005 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.007 seconds (Total)
+#> Chain 1: 0.006 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1050,8 +1050,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 5e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
+#> Chain 1: Gradient evaluation took 6e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1068,9 +1068,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.005 seconds (Total)
+#> Chain 1: 0.006 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1167,9 +1167,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
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#> Chain 1:
-#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
-#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.005 seconds (Total)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
+#> Chain 1: 0.003 seconds (Sampling)
+#> Chain 1: 0.007 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1199,8 +1199,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
-#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.005 seconds (Total)
+#> Chain 1: 0.003 seconds (Sampling)
+#> Chain 1: 0.006 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1273,8 +1273,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1319,9 +1319,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1332,8 +1332,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1351,8 +1351,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
-#> Chain 1: 0.005 seconds (Sampling)
-#> Chain 1: 0.009 seconds (Total)
+#> Chain 1: 0.003 seconds (Sampling)
+#> Chain 1: 0.007 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is 1.1, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -1366,8 +1366,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1385,8 +1385,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
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#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1397,8 +1397,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1415,9 +1415,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
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#> Chain 1:
-#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.007 seconds (Total)
+#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1446,9 +1446,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.005 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.008 seconds (Total)
+#> Chain 1: 0.007 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1459,8 +1459,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1477,9 +1477,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.011 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.014 seconds (Total)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.006 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1490,8 +1490,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 5e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
+#> Chain 1: Gradient evaluation took 4e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.04 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1521,8 +1521,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1540,8 +1540,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.007 seconds (Total)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.006 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1571,8 +1571,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1583,8 +1583,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 5e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
+#> Chain 1: Gradient evaluation took 4e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.04 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1602,8 +1602,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
-#> Chain 1: 0.003 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.002 seconds (Sampling)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is 1.06, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -1651,8 +1651,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1670,8 +1670,8 @@ Examples
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
-#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.003 seconds (Sampling)
+#> Chain 1: 0.007 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is 1.08, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -1703,9 +1703,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.005 seconds (Total)
+#> Chain 1: 0.006 seconds (Total)
#> Chain 1:
#> Warning: The largest R-hat is 1.05, indicating chains have not mixed.
#> Running the chains for more iterations may help. See
@@ -1719,8 +1719,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1:
@@ -1737,9 +1737,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.004 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.003 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.006 seconds (Total)
+#> Chain 1: 0.005 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1799,9 +1799,9 @@ Examples
#> Chain 1: Iteration: 270 / 300 [ 90%] (Sampling)
#> Chain 1: Iteration: 300 / 300 [100%] (Sampling)
#> Chain 1:
-#> Chain 1: Elapsed Time: 0.007 seconds (Warm-up)
+#> Chain 1: Elapsed Time: 0.006 seconds (Warm-up)
#> Chain 1: 0.002 seconds (Sampling)
-#> Chain 1: 0.009 seconds (Total)
+#> Chain 1: 0.008 seconds (Total)
#> Chain 1:
#> Warning: Bulk Effective Samples Size (ESS) is too low, indicating posterior means and medians may be unreliable.
#> Running the chains for more iterations may help. See
@@ -1843,8 +1843,8 @@ Examples
#>
#> SAMPLING FOR MODEL 'corr' NOW (CHAIN 1).
#> Chain 1:
-#> Chain 1: Gradient evaluation took 6e-06 seconds
-#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.06 seconds.
+#> Chain 1: Gradient evaluation took 5e-06 seconds
+#> Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.05 seconds.
#> Chain 1: Adjust your expectations accordingly!
#> Chain 1:
#> Chain 1: