garch estimation on impossibly long series

The variability of garch estimates when the series has 100,000 returns.

Experiment

The post “Variability of garch estimates” showed estimates of 1000 series that were each 2000 observations long.  Here we do the same thing except that the series each have 100,000 observations.

That would be four centuries of daily data.  It’s not presently feasible to think of  a market mechanism being stable for that long.

For 1-minute returns, that is only a year of data.  Hence we could actually gather such data and feed it to a garch estimator.  The problem here is that there is significant seasonality in volatility throughout the trading day.  So to get viable results we would need a more complicated model than a garch(1,1) with t-distributed errors.

Pictures

The figures show the distributions of the estimates of:

  1. alpha and beta
  2. the half-life
  3. the degrees of freedom of the t distribution
  4. the asymptotic variance

Figure 1: Smoothed scatterplot of the alpha and beta estimates.

Figure 2: Distribution of the estimated half-life.

Figure 3: Distribution of estimated degrees of freedom.

Figure 4: Distribution of estimated asymptotic variance.

The variability in the estimate of the asymptotic variance is perhaps surprisingly high.

Appendix R

The command (see “Variability of garch estimates”  for more details) to do the estimation was:

> system.time(ges.a.100K.07 <- pp.garchEstSim(c(.01, .07, .925),
+        spec=tspec, nobs=1e5, df=7, trials=1000))
    user   system  elapsed 
28445.89  2634.36 32473.76

That is 9 hours of elapsed time.

This entry was posted in Quant finance, R language and tagged , . Bookmark the permalink.

3 Responses to garch estimation on impossibly long series

  1. stu says:

    “That would be four centuries of daily data. It’s not presently feasible to think of a market mechanism being stable for that long.”

    Very true! Way to think about it that way.

  2. Robert Young says:

    Depending on how one defines “stable”, the market for specie can be arguably stable for millennia.

  3. Pingback: Variability of garch estimates | Portfolio Probe | Generate random portfolios. Fund management software by Burns Statistics

Leave a Reply to Robert Young Cancel reply

Your email address will not be published.