SCHD Risk Analysis
VaR, CVaR, drawdown, beta, correlation, and tail risk for SCHD — computed honestly with fat-tailed distributions and reported with confidence intervals.
How ARIA measures risk for SCHD
Risk for SCHD is decomposed into five families: dispersion (volatility, beta, idiosyncratic variance), tail risk (Value at Risk, Conditional VaR, fitted t-distribution degrees of freedom), drawdown (historical max, simulated 95th-percentile, recovery time), correlation (to broad market, sector, factor portfolios), and regime sensitivity (how SCHD's risk profile changes across low, medium, and high volatility regimes). Each family produces multiple metrics; ARIA reports them all rather than hiding nuance behind a single risk score.
Value at Risk (VaR) for SCHD is computed two ways. First, historical simulation: sort the trailing 1,000 daily returns, read the 5th and 1st percentiles, scale by holding period. Second, Monte Carlo: simulate 10,000 paths using t-distributed shocks (degrees of freedom fit per asset, typically 4-8 for equities) with GARCH(1,1) volatility clustering. ARIA reports the more conservative of the two methods, because the cost of underestimating VaR is much higher than the cost of overestimating it. We cover the mechanics in our blog post on Value at Risk.
Conditional VaR (also called Expected Shortfall) tells you the average loss in the worst 5% of paths for SCHD, not just where the bad tail starts. CVaR is a strictly better metric than VaR for fat-tailed distributions because it captures severity, not just frequency. A SCHD position with a 95% VaR of -8% but a CVaR of -25% is a fundamentally different risk profile than one with a 95% VaR of -10% and a CVaR of -13%. Both look reasonable on the surface; only one will survive a tail event.
Maximum drawdown for SCHD is reported in three flavors. Historical: the worst peak-to-trough decline over the trailing 1-year, 3-year, and 5-year windows. Simulated: the 95th-percentile drawdown across 10,000 Monte Carlo paths over the chosen horizon. Recovery: the time required to climb back to the previous peak after the worst observed drawdown. The simulated number is the one that matters for position sizing because the single worst historical path is unstable; the 95th percentile is robust.
Beta for SCHD is computed not just against SPY but against the Fama-French factor model (market, size, value, momentum, quality). This decomposition is informative because a high market beta with high quality-factor loading is a different bet than a high market beta with high small-cap loading. The factor decomposition tells you what kind of exposure SCHD actually provides. We also report idiosyncratic volatility — the residual variance after factor exposures are removed — which is the variance that diversification can reduce.
Position sizing for SCHD follows the Kelly criterion with two safeguards. First, we use calibrated probabilities from the ML ensemble (post-isotonic-regression), not raw scores, so the input to Kelly is honest. Second, we clamp the Kelly fraction at 5% of total capital regardless of how confident the model claims to be. Full Kelly is too aggressive for any real portfolio; fractional Kelly is the conservative choice that practitioners actually use. The Sharpe and Sortino ratios for SCHD are reported alongside, with the Sortino specifically penalizing only downside volatility — closer to how most investors actually experience risk.
See live risk metrics for SCHD
Create a free ARIA Analyst account for the full SCHD risk breakdown — VaR, CVaR, factor betas, calibrated drawdown distributions.
No credit card required. 3 analyses per day free.
FAQ — SCHD risk
What is the Value at Risk for SCHD?+
ARIA Analyst computes 1-day and 1-month VaR for SCHD at 95% and 99% confidence levels. The number tells you the loss you would not exceed with that probability under normal market conditions. We compute VaR two ways — historical simulation on trailing 1,000 returns and Monte Carlo with t-distributed shocks — and report the more conservative of the two. Sign up free to see the current SCHD VaR.
How is SCHD's maximum drawdown calculated?+
Maximum drawdown for SCHD is the largest peak-to-trough decline over the trailing window, expressed as a percentage. ARIA Analyst reports trailing 1-year, 3-year, and 5-year max drawdowns, plus the 95th-percentile drawdown across 10,000 Monte Carlo paths so you can compare historical worst-case with simulated worst-case. The distribution matters: the median MC drawdown is typically much smaller than the worst single path.
What is the beta of SCHD?+
ARIA Analyst computes SCHD's beta against multiple references — broad market (SPY), sector ETF, and the Fama-French factor model (market, size, value, momentum, quality). The factor-model decomposition is more informative than a single market beta because it tells you what kind of exposure SCHD actually gives you. A high market beta with high quality-factor loading is a different bet than a high market beta with high small-cap loading.
How does ARIA Analyst measure tail risk for SCHD?+
Tail risk for SCHD is captured through Conditional VaR (also called Expected Shortfall) — the average loss in the worst 5% of paths. ARIA Analyst reports CVaR in addition to VaR because CVaR captures the severity of the bad tail, not just where it starts. We also fit a Student's t-distribution to SCHD's returns and report the fitted degrees of freedom, which directly quantifies fat-tailedness.
What is the recommended position size for SCHD?+
ARIA Analyst applies the Kelly criterion to size positions in SCHD, then clamps the result at 5% of total capital to prevent over-concentration. The Kelly fraction uses calibrated probabilities from the ML ensemble (not raw model output) so that the sizing is based on honest hit rates rather than overconfident scores. Position sizing is reported alongside every analysis in the Premium tier.