Deterministic parallel analysis

Factor analysis is widely used in many application areas. The first step, choosing the number of factors, remains a serious challenge. One of the most popular methods is parallel analysis (PA), which compares the observed factor strengths to simulated ones under a noise-only model. This paper presents a deterministic version of PA (DPA), which is faster and more reproducible than PA. We show that DPA selects large factors and does not select small factors just like [Dobriban, 2017] shows for PA. Both PA and DPA are prone to a shadowing phenomenon in which a strong factor makes it hard to detect smaller but more interesting factors. We develop a deflated version of DPA (DDPA) that counters shadowing. By raising the decision threshold in DDPA, a new method (DDPA+) also improves estimation accuracy. We illustrate our methods on data from the Human Genome Diversity Project (HGDP). There PA and DPA select seemingly too many factors, while DDPA+ selects only a few. A Matlab implementation is available.