So I actually don't think there is a clear "leader" among the popular tools. Of interest might be that this is one of the most recent pipelines from a major group in this space: https://github.com/immunogenomics/HLA-TAPAS

It would probably be best to look for similar results in more samples.

However, what I can say is that different methods had similar results for the HLA-A, HLA-B, and HLA-C genes for myself, but I got different results for the HLA-D genes.

If you consider the HLA types defined from the 2 SNPs, that means the Exome / WGS data may be better than the microarray imputations (and it also means that 23andMe decided to use those 2 SNP over the microarray imputations in what they return to customers, even though there are some papers that might use the imputations).

For some applications, I have seen some advantages for the longer read data. However, I don't have longer read sequencing for myself. Also, if you use amplicons, you need to be careful about certain sequences that may be completely missed from the targeted sequencing (and I think long-read WGS is noticeably more expensive).

The "truth" dataset can sometimes be tricky to define (and I think continual collection of results is probably very important, not just a test with a limited sample size), and I would guess the performance can vary between applications. However, if you look at consistency, there were certain HLA types (A/B/C) that were more likely to be consistent among the 4 strategies that I tested (and I would expect those are probably more robust if you continued to test strategies).