All respectfully IMO...
I'm not a fan of checking timing by vacuum. That's a great way to set the perfect timing for an engine that remains at idle for it's life. My lawn mowers have locked out timing. One of my track only race cars used it too. Once one changes the throttle and rpm, that number is no longer "perfect". Most V8s with open chambers and/or low static compression ratios will want more initial timing. IMO if you need more than 20* initial there's something else off in the combo. Centrifugal is next - when it comes in and how much it adds is very subjective.
Vacuum advance can be added on top of those two (how I prefer to set things up), left off totally (sometimes necessary if the cam/engine combo puts the running vacuum levels outside the adjustability of the vacuum can), or plugged into manifold vacuum to provide more timing at idle (see above comment on wrong combo).
Some very base curves:
1. For static compression under 9.5:1, open chamber heads (typical factory displacement performance rebuild) - properly matched camshaft: 18* initial; 20* centrifugal set to start coming in at 2K rpm, all in by 3K; vacuum connected to ported vacuum and adding whatever it's got (10-18).
2. For static ratios above 9.5:1, closed chamber heads, factory displacement, properly matched camshaft - 18* initial; 12* centrifugal set to come in at 1800 and all in by 2400; vacuum in ported on top of that.
3. For static ratios above 10:1 in factory displacement, or above 9.5:1 in longer stroke combos, aluminum heads w/modern chambers, and built with effective quench; 18* initial; 10* centrifugal starting at 1500 and all in by 2200; vacuum in ported with whatever it has in it.
