Calling Larry Pletcher!!!! 
This can be tested
Hi Tim,
You're right- it can be tested. This came up earlier and I gave thought to doing this. I thought through the process and came up with the same conclusion that Daryl mentions below. My first thought was that I'd hate to do this to a good barrel; it could be done to a stub, scrap barrel, but running the test with a 12" chunk might yield unreliable results.
Daryl: A barrel clamped down and 3 vent locations, plugged with stoppers and changed out with vents as tested individually would be required to see any difference from vent location. I'd suggest any change might not be worth the effort. I also suggest the logistics of having a vent an inch or so down the barrel will probably cause cleaning problems, and dry-ball problems too. You'd have to pull the plug to get a dry-ball out if the ball got shoved past the vent. It's likely inserting a screw might not get it out as it came past the vent opening as it would/could bind.
Too many problems with different locations - vent at the rear sounds better all the time. It is an interesting scenario for discussion, though.In the real word of ML shooting, a gun with a forward vent could really be a pain. Imagine having a gun where the vent was 1" forward of the breech, as Darly mentions. Make a mistake with your measure and you may see pillow tick when you look into the vent. In any case you now have a barrel that has a minimum load requirement. You might not shoot a squib load very often, but with this gun couldn't.
Dan: "For the average builder the best course is a vent liner/cone that places the powder charge immediately adjacent to the powder in the pan. Vent diameter .060" -.070" should be adequate.
This will provide the fastest, most reliable ignition from pan ignition to ball out the muzzle.
How soon the pan is lit from the time the trigger pull is another variable.
If I were concerned with absolute fastest I would build a 1810-1820 Manton recessed breech lock with a Manton breech to match it. This should test the fastest based on Larry's lock timing.
There is no "trick" the entire lock and breech must be optimised for fast cock speed, sparks right in the pan and a vent/breech that ignites the main charge with minimal delay. "I think Dan's summary here is pretty good. I believe that the location of the vent (forward or back) is less important than other considerations:
Is the lock well maintained?
Does it put MANY sparks in the pan?
Is the priming powder fine grained?
Is some priming powder against the barrel?
Is the vent absolutely clean?
Does the vent allow barrel powder placement "immediately adjacent to the powder in the pan" (Dan)?
(I believe that two charges less than .030" apart ignite like a single charge. Place two charges in a flat surface .030" apart and try to ignite only one.)
When working with engineering students at the high school, we often remind them that one should concentrate efforts on the things that make the biggest improvements - don't spend time on 1% improvements when you can spend time on 15% improvements. To apply that thinking to flintlocks, imagine having a really quick chamber/vent liner, use the best priming powder, and then use dull flint.
Getting back to the topic, a test of a forward vent is something that can be done with some adjustments to my equipment
if a 10" barrel stub yields the same data as a full length barrel. That I don't know. I need to think on this some more... didn't mean to write this much.
Regards,
Pletch
