I would first point out that some of the terms you are using are not technically correct. Back powder is a low explosive and does not "detonate" it "deflagrates". The flame front propagates through the material at much less than the speed of sound (in the material). A true detonation, characteristic of a high explosive, is propagated by a shock wave faster than the speed of sound in the material. While some smokeless powders can sometimes detonate (always a bad thing in a gun barrel) black powder can not. The difference is that low explosives deflagrate at hundreds of meters per second while high explosives detonate at thousands of meters per second. (TNT for example, detonates at 8, 000 to 10,000 meters per second which is way more than an order of magnitude faster than black powder.)
The ignition source in artillery systems is not a detonator. If you were to detonate the smokeless powder in an artillery piece, you would destroy the gun and its crew. As in small arms ammunition, the ignition source in an artillery shell is referred to as a primer and it burns it does not detonate. A blasting cap detonates and is designed to produce heat, pressure, and shock to cause a high explosive to truly detonate releasing the maximum amount of energy in the shortest amount of time. (Exactly what you don't want inside a gun barrel.) It is true that different artillery systems use different ignition systems, but it is not universally true that the primer is lengthened and fires radially along the axis of the propelling charge. Guns firing fixed or semi fixed ammunition (like a naval 5"-54...75 pound projectile and 15 pound propellant charge) use an elongated primer built into the shell casing. However, bag guns (like the 16" guns on a battle ship...2,000 pound projectile and 800 pound propelling charge) use a very small primer and a booster of black powder sewn onto the rear bag in the charge. The ignition method has to do with what the gun is designed for, the weight of the propelling charge, the type of powder used, the weight of the projectile, etc.
Bottom line, powder charges in guns are designed to deflagrate and are initiated by a primer or igniter. They are designed to release the chemical energy they contain in a slow (relatively), controlled fashion to transfer their energy to a moving mass. Explosives are designed to detonate and must be initiated by a detonator. They work by shattering materials around them with the shock wave they produce.
To answer your specific question, while the ignition point (i.e. position of the touch hole) might slightly effect the characteristics of the time pressure curve in the barrel, the same amount of granulated black powder will burn at the same pressure and at the same burn rate whether it is ignited in the front, back, or middle. My opinion, it would not make a detectable difference in something like a flintlock rifle.
