Okay, I will get in to my big ol logic string of how I came to my conclusions and offer some clarification.
I'm primarily saying the top cast part is the same. Not the whole pump. I didn't go in to this, but my theory is there's really only 2 designs for the top casting on the pumps that use this pattern mounting flange. There's the short neck and there's the long neck. That's it.
If we look at Carter's current offerings, the Ford Windsor and IDI use the same exact upper pump casting with the longer neck and the Chevy small block and big block both use the same upper pump casting with the shorter neck. Chrysler actually uses the same housings on their pumps too, but with an extra hole drilled in them for some reason. All the vehicle-specific changes are just to the bottom bits and the arms.
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What we know for a fact is that the IDI pump used to be shorter. As HCE provided above, the 302 Windsor pump also used to be shorter. Some people on the internet say they were redesigned on purpose to keep people from mounting the arm wrong. Seems unlikely but who knows. My claim is that they didn't just used to be shorter, they used to be the same housing as the Chevy's. This is proven by the fact that Bull Diesel's Original short IDI arm fit in the pump for a chevy.
I originally thought these aftermarket high GPM pumps were a redesign that Edelbrock or Holley or someone else came up with from scratch. Nope, these are all copies of Carter re-buildable pumps. Here's an example of a Carter rebuildable pump.
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And if you think about why, it makes complete sense. Saves everyone a lot of money to re-use the same components and designs. Carter can reuse the same upper housings across a whole bunch of pumps and all the after market companies don't need to redesign a perfectly good housing. I also suspect Carter kept the arm measurements the same so they could re-use those between their standard pumps and the rebuildable ones.. the original short IDI pump arm Bull Diesel used fitting perfectly in his after market chevy pump again proves this to me.
So, all the after market manufacturers just copied these Carter housings to a T. Summit/Holley even kept the flat on the side of the housing for drilling the fulcrum pin hole despite not even using that feature on their pumps. (Likely cost cutting measure. Quicker to just stake the pin in and get rid of the drilling operation)
Alright, so where are all these GPM increases coming from if it's just the same pump? I'll use the Summit/Holley pumps as an example:
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Summit was nice enough to put all 6 versions of "their" pump on the same picture. The top row is all 80 GPM pumps for chevy small block, chevy big block, and ford windsor. Bottom row is all 110 GPM pumps for the same motors. They took all these pictures at different angles so they initially look kinda different. But if you pull each of these up, the 80 GPM pumps are all clearly the same top and bottom bits with different arms and the 110 GPM pumps are clearly the same top and bottom bits with different arms. If you start looking across other brands, they almost all look exactly the same as well. The 80 GPM pumps have a long arm on the upper house and the 110 GPM pumps have a short arm on the upper housing.
The GPM increases these guys are boasting really comes down to improvements made in the guts. Some of the manufacturers basically say that much in their descriptions. The shorter neck, IE shorter fulcrum to load distance, is actually going to end up in less diaphragm travel though. This doesn't seem to line up with the short neck being used for the higher GPM pump. However, that shorter fulcrum to load distance also creates a higher mechanical advantage. A possible theory is that they chose this shorter design to leverage the higher mechanical advantage so they could incorporate a heavier diaphragm, which would pump increased volume. The bottom half of the pump is also different between the 80 GPM and 110 GPM versions, which has to be for a reason. I opened up the SUM-250021-1 I got and it has 2 "in" valves and 1 "out" valve. I imagine the lower volume version only has 1 of each. Additionally, the bottom "reservoirs" on the higher GPM after market pumps are bigger, which is going to suck in and push out more fuel with each cycle of of the pump.
Looking at the stock carter version for the Windsor, there's really no reservoir at all. Just two tubes sticking out of the bottom. Each of those tubes can only fit one valve. So there's a couple factors on why they probably produce so much less right there, despite everything up top being the same.
The housings really don't matter (that much). All the GPM after market guys have managed to squeeze out of these pumps is due to the guts. As further proof, the rebuildable Carter pump everyone copied only produces 40 GPM! And the housing on that is clearly the same as what Edelbrock, Holley, etc have managed to get 110+ out of.
In summary:
-There's only two upper housings
-There's two lengths of arms (as far as fulcrum to load-end distance)
-Short IDI arm fit short pump
-Long IDI arm fit long pump (hypothetically. We only have real life proof the short arm fits the short pump right now)