Good info.
One also has to realize with this topic that peak flow numbers don't tell the story about how well any particular intake is going to work in actual use.
The stock Chevy spread bore intakes are excellent, always have been. They were very well designed with sufficient runner volume to keep port velocity high and produce a very broad power curve. They work very well in the "normal" rpm range, and will easily support a very well though out small block engine build past 400hp and 5500rpms.
They really don't take a back seat to any of the aftermarket offerings until way up near the shift point for most street and street/strip engine builds.
Although a little time consuming and labor intensive, they can be modified under the carburetor to the same apprx size/shape as a Performer or Performer RPM intake which really wakes them up, and it does it without making the runners larger and slowing down the air velocity to the cylinder head intake ports.
The factory Pontiac intakes are very similar to the SBC units, have very wide plenum areas and well designed runners with adequate runner volume to support pretty big HP.
My factory iron intake is from a 1971 400 engine. It is modified under the carb as mentioned above, but only port matched, no porting in the runners anyplace. On the dyno we back to back tested it against the much larger and highly praised Edelbrock RPM intake. The RPM intake was also gasket matched to the heads being used.
The test engine was a 428cid engine with aftermarket aluminum heads with 260cfm intake runners, custom ground hydraulic roller cam with 236/242 @ .050" specs and .577" lift.
The "modified" factory intake made 497hp, the RPM made 491hp, no other changes!
Think about that testing for just a moment, and you will see that the larger intake brought NOTHING to the table even though it still had larger runners, smoother turns with those runners, and over 1" taller! The RPM intake was also DOWN on average power as well, which is what we look more closely at that peak power, as a typical street engine must operate over a broad rpm range and it typically pushing around a relatively heavy vehicle with moderate gearing/converter.
Another thing to consider is that an RPM intake is considerably taller making it difficult, if not near impossible to use with factory Ram Air, Shaker hoods, etc. It also requires some "cobbling" to use as the throttle cable quickly becomes too short, factory fuel lines woln't reach the carb, and you loose your divorced choke for early factory carbs, and the later Hot Air chokes must be converted to electric.
Folks don't often consider any of this when purchasing aftermarket "high performance" parts that they believe are going to give them better performance, when in many cases the only real performance benefit is the weight savings over the factory iron intake.
I'm not trying to down-play aftermarket parts here, but I love going "against the grain" with these things. Going to our local 1/8th mile track on a Friday night test and tune session and running low 7's over 96mph in full street trim with a factory intake, q-jet, HEI, stock valve covers, on 8" wide DOT's thru quiet exhaust....well.....then looks you get in the staging lanes are PRICELESS!.......Cliff
