You're confusing "stronger" with "dimensionally stable". They are not the same thing. All the points you mention above are correct in terms of making a "stronger" piston (shot peening, manufacturing, etc). However, dimensionally stable refers to the ability of the piston to expand and contract evenly and uniformely throughout its dome and skirt and supporting material. Strength in a metal also comes with its composition (more silicon content in cast pistons typically) which leads to a low thermal expansion coefficient which is exploited for pistons, the high hardness of the silicon particles is selected for wear resistance. Thermal expansion is reduced substantially by silicon and wear resistance is usually better in hypereutectic alloys in which the hard silicon particles are well distributed either by phosphorus nucleation or by powder metallurgy fabrication. Increasing silicon content increases strength at the expense of ductility.
A cast piston has additional support and material cast into the raw blank when it is poured, meaning that areas that are thin and prone to heating faster and expanding quicker (potential for seizure) will have additional material cast into them or will have supporting points/material/lattice to ensure that this area expands and contracts evenly with the rest of the piston (heating predictability). This does not make it "stronger". Casting does produce a brittle piston, no doubt.
A forged piston cannot have this supporting work as it is pressed through a die to form its shape. Forging is a limited in this regard. The die can only have so much detail as the ingot is literally pounded into shape by male ram into a female die. The forging process is not able to produce as intricate support details in the pistons as casting, just simply due to the process. This is what makes it less dimensionally stable. You are correct in that forging produces a "stronger" piston, the material is much denser once the forging process is completed.
This is completely supported by the fact that Wiseco's need more clearance than cast pistons. If they were as stable as cast, you could get away with less clearance (similar to stock pistons) as they would not expand as much as they do. Instead, they need more clearance because they expand more and are not as "dimensionally stable". So you have to decide if you want "stronger" pistons or ones that are more "dimensionally stable". This is the age old question.
Run what you want, just make sure you heat them if they are Wiseco's.
