I understand that as pistons reach top dead center, their inertia is trying to pull them through the top of the combustion chamber. At that point, the rods and rod bolts are the only things keeping this from happening. At some point, there is a speed at which the inertia of the piston is enough to break either the connecting rod, or the rod bolts. What I want to know is whether or not higher compression ratios (or higher boost levels in forced induction engines) will decrease inertial loads exerted on the rods and rod bolts allowing the engine to turn higher rpms before the rods let go. If so, how much of an increase in engine speed can be expected for each full point that compression is raised?