I can see why you might think that but it's not exactly correct.
Timing is indexed on load (boost). The higher the boost the lower timing is mapped and timing will go down as boost goes up based on it's indexed mapping. Boost is governed primarily by a PID WGDC system with throttle integrated as a backstop. When boost goes over target PID aside the other response is proportional throttle closure. If you get enough throttle closure the difference between TMAP boost (psi in JB4 log) and manifold boost (psi2 in JB4 log) will be greater than the pressure holding the diverters closed and they will blow open. The diverter vacuum line also runs through a solenoid (unless you bypass it) allowing the ECU the option to open it more quickly when letting off the gas at higher RPM to better limit surging and the blow off noise.
Timing is generally reduced to limit toque not boost, for example when you're shifting timing is reduced momentarily and trans line pressure momentarily increased. That is the same behavior you're feeling now in park with the brake wire cut. The car would normally not increase line pressure when shifting in to drive at a stop to avoid that thud but with the cut it doesn't know your foot is on the brake.
On your timing drop as I said I think that is a torque limiter in the flash that needs to be raised. You'll need to do more runs like that to see if it's a trend or an outlier. Torque limiter interactions are normally really aggressive as we see in your log. In a perfect world we'd have boost set point and torque set point in the Stinger JB4 logs like we do on other models. I just haven't found a logging source for those yet to figure out how to log them.
You can see the basic operation in place in your other launch log. The launch boost target normally is around 0psi. Since throttle boost is is greater than 0psi the throttle closes proportionally so that manifold boost maintains the 0psi target. You'll note there is no timing reduction during this despite boost being so far over target throttle is closed to 40%. Timing is right where you'd expect it to be mapped for ~0psi.
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