If you deactivate the vanilla stamina system to fix the problem with the Vanilla "forceWalk" Bug then the hearth simulation is broken because you integrated the vanilla fatigue as multiplicator for the hearth pulse.
Before that you did run and the vanilla fatigue rise depending from weight of the gear and type of movement. That was the multiplicator for the hearth beat to increase. But after vanilla fatigue 0,6 or 0,7 the vanilla "forceWalk" kicks in before XMS2 "forceWalk".
You deactivated the vanilla stamina system completely because the vanilla "forceWalk" wasn´t to deactivate seperatly. But now the hearth beat have no multiplicator anymore so if you walk with extreme heavy load your pulse is increasing poorly slow and will regenerate to PulseStep1 very fast. ( no weapon sway whatsoever)
Maybe the dirty solution to force the vanilla fatigue ( set-to? ) not to pass the evil 0.6 and force over 0.58 back to 0.55 . Yeah, its dirty but should do the job.
Other way: Create you own multiplicator from gear load and the type of movement.
If you deactivate the vanilla stamina system to fix the problem with the Vanilla "forceWalk" Bug then the hearth simulation is broken because you integrated the vanilla fatigue as multiplicator for the hearth pulse.
Before that you did run and the vanilla fatigue rise depending from weight of the gear and type of movement. That was the multiplicator for the hearth beat to increase. But after vanilla fatigue 0,6 or 0,7 the vanilla "forceWalk" kicks in before XMS2 "forceWalk".
You deactivated the vanilla stamina system completely because the vanilla "forceWalk" wasn´t to deactivate seperatly. But now the hearth beat have no multiplicator anymore so if you walk with extreme heavy load your pulse is increasing poorly slow and will regenerate to PulseStep1 very fast. ( no weapon sway whatsoever)
Maybe the dirty solution to force the vanilla fatigue ( set-to? ) not to pass the evil 0.6 and force over 0.58 back to 0.55 . Yeah, its dirty but should do the job.
Other way: Create you own multiplicator from gear load and the type of movement.