Valve actuation system comprising parallel lost motion components deployed in a rocker arm and valve bridge

What is claimed is: 1. A valve actuation system for use in an internal combustion engine comprising a cylinder, at least two engine valves associated with the cylinder and a valve actuation load path comprising a rocker arm and a valve bridge operatively connected to the at least two engine valves, the valve actuation system comprising: a single cam configured to provide a main valve actuation motion and an auxiliary valve actuation motion so as to actuate the at least two engine valves via the valve actuation load path; a lost motion subtracting mechanism arranged in the valve bridge and configured, in a first default operating state, to convey at least the main valve actuation motion and configured, in a first activated state, to lose the main valve actuation motion and the auxiliary valve actuation motion; and a lost motion adding mechanism arranged in the rocker arm and configured, in a second default operating state, to lose the auxiliary valve actuation motion and configured, in a second activated state, to convey the auxiliary valve actuation motion, wherein the lost motion adding mechanism is arranged in parallel with the lost motion subtracting mechanism in the valve actuation load path at least during the second activated state. 2. The valve actuation system of claim 1 , further comprising: an engine controller configured to operate the internal combustion engine, using the lost motion subtracting mechanism and the lost motion adding mechanism, in: a positive power mode in which the lost motion subtracting mechanism is in the first default operating state and the lost motion adding mechanism is in the second default operating state, or a deactivated mode in which the lost motion subtracting mechanism is in the first activated operating state and the lost motion adding mechanism is in the second default operating state, or an auxiliary mode in which the lost motion subtracting mechanism is in the first default operating state and the lost motion adding mechanism is in the second activated operating state. 3. The valve actuation system of claim 1 , wherein the auxiliary valve actuation motion is at least one of an early exhaust valve opening valve actuation motion, a late intake valve closing valve actuation motion or an engine braking valve actuation motion. 4. The valve actuation system of claim 1 , wherein the lost motion subtracting mechanism is a hydraulically-controlled, mechanical locking mechanism. 5. The valve actuation system of claim 1 , wherein the lost motion adding mechanism is a hydraulically-controlled actuator. 6. The valve actuation system of claim 5 , wherein the lost motion adding mechanism further comprises a hydraulically-controlled control valve providing hydraulic fluid to the hydraulically-controlled actuator. 7. The valve actuation system of claim 5 , wherein the hydraulically-controlled actuator is aligned with a first engine valve of the at least two engine valves. 8. The valve actuation system of claim 1 , further comprising: a biasing component configured to bias the rocker arm into contact with the single cam. 9. The valve actuation system of claim 8 , wherein the biasing component comprises a spring operatively connected to the rocker arm. 10. The valve actuation system of claim 8 , wherein the biasing component comprises a spring disposed in the lost motion subtracting mechanism. 11. The valve actuation system of claim 8 , further comprising: a sliding e-foot assembly arranged in the rocker arm and contacting the lost motion subtracting mechanism, wherein the biasing component comprises a spring biasing the sliding e-foot assembly into contact with the lost motion subtracting mechanism. 12. A method of operating an internal combustion engine comprising a cylinder and at least two engine valves associated with the cylinder and further comprising a single cam configured to provide a main valve actuation motion and an auxiliary valve actuation motion so as to actuate the at least two engine valves via a valve actuation load path comprising a rocker arm and a valve bridge, the method comprising: providing a lost motion subtracting mechanism arranged in the valve bridge and configured, in a first default operating state, to convey at least the main valve actuation motion and configured, in a first activated state, to lose the main valve actuation motion and the auxiliary valve actuation motion; providing a lost motion adding mechanism arranged in the rocker arm and configured, in a second default operating state, to lose the auxiliary valve actuation motion and configured, in a second activated state, to convey the auxiliary valve actuation motion, wherein the lost motion adding mechanism is arranged in parallel with the lost motion subtracting mechanism in the valve actuation load path at least during the second activated state; and operating the internal combustion engine in: a positive power mode in which the lost motion subtracting mechanism is in the first default operating state and the lost motion adding mechanism is in the second default operating state, or a deactivated mode in which the lost motion subtracting mechanism is in the first activated operating state and the lost motion adding mechanism is in the second default operating state, or an auxiliary mode in which the lost motion subtracting mechanism is in the first default operating state and the lost motion adding mechanism is in the second activated operating state.