High pressure pump controller

The invention claimed is: 1. A high pressure pump controller for controlling a high pressure pump, comprising: a discharge energizer; an estimator; and a reenergizer, wherein the high pressure pump includes a pump chamber having an inlet and an outlet for fuel, a plunger that reciprocates within the pump chamber, a regulator valve that opens and closes a fuel passage connected to the inlet, a first spring that biases the regulator valve in a closing direction along a movement direction of the regulator valve, the regulator valve configured to close the fuel passage in the closing direction, and an electromagnetic actuator that causes the regulator valve to move to open and close, the electromagnetic actuator includes a movable portion biased by a second spring in an opening actuation direction to push the regulator valve in an opening direction, the opening direction being opposite to the closing direction, and a solenoid that, when energized, attracts the movable portion in a direction opposite to the opening actuation direction, the outlet is connected to a fuel storage unit which stores fuel to be supplied to an injector, a plunger rise period is defined as when the plunger is rising from bottom dead center to top dead center, and during the plunger rise period, the solenoid is energized to close the regulator valve such that fuel in the pump chamber is discharged from the outlet into the fuel storage unit, and during the plunger rise period, once the regulator valve is closed, even if the solenoid is deenergized, the regulator valve is maintained in a closed state by a fuel pressure of the pump chamber, the discharge energizer is configured to, during the plunger rise period, energize the solenoid to close the regulator valve and to discharge the fuel from the outlet, the discharge energizer is configure to, prior to the plunger reaching top dead center, deenergize the solenoid, the estimator is configured to estimate a valve opening timing based on a fuel pressure of the fuel storage unit, the valve opening timing being when the regulator valve begins to open the fuel passage as a result of the discharge energizer deenergizing the solenoid, and the reenergizer is configured to, upon reaching the valve opening timing estimated by the estimator, reenergize the solenoid to reduce a movement speed of the movable portion in the opening actuation direction. 2. The high pressure pump controller of claim 1 , wherein the estimator is configured to, after the discharge energizer deenergizes the solenoid, detect the fuel pressure of the fuel storage unit and estimate the valve opening timing based on the detected fuel pressure. 3. The high pressure pump controller of claim 2 , wherein the estimator is configured to detect the fuel pressure upon the plunger reaching top dead center. 4. The high pressure pump controller of claim 2 , wherein the estimator is configured to detect the fuel pressure multiple times upon the plunger reaching top dead center, and estimate the valve opening timing based on the multiple detected values. 5. The high pressure pump controller of claim 2 , wherein the estimator is configured to, as the detected fuel pressure increases, calculate the valve opening timing such that a greater period of time exists between the plunger reaching top dead center and the valve opening timing. 6. The high pressure pump controller of claim 1 , wherein the reenergizer is configured to reenergize the solenoid contemporaneous with the valve opening timing estimated by the estimator.