/**
         * Setup all of the configuration parameters.
         */
        public int SetupConfig()
        {
            /* binary OR all the return values so we can make a quick decision if our init was successful */
            int status = 0;

            /* specify sensor characteristics */
            _talon.SetFeedbackDevice(CTRE.TalonSrx.FeedbackDevice.CtreMagEncoder_Relative);
            _talon.SetSensorDirection(false); /* make sure positive motor output means sensor moves in position direction */
            // call ConfigEncoderCodesPerRev or ConfigPotentiometerTurns for Quadrature or Analog sensor types.

            /* brake or coast during neutral */
            status |= _talon.ConfigNeutralMode(CTRE.TalonSrx.NeutralMode.Brake);

            /* closed-loop and motion-magic parameters */
            status |= _talon.SetF(kSlotIdx, 0.1153f, kTimeoutMs); // 1300RPM (8874 native sensor units per 100ms) at full motor output (+1023)
            status |= _talon.SetP(kSlotIdx, 2.00f, kTimeoutMs);
            status |= _talon.SetI(kSlotIdx, 0f, kTimeoutMs);
            status |= _talon.SetD(kSlotIdx, 20f, kTimeoutMs);
            status |= _talon.SetIzone(kSlotIdx, 0, kTimeoutMs);
            status |= _talon.SelectProfileSlot(kSlotIdx); /* select this slot */
            status |= _talon.ConfigNominalOutputVoltage(0f, 0f, kTimeoutMs);
            status |= _talon.ConfigPeakOutputVoltage(+12f, -12f, kTimeoutMs);
            status |= _talon.SetMotionMagicCruiseVelocity(1000f, kTimeoutMs); // 1000 RPM
            status |= _talon.SetMotionMagicAcceleration(2000f, kTimeoutMs);   // 2000 RPM per sec, (0.5s to reach cruise velocity).

            /* Home the relative sensor,
             *  alternatively you can throttle until limit switch,
             *  use an absolute signal like CtreMagEncoder_Absolute or analog sensor.
             */
            status |= _talon.SetPosition(0, kTimeoutMs);

            return(status);
        }