Lines Matching refs:sustainable_power

26     P_max = k_p * e + k_i * err_integral + k_d * diff_err + sustainable_power
70 to the speed-grade of the silicon.  `sustainable_power` is therefore
89 `thermal_zone_params` that has a `sustainable_power`.  If no
94 		.sustainable_power = 3500,
120     2 * sustainable_power / (desired_temperature - switch_on_temp)
123 proportional term will be 2 * `sustainable_power`.  The default value
126     sustainable_power / (desired_temperature - switch_on_temp)
131     P_max = k_p * e + sustainable_power
136 `P_max` = `sustainable_power`.  That is, the system should operate in
137 thermal equilibrium under constant load.  `sustainable_power` is only
142     P_max = 2 * sustainable_power * (T_set - T) / (T_set - T_on) +
143 	sustainable_power
154     P_max = 2 * sustainable_power * (T_set - T_on) / (T_set - T_on) +
155 	sustainable_power = 2 * sustainable_power + sustainable_power =
156 	3 * sustainable_power
159 3 * `sustainable_power` to `sustainable_power` as the temperature