Determining a sensitivity of a target variable of a rolling material from an operating variable of a hot rolling mill

The invention claimed is: 1. An operating method for a portion of a hot rolling mill, comprising: supplying a control device for the portion of the hot rolling mill with respective primary data for a plurality of rolling materials and respective provisional setpoints for target variables of the respective rolling material, the respective primary data describing the respective rolling material before being supplied to the portion of the hot rolling mill, and the respective provisional setpoints of the target variables describing a desired nominal state of the respective rolling material after passing through the portion of the hot rolling mill; determining, by the control device, operating values for the portion of the hot rolling mill such that the respective rolling material, after passing through the portion of the hot rolling mill, approaches or reaches definitive setpoints of the target variables; and operating, by the control device during processing of the respective rolling material, the portion of the hot rolling mill according to the determined operating values; wherein at least one of the target variables is a particular target variable, and the remaining target variables are normal target variables; wherein the particular target variable is at least one of: a reeling temperature defining a target temperature for the respective rolling material after passing through a cooling line; a material property of the respective rolling material comprising at least one of a proof stress, a yield strength, and a breaking strength; and a macroscopic material property of the respective rolling material comprising at least one of a tensile strength, a yield strength, and a ductile yield; wherein the control device determines the respective definitive setpoint for the particular target variable by changing the respective provisional setpoint by a respective offset which is determined independently of the primary data and the normal target variables for the respective rolling material, and also independently of the operating values of the hot rolling mill determined for processing the respective rolling material; wherein further offsets, with respect to the respective particular target variable are provided for others of the plurality of rolling materials, have multiple different values when all the rolling materials are viewed as a whole; and wherein the control device, for the normal target variables, uses the respective provisional setpoint unchanged as the respective definitive setpoint. 2. The operating method as claimed in claim 1 , wherein the respective offset is freely selectable completely or within a predefined value range. 3. The operating method as claimed in claim 1 , wherein with respect to a respective particular target variable, the actual value which would result on use of the respective provisional setpoint as a respective definitive setpoint, on condition that the operating values for the respective rolling material are not updated on passage through the portion of the hot rolling mill, would vary with a statistical spread, and the respective offset for this particular target variable is smaller than the spread. 4. The operating method as claimed in claim 3 , wherein a respective offset of the further offsets and the respective offset for this particular target variable is smaller than half the spread. 5. The operating method as claimed in claim 1 , wherein at least one of the particular target variables is a microscopic or macroscopic material property of the respective rolling material. 6. An operating method for a portion of a hot rolling mill, comprising: supplying a control device for the portion of the hot rolling mill with respective primary data for a plurality of rolling materials and respective provisional setpoints for target variables of the respective rolling material, the respective primary data describing the respective rolling material before being supplied to the portion of the hot rolling mill, and the respective provisional setpoints of the target variables describing a desired nominal state of the respective rolling material after passing through the portion of the hot rolling mill; determining, by the control device, operating values for the portion of the hot rolling mill such that the respective rolling material, after passing through the portion of the hot rolling mill, approaches or reaches definitive setpoints of the target variables; and operating, by the control device during processing of the respective rolling material, the portion of the hot rolling mill according to the determined operating values; wherein at least one of the target variables is a particular target variable, and the remaining target variables are normal target variables; wherein the control device determines the respective definitive setpoint for the particular target variable by changing the respective provisional setpoint by a respective offset which is determined independently of the primary data and the normal target variables for the respective rolling material, and also independently of the operating values of the hot rolling mill determined for processing the respective rolling material; wherein further offsets, with respect to the respective particular target variable are provided for others of the plurality of rolling materials, have multiple different values when all the rolling materials are viewed as a whole; wherein the control device, for the normal target variables, uses the respective provisional setpoint unchanged as the respective definitive setpoint; and wherein: during passage of the respective rolling material through the portion of the hot rolling mill, an actual value of a state variable of the rolling material is supplied to the control device; the state variable is one of the particular target variables, so a setpoint of the state variable corresponds to the definitive setpoint of this particular target variable, or the state variable correlates with the at least one particular target variable, so that a setpoint of the state variable is determined by the definitive setpoint of the at least one particular target variable; and on a deviation of the actual value of the state variable from the setpoint of the state variable, the control device provides at least one operating value which influences the state variable during passage of the respective rolling material through the portion of the hot rolling mill, in order to compensate for the deviation of the actual value of the state variable from the setpoint of the state variable. 7. The operating method as claimed in claim 6 , wherein with respect to a particular definitive setpoint of another particular target variable, further operating values vary with a statistical spread, and with respect to the other particular target variable, a particular offset is selected such that the mean values of the further operating values for the respective definitive setpoint of this target variable deviate by less than the spread from a respective mean value of the least one operating value which results on use of the respective provisional setpoint as the definitive setpoint of the other particular target variable. 8. The operating method as claimed in claim 7 , wherein the respective offset and the further offsets are selected such that the mean values of the at least one operating value for the respective definitive setpoint of this target variable deviate by less than half the spread. 9. An operating method for a portion of a hot rolling mill, comprising: supplying a control device for the portion of the hot rolling mill with respective primary data for a plurality of rolling materials and respective provisional setpoints for target variables of the