Method for controlling a continuous casting system

The invention claimed is: 1. Method for controlling a continuous casting system for producing slabs from a material, the continuous casting system having a plurality of molds for forming respective strands, the method comprising: receiving a plurality of casting orders, each casting order comprising a demand quantity of the material, a respective slab width, and tolerance specifications with respect to the casting order, determining, for each of the casting orders, from the respective demand quantity and the respective slab width, a set of slabs to be cast with associated slab weights and slab widths, sorting all slabs to be cast of all sets of all casting orders according to a sorting criterion to obtain a sorted base sequence of slabs to be cast, the sorting criterion comprising the slab widths, uniformly partitioning the sorted base sequence into a number of subsequences, the number of subsequences corresponding to a number of the molds, adjusting, for each of the subsequences, the slab widths of the slabs to be cast of the subsequence under consideration of the tolerance specifications, wherein as a result of the adjusting the slab widths, width changes between two slabs to be cast immediately successively one after the other in the subsequence do not exceed a step value, wherein adjusted subsequences are obtained as a result of the adjusted slab widths, transmitting control data to the continuous casting system for producing the slabs to be cast determined in the adjusted subsequences, wherein in the control data for each of the subsequences an order of production of the slabs corresponds to the order in which the slabs to be cast are determined in a respective one of the adjusted subsequences. 2. Method of claim 1 , wherein the continuous casting system is a multiple strand system with a plurality of strands arranged in parallel, wherein one of the molds is assigned to each strand, wherein controlling the continuous casting system is performed for parallel simultaneous production of the slabs to be cast determined in adjusted subsequences. 3. Method of claim 2 , further comprising a unique assignment of each of the subsequences to one of the strands, the assignment being such that from inner strands to outer strands an average slab width of the slabs to be cast, determined in respective ones of the adjusted subsequences, continuously decreases. 4. Method according to claim 2 , wherein each casting order comprises a KIM weight, wherein the tolerance specifications each comprise a lower limit and an upper limit with respect to the KIM weights, wherein the continuous casting system has, for each pair of strands, a common cutting system for the two strands for cutting slabs cast in parallel, wherein, for a pair of adjusted subsequences associated with one of the pairs of strands, the slabs specified at the same position of the adjusted subsequences form a pair of slabs to be cast in parallel, wherein the method further comprises, after the adjusting of the slab widths: determining, for each slab to be cast of all the subsequences, from the adapted slab widths and the associated lower and upper limits of the KIM weight corresponding minimum and maximum lengths of the slab, for each pair of slabs to be cast in parallel, determining an average value with respect to the both minimum and maximum lengths of the slabs and assigning the average value the length of the both slabs. 5. Method of claim 1 , wherein, due to the uniform partitioning, the number of slabs to be cast determined in respective ones of the adjusted subsequences is identical for all subsequences. 6. Method of claim 1 , further comprising after the adjusting of the slab widths: determining a total weight of all slabs to be cast of all the adjusted subsequences, comparing the total weight with a target weight for obtaining a comparison value, for all slabs to be cast determined in the adjusted subsequences, changing the slab weight or a slab length in a similar way based on the comparison value for obtaining updated adjusted subsequences, wherein in case when the thereby changed slab weight or the thereby changed slab length violates the tolerance specifications of the associated casting order no change in slab weight or slab length occurs, repeating the steps of the determining of the total weight, the comparing, and the changing of the slab weight or the slab length until the comparison value is within a threshold range. 7. Method of claim 6 , wherein the target weight corresponds to at least one integer multiple of a weight obtainable by providing the material from a converter. 8. Method of claim 6 , wherein the comparison value comprises a quotient of the total weight and the target weight, wherein the change in the slab weight or the slab length comprises multiplying the slab weight or the slab length by the quotient. 9. Method of claim 6 , wherein the threshold range is a deviation of the total weight from the target weight of less than 3%. 10. Method of claim 1 , further comprising after the adjusting of the slab widths for all of the slabs to be cast of all of the adjusted subsequences, changing the slab width of each slab in a similar way with concomitant shortening of its slab length while retaining its slab weight, wherein in case when the thereby changed slab width or the thereby changed slab length violates the tolerance specifications of the associated casting order no change in the slab width or the slab length occurs. 11. Method of claim 10 , wherein the sorting criterion comprises a decreasing order of the slab widths, wherein the changing of the slab width of each slab in a similar way with concomitant shortening of its slab length comprises for all slabs of an adjusted subsequence respectively: determining a first quotient of maximum allowable slab width and width of a current slab, determining a second quotient of the width of the slab immediately preceding the current slab in the subsequence and the width of the current slab, the second quotient being determined only if the current slab is not the first slab in the subsequence, determining a third quotient of the width of the slab immediately following the current slab in the subsequence plus the step value and the width of the current slab, wherein the third quotient is determined only if the current slab is not the last slab in the subsequence. 12. Method of claim 11 , wherein the changing of the slab width of each slab in a similar way with concomitant shortening of its slab length comprises for all slabs of an adjusted subsequence respectively: multiplying the width of the current slab and division of the length of the current slab by the smallest value of the first, second and third quotients, repeating the steps of the determining of the first, second and third quotients and the multiplying until either the width of the slabs no longer changes or a number of iterations is reached or exceeded. 13. Method of claim 11 , wherein the continuous casting system has, for each pair of strands, a common cutting system for the two strands for cutting slabs cast in parallel, wherein, for a pair of adjusted subsequences associated with one of the pairs of strands, the slabs specified at the same position of the adjusted subsequences form a pair of slabs to be cast in parallel, wherein the determining of the first, second and third quotients is performed for each pair of current slabs of the slabs to be cast in parallel, wherein the changing of the slab width of each slab in a similar way with concomitant shortening of its slab length comprises for all the slabs of all the pairs of the adjusted subsequences respectively: mu