Method for operating a communication network, and network arrangement using prioritized data interchange

The invention claimed is: 1. A method for operating a network arrangement having network devices coupled to a communication network, comprising: providing network devices each having a first control device and a first switch device associated with the first control device and a second control device and a second switch device associated with the second control device, the switch devices each having a transmitting and receiving port for transmitting and receiving data via the communication network, a first internal transmitting and receiving port for transmitting and receiving data between the switch devices and a second internal transmitting and receiving port for transmitting and receiving data to/from the first and/or second control devices; generating first data by the first control device and second data by the second control device; transmitting the first data from the first control device to the second control device via the associated switch devices and transmitting the second data from the second control device to the first control device via the associated switch devices, the first and second data passing through the first and second internal transmitting and receiving ports; and prioritizing data interchange by the first and second internal receiving ports with respect to data interchange by the receiving ports for transmitting and receiving data via the communication network. 2. The method as claimed in claim 1 , also comprising: prioritizing data interchange by the second internal receiving ports with respect to data interchange by the first internal receiving ports. 3. The method as claimed in claim 1 , also comprising: wherein said step of generating first data by the first control device and second data by the second control device, further includes the first data and the second data being linked to one another by means of predefined coding; transmitting the first data and the second data from the transmitting port of the switch device for the first control device to the receiving port of the switch device for the second control device via a first communication path; and transmitting the first data and the second data from the transmitting port of the switch device for the second control device to the receiving port of the switch device for the first control device via a second communication path; and wherein the data on the first and second communication paths passing through the same network devices in the opposite direction. 4. The method as claimed in claim 3 , also comprising: transmitting the first data and the second data, via the transmitting port of the switch device for the first control device, to the receiving port of the switch device for the second control device using at least one further switch device of a further network device having a first control device and a second control device; and transmitting the first data and the second data, via the transmitting port of the switch device for the second control device, to the receiving port of the switch device for the first control device using at least one further switch device of a further network device having a first control device and a second control device; wherein, in a respective further switch device, data received at a receiving port for the second control device of the further switch device are forwarded to a transmitting port for the first control device of the further switch device, and data received at a receiving port for the first control device of the further switch device are forwarded to a transmitting port for the second control device of the further switch device. 5. The method as claimed in claim 1 , the first and second switch devices being integrated in one switch device in at least one network device. 6. The method as claimed in claim 1 , also comprising: comparing the first data with the second data in the first and/or second control device in order to generate a comparison result; and passivating the network device on the basis of the comparison result. 7. The method as claimed in claim 5 , also comprising: transmitting the first and second data again via the first and second communication paths. 8. The method as claimed in claim 5 , also comprising: in a further network device, receiving the first data and the second data at input ports for different control devices, and comparing the received data. 9. The method as claimed in claim 1 , wherein the communication network is an Ethernet network. 10. A computer program product which causes a method as claimed in claim 1 , comprising a computer readable hardware storage device having computer readable program code stored therein, said program code executable by a processor of a computer system to implement a method to be carried out on one or more program-controlled devices. 11. A data storage medium having a stored computer program with instructions which cause a method as claimed in claim 1 to be carried out on one or more program-controlled devices. 12. A network arrangement having a plurality of network devices which are coupled to a communication network, a respective network device comprising a first control device and a first switch device associated with the first control device and a second control device and a second switch device associated with the second control device, the switch devices each having a transmitting and receiving port for transmitting and receiving data via the communication network, a first internal transmitting and receiving port for transmitting and receiving data between the switch devices and a second internal transmitting and receiving port for transmitting and receiving data to/from the control device; the network devices being set up to carry out a method as claimed in claim 1 . 13. The network arrangement as claimed in claim 12 , the first and second switch devices being integrated in one switch device in at least one network device. 14. The network arrangement as claimed in claim 12 , wherein at least one switch device comprises a classification device, a queue device and a scheduler device. 15. The network arrangement as claimed in claim 12 , wherein simple network devices each having a control device and a switch device are provided in the network arrangement. 16. The network arrangement as claimed in claim 12 , wherein the network devices are each in the form of an individual FPGA, ASIC, IC chip or a hard-wired microcircuit.