Method and configuration system for configuring hardware modules in an automation system

What is claimed is: 1. A method for configuring hardware modules in an automation system, comprising: a) opening or creating a project in a project configuration software package; b) opening or generating, within said project, a station having a number of slots; c) opening a hardware catalog comprising a plurality of hardware module master data records; d) inserting at least one hardware module master data record for a hardware module from the hardware catalog into the station; e) specifying at least one environmental parameter representing ambient conditions and a configuration for a number of processor cores to be operated in cases of a multi-core processor at a deployment location of the at least one hardware module to provide customization for the at least one hardware module master data record; and f) saving a station having the at least one hardware module master data record inserted into said station and with its at least one environmental parameter and its configuration for the number of processor cores to be operated in cases of the multi-core processor. 2. The method as claimed in claim 1 , wherein said customization includes changing a maximum temperature value for an ambient temperature parameter defined in an as-delivered state of the hardware module in a direction of lower temperature values. 3. The method as claimed in claim 2 , wherein, based on a currently configured ambient temperature parameter and a stored hardware-module specific heat dissipation table, a configuration which gives a number of processor cores to be operated cases of a multi-core processor is automatically chosen when the automation system is started up or in an event of a parameterization change such that the hardware modules offer a best possible computing power for a currently specified ambient temperature parameter and are reliably cooled on account of the ambient conditions at the irrespective of the deployment location. 4. The method as claimed in claim 1 , wherein, based on a currently configured ambient temperature parameter and a stored hardware-module specific heat dissipation table, a configuration which gives a number of processor cores to be operated cases of a multi-core processor is automatically chosen when the automation system is started up or in an event of a parameterization change such that the hardware modules offer a best possible computing power for a currently specified ambient temperature parameter and are reliably cooled on account of the ambient conditions at the irrespective of the deployment location. 5. The method as claimed in claim 1 , wherein said customization is performed from a web server or an operating panel directly on the hardware modules in addition to the project configuration software package. 6. A configuration system for configuring hardware modules in an automation system configured via a project configuration software package, comprising: a creation tool for creating a project; a generation tool for generating a station having a number of slots; a hardware catalog comprising a plurality of hardware module master data records; an insertion tool for inserting at least one hardware module master data record for a hardware module from the hardware catalog into the station; a customization tool for customizing the at least one hardware module, said customization tool including a parameterization interface having a configuration tool which is configured to set and save a configuration for a number of processor cores to be operated in cases of a multi-core processor, and said customization tool being configured to customize at least one environmental parameter which represents ambient conditions at a deployment location of the at least one hardware module; and a storage tool for saving the station with the at least one hardware module master data record inserted into the station and its at least one customized environmental parameter. 7. The configuration system as claimed in claim 6 , wherein the parameterization interface is configured to display a maximum temperature value specified in an as-delivered state of the hardware module, wherein an input tool for an ambient temperature parameter is provided within the parameterization interface to change the ambient temperature parameter in a direction of lower temperature values while preventing a maximum temperature value from being exceeded. 8. The configuration system as claimed in claim 7 , further comprising: an optimization tool which is configured to automatically make available, based on a currently configured ambient temperature parameter and a stored hardware-module specific heat dissipation table, when the automation system is started up or in the event of a change in the parameterization, a configuration which gives a number of processor cores to be operated in cases of a multi-core processor and with which the hardware modules offer a best possible computing power for a currently specified ambient temperature parameter and are reliably cooled on account of the ambient conditions at the irrespective of the deployment location.