Method and system for generating a time-sensitive network configuration

What is claimed is: 1. A method of generating a time-sensitive network (TSN) schedule for a desired TSN, comprising: defining a network topology of the desired TSN including at least a set of end nodes communicatively connected by way of a set of switching nodes; defining a set of device parameters for each of the set of end nodes and each of the set of switching nodes of the desired TSN, the set of device parameters including at least one scheduling metric for each of the respective set of end nodes and each of the respective set of switching nodes of the desired TSN; receiving, by a TSN scheduler, the defined network topology and at least a subset of the defined set of device parameters for each of the set of end nodes and each of the set of switching nodes; determining, by the TSN scheduler in a contiguous scheduling mode, a TSN schedule for the desired TSN based on the defined network topology and at least a subset of the defined set of device parameters for each of the set of end nodes and each of the set of switching nodes; generating, by the TSN scheduler, a per-device configuration for each of the set of end nodes, based on the TSN schedule, and programming each of the set of end nodes and each of the set of switching nodes with respective per-device configuration data; and wherein when the contiguous scheduling mode cannot be completed, the TSN scheduler is configured to default to a non-contiguous scheduling mode. 2. The method of claim 1 wherein defining the set of device parameters includes at least one limiting characteristic associated with the at least one scheduling metric for at least a subset of the end nodes or a subset of the switching nodes. 3. The method of claim 2 wherein defining the set of device parameters includes at least one limiting characteristic associated with the at least one scheduling metric for each of the set of the end nodes and each of the set of the switching nodes. 4. The method of claim 2 wherein defining the set of device parameters includes at least one limiting characteristic associated with a worst-case scheduling metric for at least a subset of the end nodes or a subset of the switching nodes. 5. The method of claim 4 wherein defining the set of device parameters includes at least one limiting characteristic associated with a worst-case scheduling performance metric for at least a subset of the end nodes or a subset of the switching nodes. 6. The method of claim 5 wherein defining the set of device parameters includes at least one limiting characteristic associated with a worst-case scheduling performance metric for each of the set of the end nodes and each of the set of the switching nodes. 7. The method of claim 1 wherein defining a set of device parameters for each of the set of end nodes and each of the set of switching nodes of the desired TSN, includes defining at least one of a maximum cycle time supported and a maximum gate interval duration supported. 8. The method of claim 1 wherein defining the set of device parameters includes at least one sub-optimal limiting characteristic associated with the at least one scheduling metric for at least a subset of the end nodes or a subset of the switching nodes. 9. The method of claim 1 wherein defining a set of device parameters for each of the set of end nodes and each of the set of switching nodes of the desired TSN, includes defining at least a first device parameter for a first end node of the set of end nodes, and defining at least a second device parameter for a second end node of the set of end nodes, wherein the first device parameter is different from the second device parameter, and wherein the first end node is different from the second end node. 10. The method of claim 1 wherein defining a set of device parameters for each of the set of end nodes and each of the set of switching nodes of the desired TSN, includes defining at least a first device parameter for a first switching node of the set of switching nodes, and defining at least a second device parameter for a second switching node of the set of switching nodes, wherein the first device parameter is different from the second device parameter, and wherein the first switching node is different from the second switching node. 11. The method of claim 1 wherein the at least a subset of the defined set of device parameters for each of the set of end nodes and each of the set of switching nodes includes a time synchronization error of each of the set of switching nodes.