System, method, and computer program for augmenting a physical system utilizing a network function virtualization orchestrator (NFV-O)

What is claimed is: 1. A method, comprising: operating a Network Function Virtualization Orchestrator (NFV-O) module within a physical network system, wherein the physical network system includes: a purely physical element, and a plurality of Virtual Network Functions (VNFs); monitoring, by the NFV-O, data traffic being processed by the purely physical element within the physical network system, including monitoring the data traffic for a traffic load and a traffic type, where the data traffic is being processed by the purely physical element without use of the plurality of VNFs; responsive to the monitoring, determining, by the NFV-O, that flow of further data traffic directed towards the purely physical element should be modified, based on the traffic load, the traffic type and a time of day; and virtually augmenting the purely physical element using at least one VNF of the plurality of VNFs, including directing at least a portion of the further data traffic from the purely physical element to the at least one VNF for processing thereof by the at least one VNF, when the NFV-O module determines that the flow of the further data traffic should be modified. 2. The method of claim 1 , wherein determining that the flow of the further data traffic should be modified is based on a determination that the purely physical element cannot handle the traffic load. 3. A computer program product embodied on a non-transitory computer readable medium, comprising: computer code for operating a Network Function Virtualization Orchestrator (NFV-O) module within a physical network system, wherein the physical network system includes: a purely physical element, and a plurality of Virtual Network Functions (VNFs); computer code for monitoring, by the NFV-O, data traffic being processed by the purely physical element within the physical network system, including monitoring the data traffic for a traffic load and a traffic type, where the data traffic is being processed by the purely physical element without use of the plurality of VNFs; computer code, responsive to the monitoring, for determining, by the NFV-O, that flow of further data traffic directed towards the purely physical element should be modified, based on the traffic load, the traffic type and a time of day; and computer code for virtually augmenting the purely physical element using at least one VNF of the plurality of VNFs, including directing at least a portion of the further data traffic from the purely physical element to the at least one VNF for processing thereof by the at least one VNF, when the NFV-O module determines that the flow of the further data traffic should be modified. 4. The computer program product of claim 3 , wherein the computer program product is operable such that determining that the flow of the further data traffic should be modified is based on a determination that the purely physical element cannot handle the traffic load. 5. A system comprising: a memory system; and one or more processing cores coupled to the memory system and that are each configured to: operate a Network Function Virtualization Orchestrator (NFV-O) module within a physical network system, wherein the physical network system includes: a purely physical element, and a plurality of Virtual Network Functions (VNFs); monitor, by the NFV-O, data traffic being processed by the purely physical element within the physical network system, including monitoring the data traffic for a traffic load and a traffic type, where the data traffic is being processed by the purely physical element without use of the plurality of VNFs; responsive to the monitoring, determine, by the NFV-O, that flow of further data traffic directed towards the purely physical element should be modified, based on the traffic load, the traffic type and a time of day; and virtual augmenting the purely physical element using at least one VNF of the plurality of VNFs, including directing at least a portion of the further data traffic from the purely physical element to the at least one VNF for processing thereof by the at least one VNF, when the NFV-O module determines that the flow of the further data traffic should be modified. 6. The method of claim 1 , wherein the at least one VNF to which the at least a portion of the further data traffic is directed executes in parallel with the purely physical element.