Lifecycle management for NSI and CSI

We claim: 1. A system comprising: a first network element and a second network element; the first network element comprising: a network interface; a processor; and a non-transitory memory storing instructions that when executed by the processor cause to the first network element to implement a network slice management function (NSMF) responsible for the operation of a network slice instance (NSI) to which a first communication service instance (CSI) is deployed and a second network element, the NSMF configured to: receive an indication of a triggering event relating to an additional CSI; modify the NSI in response to the received triggering event such that NSI supports both the first CSI and the additional CSI, the NSI modification including logical topology modification and physical topology modification; receive an indication of a first triggering event relating to one of: terminating the first CSI; and terminating the additional CSI; and modify the NSI in response to receiving the indication of the first triggering event such that modifying the NSI includes changing the capability; changing the capability includes changing operation policies; and the second network element is configured to send the indication to the NSMF. 2. The system of claim 1 wherein the NSMF is further configured to implement an NSI lifecycle including: a provisioning stage, the provisioning stage including forwarding traffic to the NSI; a run-time stage; and a decommissioning stage, the decommissioning stage including a deactivation stage and a termination stage. 3. The system of claim 2 wherein the NSMF is configured to modify the NSI such that modifying the NSI includes changing capacity. 4. The system of claim 2 wherein the NSMF is configured to modify the NSI such that modifying the NSI causes modification of at least one of: the first CSI; and the additional CSI and the NSI modification overlaps with the modification of at least one of the first CSI and the additional CSI. 5. The system of claim 2 wherein the NSMF is configured to modify the NSI such that NSI modification is triggered by a modification of at least one of: the first CSI; and the additional CSI and the NSI modification overlaps with the modification of at least one of the first CSI and the additional CSI. 6. The system of claim 2 wherein the NSMF is configured to deploy any one of: the first CSI to a plurality of NSIs; and the additional CSI to a plurality of NSIs and the plurality of NSIs is one of: newly created; and existing. 7. A system comprising: a first network element and a second network element; the first network element comprising: a network interface; a processor; and a non-transitory memory storing instructions that when executed by the processor cause to the first network element to implement a network slice management function (NSMF) responsible for the operation of a network slice instance (NSI) to which a first communication service instance (CSI) is deployed and a second network element, the NSMF configured to: receive an indication of a triggering event relating to an additional CSI; modify the NSI in response to the received triggering event such that NSI supports both the first CSI and the additional CSI, the NSI modification including logical topology modification and physical topology modification; receive an indication of a first triggering event relating to one of: terminating the first CSI; and terminating the additional CSI; and modify the NSI in response to receiving the indication of the first triggering event; receive an additional indication of an additional triggering event terminating the other of the first CSI and the additional CSI; and deactivate the NSI without releasing all network resources previously allocated to the NSI so as to maintain the NSI in an inactive state for future use in response to receiving the additional indication of the additional triggering event; the additional triggering event including a trigger to reactive the NSI using at least some of the network resources previously allocated to the NSI; and the second network element is configured to send the indication to the NSMF. 8. The system of claim 7 wherein the NSMF is further configured to implement an NSI lifecycle including: a provisioning stage; a run-time stage, including a modification stage, an activation stage and a deactivation stage; and a decommissioning stage, including a termination stage; wherein deactivating the NSI without releasing all network resources previously allocated to the NSI so as to maintain the NSI in an inactive state for future use includes monitoring for further trigger events for one of: reactivating the NSI; and modifying the NSI based on service updates. 9. The system of claim 8 wherein the NSMF is configured to modify the NSI such that NSI modification is triggered by a modification of at least one of: the first CSI; and the additional CSI. 10. The system of claim 8 wherein the NSMF is configured to deploy any one of: the first CSI to a plurality of NSIs; and the additional CSI to a plurality of NSIs.