Dear Authors, I have reviewed this document as part of the Operational directorate's ongoing effort to review all IETF documents being processed by the IESG. These comments were written with the intent of improving the operational aspects of the IETF drafts. Comments that are not addressed in last call may be included in AD reviews during the IESG review. Document editors and WG chairs should treat these comments just like any other last call comments. Document Reviewed - OSPF Two-part Metric Link to Document - https://tools.ietf.org/html/draft-ietf-ospf-two-part-metric-08 Summary: This document specifies an option extension to the OSPF protocol metric which allows calculations of said metric to consider the network-to-router and router-to-network components. The document would update both RFC2328 (OSPF Version 2) and RFC5340 (OSPF for IPv6) The document presents use cases in which such dual metric calculations can help such as with a satellite radio network. General Comments and Feedback: The document is well written and provides the needed details to describe the new functionality, and rationale for it based on real world scenarios. No specific feedback is provided on how to change the protocol and/or on updates to the document's text. Only one operationally focused question for the authors is included in this review to help provide clarity on potentially impacting events and it's effect on the routers operating in this new mode. (1). Potential Excessive recalculations [Minor] ? In Section 3.7 it notes that all routers capable of running in this new mode shall do so and advertise the RI LSA. If a new router in that area were to be connected and deemed to not be able to run in this new state, the local routers " MUST recalculate routers without considering the network-to-router costs". My question is that if a router which does not support this new mode of operation (or is specifically configured not to do so) on a network with questionable connectivity (i.e. flapping) where to join and then be timed out within the area, could this cause excessive recalculations on the remaining routers? (it's not 100% understood if the router then leaves the area again, whether the remaining routers would then recalculate again to reconsider the network-to-router costs). Should some type of dampening be used to prevent such conditions form running up the CPU and/or processing time of the routers? Textual Review, questions and feedback: None recommended.