First: Do you really want to offer a 100% uptime SLA for your customers, when Azure itself doesn't offer 100% in its SLA's?
That said: Traffic Manager only load-balances your compute, not your storage. So if you're trying to increase uptime by having a set of backup compute nodes running in another data center, you need to think about data access speed and cost:
- With round robin, you'll now have distributed traffic across multiple data centers, guaranteed, and constantly. And if your data is in a single data center (which is a good idea to have data in a single System of Record, unless you have replication logic all taken care of), some of your users are going to see increased latency as the nodes separated from your data are going to be requesting data across many miles (potentially between continents). Plus, data egress has a $$$ cost to it.
- With performance, your users are directed toward the data center which offers them the lowest latency. Again, this now means traffic across multiple data centers, with the same issues as round robin.
- With failover, you now have all traffic going to one data center, with another designated as your failover data center (so it's for High Availability). In the event you have an outage in the primary data center, you'd now have a failover data center to rely on. This may help justify the added latency and cost, as you'd only experience this latency+cost when your primary app location becomes unavailable for some reason.
So: If you're going for the high availability route, to help approach the 100% availability mark, I'm guessing you'd be best off with the failover model.