Hey

The 3-tier model is a good model for any network type I'd say. In the service provider domain we do divide the networks modules like that, and often use the same terminology.

Very valid design in either case imho. 

The diagram presented and whether it is optimal / sound, depends on geographical distribution, fiber etc. As for the logical part of the design, a bit high level but good.

Cheers

in service provider what is function of Core ? function of Agg ? function of Acc?

Well the core is in this case the label switching core, often without any bgp etc. Access is the last mile up including the PE, here you have all the different medias comming in from customers, DSL, Fiber etc.. And the distribution could be the "border" out of a pop for instance towards the rest of the network. Something like that maybe

in enterprise campus is the Core must be higher end than Acc ? 

Well it would definitely make sense to have devices in the dist / core which each handles more bandwidth, since each tier aggregates more bandwidth than the previous. But it isn't only about capacity. In larger networks the core helps to keep cost and complexity down by reducing the number of connections from the dist to the rest of the network. Another important difference is platform features from access with lots of different transport medias and access technologies over distribution where we are sort of bundling all of that and overlaying the transport of that over our underlying network, the core - which then has to be redundant and have enough capacity for customer traffic.

Hey

You are right the placement of your RRs is important - and I agree with @filopeter. Your RRs are control plane nodes, and as such don't need to be placed on nodes in the core. It is perfectly okay to place them in separate datacenters for instance as virtual routers where you can more easily size the up as needed.
I would also start thinking about the fact that your RRs simplify your forwarding tables by only presenting the network with only one best route. Is this good for you, for scale for instance, or do you need to have more paths in the network etc.
Also, consider the benefits of splitting your control plane up into address families by placing for instance EVPN away from L3VPNs in different RRs. 

Personally I prefer to keep the core free of PE functionality and simply setup an extra set of PEs for IX'ing and other stuff. I want to keep my mpls core as stable and steady state as possible. As soon as you introduce PE functionality on a core node you also expose that node to the instabilities of config errors, troubleshooting mistakes, qos policies and what not. 
 

Thank you @kim for your actively participating in this topic.

The idea behind all router just L1 is coming from a blog which explained CCIE topics. I think I should change my mind.

I'm going to have Unequal load Sharing in IGP (all routers are IOS-XR) and MPLS traffic engineering so I will have multiple paths to reach to my destinations. As you know RRs present the best routes from their point of views. In my plan, I believe I will have sub-optimal routing issues. So, I decided to utilize BGP Optimal Route Reflection feature in my LLD. Have you ever experienced with this feature? Any experience will be valuable to me.

Hi,

from my understanding BGP ORR is used to find the best AS exit point (eBGP peering). In iBGP environment, in case of load sharing inside your AS, I would consider to implement iBGP multipath.