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Fabric bandwidths are generally defined for both in and out. So, for example a 2 gig port switch, to support wire-speed or line-rate, would need a 4 Gbps fabric. The fabric bandwidth requirement is independent of frame size.
Forwarding rates are defined for traffic flowing unidirectionally through the device, so the same 2 gig port switch, to guarantee Ethernet line rate would need to provide about 2.976 Mpps. (NB: this for minimal size frames, the pps requirement would decrease for larger frames. For example, 1518 byte frame for the same 2 gig would only require .162 Mpps) (NB: for one gig, Ethernet min frames need 1.488 Mpps, 1518 byte frames need 81 Kpps.)
"So this is mean that SUP7E has capability to switch more traffic than SUP720 ?"
Yes, it does. More fabric bandwidth, and much, much, much more forwarding performance for the supervisor itself.
"Second question - what size pakets must be to gain bandwidth of 848 gbps when SUP7E IPv4 throughput is 250 mpps? 1500 byte packets give us only about 375 Gbps."
Packet size doesn't matter. To fully utilize 848 Gbps, you would need a Ethernet forwarding rate of about 285 Mpps to guarantee line-rate or wire-speed for all frame sizes.
"Catalyst 6500 Sup720 without using distributed forwarding (NO DFC3!!!) is 30 mpps"
That's for fabric line cards - half that for non-fabric line cards.
"SUP7E has so poferful architecture that dominate over Sup720 architecture 8 times???"
Correct for just for supervisor forwarding performance.
"What purpose of using such distributed architectures(as Sup720) if centralized can offer such perfomance?"
That's how the 6500 architecture offers additional forwarding performance.
dCEF720 line cards, with their DFCs, offer 48 Mpps (per card).
PS:
As the other posters have noted, the SUP7E is very recent, and its performance outclasses a SUP720 but the even more recent SUP2T with its newer corresponding line cards offers about twice the performance; 1 Tbps fabric and up to 720 Mpps in a 6513 chassis. (NB: the Mpps performance doesn't guarantee wire-speed/line-rate performance for all Ethernet packet sizes, but real-world packets generally aren't all minimum sized.)
