IEWB-RS-VOL2 Lab 8

In order to prevent multicast feeds from looping around the network, configure R1 so that it does not send any multicast traffic out its FastEthernet

• To resolve this problem, configure your network so that Microsoft SQL traffic is limited to an average rate of 256Kbps on R2’s connection to the Frame Relay cloud. • Up to 2048

• In order to cut down on the size of SW2’s routing table, configure the network so that routers in OSPF area 1 do not see any inter-area or external OSPF routes.. • Ensure

• In order to increase performance for these users, configure R6 so that HTTP traffic is guaranteed a minimum of 2Mbps of the output queue on the Frame Relay link, while SMTP traffic

• Now that the Frame Relay network is configured to conform to its provisioned rate, configure your network so that all VoIP traffic (UDP 16384 – 32767) for VLAN 46 that traverses

• Configure the BGP network in such a way that traffic from your devices going to prefixes learned from AS 54 with an even number in the first octet exit via the Frame Relay link

In order to ease in the integration of these and future devices into your BGP domain, the design team has suggested that you configure all iBGP peers of R3 (R1, R4, R5, & R6)

A Servopressure Control System for the Iron Lung, G. Gain-Phase Relations of Nonlinear Circuits, E. On the Design of Adaptive Systems, H. The Organization of Digital