Chapter 12 Trunks
Since WAN 2 has a smaller load balancing index (meaning that it is less utilized than WAN 1), the ZyWALL will send the subsequent new session traffic through WAN 2.
Table 73 Least Load First Example
INTERFACE | OUTBOUND |
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AVAILABLE (A) | MEASURED (M) | (M/A) | ||
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WAN 1 | 512 K | 412 K | 0.8 | |
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WAN 2 | 256 K | 198 K | 0.77 | |
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Weighted Round Robin
The Weighted Round Robin (WRR) algorithm is best suited for situations when the bandwidths set for the two WAN interfaces are different. Similar to the Round Robin (RR) algorithm (see Section 12.4 on page 279), the The Weighted Round Robin (WRR) algorithm sets the ZyWALL to send traffic through each WAN interface in turn. In addition, the WAN interfaces are assigned weights. An interface with a larger weight gets more of the traffic than an interface with a smaller weight.
For example, in the figure below, the configured available bandwidth of WAN1 is 1M and WAN2 is 512K. You can set the ZyWALL to distribute the network traffic between the two interfaces by setting the weight of wan1 and wan2 to 2 and 1 respectively. The ZyWALL assigns the traffic of two sessions to wan1 for every session's traffic assigned to wan2.
Figure 170 Weighted Round Robin Algorithm Example
Spillover
The spillover load balancing algorithm sends network traffic to the first interface in the trunk member list until the interface’s maximum allowable load is reached, then sends the excess network traffic of new sessions to the next interface in the trunk member list. This continues as long as there are more member interfaces and traffic to be sent through them.
Suppose the first trunk member interface uses an unlimited access Internet connection and the second is billed by usage. Spillover load balancing only uses the second interface when the traffic load exceeds the threshold on the first
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ZyWALL USG 50 User’s Guide |
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