Which two options describe benefits of aggregated chassis technology? (Choose two.)
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A. B. C. D. E. F.BD
Aggregated chassis technology is a networking technology that allows multiple physical switches to be logically combined into a single logical switch. This technology is commonly used in data center and enterprise networks where high availability and scalability are required. The technology provides several benefits, two of which are discussed below:
One of the primary benefits of aggregated chassis technology is that it reduces the management overhead. In a traditional network architecture, each switch needs to be managed separately. This can be a challenging task, especially in large networks that have hundreds of switches. With aggregated chassis technology, multiple switches are logically combined into a single switch, which can be managed as a single entity. This reduces the management overhead and makes it easier to manage the network.
Another benefit of aggregated chassis technology is that it supports redundant configuration files. In traditional network architectures, each switch has its own configuration file, which can be difficult to manage. With aggregated chassis technology, multiple switches share a single configuration file. This means that if one switch fails, the other switches can continue to operate using the same configuration file. This provides high availability and reduces the risk of network downtime.
Based on the given options, options A and B are the correct answers. Option A is correct because aggregated chassis technology allows multiple switches to share a single configuration file, which provides support for redundant configuration files. Option B is also correct because aggregated chassis technology reduces the management overhead by allowing multiple switches to be managed as a single entity.
Option C is incorrect because aggregated chassis technology does not require only three IP addresses per VLAN. The number of IP addresses required per VLAN depends on the network design and the number of devices connected to the VLAN.
Option D is incorrect because aggregated chassis technology does not require only one IP address per VLAN. Again, the number of IP addresses required per VLAN depends on the network design and the number of devices connected to the VLAN.
Option E is incorrect because the support for HSRP, VRRP, and GLBP is not related to aggregated chassis technology. These are routing protocols that provide redundancy for IP networks.
Option F is also incorrect because the physical distance between switches is limited by the maximum length of the cables used to connect them. Aggregated chassis technology does not allow switches to be located anywhere regardless of their physical distance from one another.