In which way does a spine-and-leaf architecture allow for scalability in a network when additional access ports are required?
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A. B. C. D.C
Spine-leaf architecture is typically deployed as two layers: spines (such as an aggregation layer), and leaves (such as an access layer). Spine-leaf topologies provide high-bandwidth, low-latency, nonblocking server-to-server connectivity.
Leaf (aggregation) switches are what provide devices access to the fabric (the network of spine and leaf switches) and are typically deployed at the top of the rack. Generally, devices connect to the leaf switches. Devices can include servers, Layer 4-7 services (firewalls and load balancers), and WAN or Internet routers.
Leaf switches do not connect to other leaf switches. In spine-and-leaf architecture, every leaf should connect to every spine in a full mesh.
Spine (aggregation) switches are used to connect to all leaf switches and are typically deployed at the end or middle of the row. Spine switches do not connect to other spine switches.
https://www.cisco.com/c/en/us/products/collateral/switches/nexus-9000-series-switches/guide-c07-733228.htmlA spine-and-leaf architecture is a network topology that provides a scalable and high-performance solution for modern data centers. In this architecture, the spine switch is used for interconnecting the leaf switches and providing high-speed connectivity between them.
When additional access ports are required in a spine-and-leaf architecture, the network can be scaled easily by adding more leaf switches to the network. The spine-and-leaf architecture provides several benefits for scalability:
A. A spine switch and a leaf switch can be added with redundant connections between them: One way to scale the network is to add a new spine switch and connect it to the existing spine switches using redundant links. This approach increases the bandwidth between the spine switches and provides redundancy for high availability.
B. A spine switch can be added with at least 40 GB uplinks: Another way to scale the network is to add a new spine switch with higher-speed uplinks. This approach increases the capacity of the spine switches and provides more bandwidth for the leaf switches.
C. A leaf switch can be added with connections to every spine switch: A leaf switch can be added to the network with connections to every spine switch. This approach increases the redundancy and provides more bandwidth for the leaf switches.
D. A leaf switch can be added with a single connection to a core spine switch: A leaf switch can be added to the network with a single connection to a core spine switch. This approach is suitable for smaller networks where redundancy is not a high priority.
In summary, a spine-and-leaf architecture allows for scalability in a network when additional access ports are required by adding new leaf switches or spine switches, increasing the bandwidth or redundancy of the network.