Листовка для Cisco Cisco Prime Network Services Controller Adaptor for DFA
• Host interface—Leaf-to-server interfaces that receive traffic for connected VLANs to be extended across
the Cisco DFA fabric.
• Fabric interface—Ports through which Cisco DFA switches are connected to one another.
Cisco Dynamic Fabric Automation Overview
Cisco Dynamic Fabric Automation (DFA) optimizes data centers through integration. The Cisco DFA
architecture eliminates the need for overlay networks that can hinder traffic visibility and optimization and
reduce scalability when physical server and virtual machine environments are integrated. This architecture
enables zero-touch provisioning and greater orchestration, while delivering more predictable performance
and latency for large cloud networks. The following building blocks are the foundation of Cisco DFA:
architecture eliminates the need for overlay networks that can hinder traffic visibility and optimization and
reduce scalability when physical server and virtual machine environments are integrated. This architecture
enables zero-touch provisioning and greater orchestration, while delivering more predictable performance
and latency for large cloud networks. The following building blocks are the foundation of Cisco DFA:
• Fabric Management—Simplifies workload visibility, optimizes troubleshooting, and automates fabric
component configuration.
• Workload Automation—Integrates with automation and orchestration tools through northbound application
programming interfaces (APIs) and also provides control for provisioning fabric components by
automatically applying templates that leverage southbound APIs and/or standard-based protocols. These
automation mechanisms are also extensible to network services.
automatically applying templates that leverage southbound APIs and/or standard-based protocols. These
automation mechanisms are also extensible to network services.
• Optimized Networking—Uses a simple distributed gateway mechanism to support any subnet, anywhere,
concurrently. Existing redundancy models are also used to provide N+ redundancy across the entire
fabric.
fabric.
• Virtual Fabrics—Extends the boundaries of segmented environments to different routing and switching
instances by using logical fabric isolation and segmentation within the fabric. All of these technologies
can be combined to support hosting, cloud, and/or multitenancy environments.
can be combined to support hosting, cloud, and/or multitenancy environments.
Fabric Management
The fabric management network in Cisco Dynamic Fabric Automation (DFA) represents a dedicated out-of-band
network that is responsible for bootstrapping and managing the individual networking devices, such as spines,
leafs, and border leaf switches that are controlled by fabric management. The fabric management network is
responsible for transporting the protocols that are required for the different fabric management functions. The
following table lists the functions and protocols across the fabric management network.
network that is responsible for bootstrapping and managing the individual networking devices, such as spines,
leafs, and border leaf switches that are controlled by fabric management. The fabric management network is
responsible for transporting the protocols that are required for the different fabric management functions. The
following table lists the functions and protocols across the fabric management network.
Table 2: Functions and Protocols Across the Fabric Management Network
Protocol
Function
• Dynamic Host Configuration Protocol (DHCP)
• Trivial File Transfer Protocol (TFTP)
• Serial Control Protocol (SCP)
Power On Auto provisioning (POAP) for
automatically configuring network devices
automatically configuring network devices
Simple Network Management Protocol (SNMP)
Fabric discovery
Cisco Dynamic Fabric Automation Solution Guide
5
Information About Cisco DFA
Cisco Dynamic Fabric Automation Overview