Concept Guide
For example, instead of deploying an Ethernet network for LAN trac, include additional storage area networks (SANs) to ensure lossless
Fibre Channel trac, and a separate InniBand network for high-performance inter-processor computing within server clusters, only one
DCB-enabled network is required in a data center. The Dell EMC Networking switches that support a unied fabric and consolidate multiple
network infrastructures use a single input/output (I/O) device called a converged network adapter (CNA).
A CNA is a computer input/output device that combines the functionality of a host bus adapter (HBA) with a network interface controller
(NIC). Multiple adapters on dierent devices for several trac types are no longer required.
Data center bridging satises the needs of the following types of data center trac in a unied fabric:
Trac Description
LAN trac LAN trac consists of many ows that are insensitive to latency requirements, while certain applications, such as
streaming video, are more sensitive to latency. Ethernet functions as a best-eort network that may drop packets
in the case of network congestion. IP networks rely on transport protocols (for example, TCP) for reliable data
transmission with the associated cost of greater processing overhead and performance impact LAN trac consists
of a large number of ows that are generally insensitive to latency requirements, while certain applications, such as
streaming video, are more sensitive to latency. Ethernet functions as a best-eort network that may drop packets
in case of network congestion. IP networks rely on transport protocols (for example, TCP) for reliable data
transmission with the associated cost of greater processing overhead and performance impact.
Storage trac Storage trac based on Fibre Channel media uses the Small Computer System Interface (SCSI) protocol for data
transfer. This trac typically consists of large data packets with a payload of 2K bytes that cannot recover from
frame loss. To successfully transport storage trac, data center Ethernet must provide no-drop service with
lossless links.
InterProcess
Communication
(IPC) trac
InterProcess Communication (IPC) trac within high-performance computing clusters to share information. Server
trac is extremely sensitive to latency requirements.
To ensure lossless delivery and latency-sensitive scheduling of storage and service trac and I/O convergence of LAN, storage, and server
trac over a unied fabric, IEEE data center bridging adds the following extensions to a classical Ethernet network:
• 802.1Qbb — Priority-based Flow Control (PFC)
• 802.1Qaz — Enhanced Transmission Selection (ETS)
• 802.1Qau — Congestion Notication
• Data Center Bridging Exchange (DCBx) protocol
NOTE
: Dell EMC Networking OS supports only the PFC, ETS, and DCBx features in data center bridging.
Priority-Based Flow Control
In a data center network, priority-based ow control (PFC) manages large bursts of one trac type in multiprotocol links so that it does not
aect other trac types and no frames are lost due to congestion.
When PFC detects congestion on a queue for a specied priority, it sends a pause frame for the 802.1p priority trac to the transmitting
device. In this way, PFC ensures that PFC-enabled priority trac is not dropped by the switch.
PFC enhances the existing 802.3x pause and 802.1p priority capabilities to enable ow control based on 802.1p priorities (classes of
service). Instead of stopping all trac on a link (as performed by the traditional Ethernet pause mechanism), PFC pauses trac on a link
according to the 802.1p priority set on a trac type. You can create lossless ows for storage and server trac while allowing for loss in
case of LAN trac congestion on the same physical interface.
The following illustration shows how PFC handles trac congestion by pausing the transmission of incoming trac with dot1p priority 4.
Data Center Bridging (DCB)
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