QFabric is a proprietary technology proposed by
Juniper Networks
Juniper Networks, Inc. is an American multinational corporation headquartered in Sunnyvale, California. The company develops and markets networking products, including Router (computing), routers, Network switch, switches, network management so ...
. In contrary to open standards such as
OpenFlow
OpenFlow is a communications protocol that gives access to the forwarding plane of a network switch or router (computing), router over the network.
Description
OpenFlow enables network controllers to determine the path of network packets across ...
, QFabric is regarded as a vendor proprietary approach.
Its goal is to simplify the traditional tree architecture of L2/L3 switches to a single tier any-to-any connectivity.
Competing Technologies
Competing technologies to QFabric include
IEEE 802.1aq,
MC-LAG,
VXLAN
Virtual eXtensible LAN (VXLAN) is a network virtualization technology that uses a VLAN-like encapsulation technique to encapsulate OSI model, OSI layer 2 Ethernet frames within layer 4 User Datagram Protocol, UDP datagrams, using 4789 as the defau ...
, FabricPath,
Virtual Cluster Switching (VCS), and the IETF
TRILL
TRILL (Transparent Interconnection of Lots of Links) is a networking protocol for optimizing bandwidth and resilience in Ethernet networks, implemented by devices called TRILL switches. TRILL combines techniques from bridging and routing, and ...
standard.
System Components
QFabric System Components consists of:
* QFabric Nodes - fixed-configuration edge platforms that connect to networked data center devices
* QFabric Interconnect - a high-speed transport device that connects all QFabric Nodes in a full-mesh topology
* QFabric Director - which provides control and management services for the full QFabric System
Performance Improvement
For data center architecture, QFabric creates a single logical switch that connects the entire data center rather than tiers of multiple access aggregation and core switches. The reason why this can improve performance is that, instead of going through multiple tiers of switches in a traditional network, packets only get through the infrastructure in a single hop, so this can reduce the delay significantly.
[Tim Greene,]
The Juniper QFabric FAQ
, ''Network World'', Feb 23, 2011.
For example, a typical switch can handle 200 ports, while QFabric can scale up to 6000 ports with lossless 10Gbps speed.
In a QFX3000-M QFabric System, which supports up to 768 10GbE ports, the average end-to-end latency can be as short as 3 microseconds. In QFX3000-G QFabric System, although it supports up to 6,144 10GbE ports, by connecting all nodes in a full-mesh topology, it can achieve an average port-to-port latency of 5 microseconds.
Network topology
References
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