Netgear XSM4324FS M4300 FAQs - Page 4

What is active-active teaming?

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12. What are redundant top-of-rack topologies and associated benefits? For midsize server installations, two half-width M4300 10GbE models can be paired in a single rack space for redundant top-of-rack. Compared with single top-of-rack switch installation, such two-unit horizontal stacking is cost-effective yet highly efficient for HA. •Management unit hitless failover and nonstop forwarding ensures no single point of failure for servers and storage equipment •All devices can connect to both redundant top-of-rack switches using link aggregation (L2/L3/L4 LACP) with load-balancing and failover •Variety of 10 Gigabit copper and fiber ports - all backward compatible with 1G speeds - enable any type of virtualization •iSCSI Flow Acceleration and Automatic Protection / QoS enhance server room networks containing iSCSI initiators and iSCSI targets •Any 10 Gigabit copper and fiber ports can be used for stacking, depending on inter-switch links oversubscription requirements •Within the stack, a switch is elected (or chosen based on priority settings) as the "management unit" • The other switch is designated (or chosen based on priority settings) as an alternate, backup management unit •The Nonstop Forwarding (NSF) feature enables the stack to secure forwarding server and storage traffic when the management unit fails: - Power failure of the management unit - Other hardware failure causing the management unit to hang or to reset - Software failure causing the management unit to hang or to reset - Failover initiated by the administrator - Loss of cascade connectivity between the management unit and the backup unit • Instant failover from management unit to redundant management unit is hitless for the servers and storage equipment connecting both •As the backup management unit takes over, data streams may lose a few packets, but do not lose their IP sessions, such as iSCSI, NFS, CIFS etc... •Other lower end solutions are causing service interruptions across the stack for servers and storage without NSF and hitless failover •Back to normal production conditions, hitless failback requires a command in CLI or in GUI, for more control • Hitless failback is automatic in case of new management unit (triggered or accidental) failure 13. What are spine and leaf topologies and associated benefits? For typical collapsed core installations, with a variety of 1G and 10G access ports in branch offices, server rooms or campus high performance labs: M4300 10G models can stack with M4300 1G models, enabling innovative "spine and leaf" topologies (other ring topologies are also possible). •Spine and leaf architectures deliver highest performance with every leaf switch (1G) connecting to every spine switch (10G) •Every 1G "leaf" access switch connects to both 10G "spine" distribution switches •Any 10G port (copper, fiber) and any media type (RJ45, SFP+, DAC) can be used for stacking on any M4300 model •On 1G models, up to (4) 10G ports per switch can be used for stacking, hence allowing for line-rate aggregation to their spine • On 10G models, up to (16) 10G ports per switch can be used for stacking, depending on inter-switch links oversubscription requirements •Up to (8) M4300 switches can be aggregated using a virtual backplane and a single console or web management interface • While reducing the number of logical units to manage, stacking also brings network resiliency with distributed uplinks in aggregation to main core •In this architecture, both 10G "spine" switches connect to main core using 10G LACP link aggregation • Using adequate priorities in the stack, both 10G "spine" switches are meant to handle "management unit" and "backup management unit" roles •This way, management unit hitless failover and nonstop forwarding ensures no single point of failure: - Nonstop Forwarding (NSF) enables the stack to secure forwarding end-user traffic on all other switches when the management unit fails - Instant failover from management unit to backup management unit is hitless for the rest of the stack - Since both the management unit and the backup unit connect to the core using distributed link aggregation (LACP), there is no possible service interruption while the backup management unit takes over - All other switches in the stack keep forwarding L2 and L3 traffic in and out, while backup unit guarantees connectivity to the core •Back to normal production conditions, hitless failback requires a command in CLI or in GUI, for more control • Hitless failback is automatic in case of new management unit (triggered or accidental) failure •M4300 Virtual Chassis stacking technology upsurges overall network availability, providing better resiliency in network architectures, and better performance with advanced load balancing capabilities between network uplinks 14. What is active-active teaming? Any server, storage equipment or any type of host can connect to two different M4300 switches in a stack, using simple LACP Ethernet channeling. A server for instance, will use its two network cards in active-active teaming mode instead of standard failover mode. It means more performance, more bandwidth for the server for same level of redundancy: in case of a switch failure, nonstop forwarding architecture ensures no service interruption for the other switches in the stack. For the server, it means the traffic will continue to flow through the other link without noticeable effect.

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12. What are redundant top-of-rack topologies and
associated benefits?
For midsize server installations, two half-width M4300 10GbE
models can be paired in a single rack space for redundant top-of-rack.
Compared with single top-of-rack switch installation, such two-unit
horizontal stacking is cost-effective yet highly efficient for HA.
Management unit hitless failover and nonstop forwarding ensures no
single point of failure for servers and storage equipment
All devices can connect to both redundant top-of-rack switches
using link aggregation (L2/L3/L4 LACP) with load-balancing and
failover
Variety of 10 Gigabit copper and fiber ports - all backward
compatible with 1G speeds - enable any type of virtualization
iSCSI Flow Acceleration and Automatic Protection / QoS enhance
server room networks containing iSCSI initiators and iSCSI targets
Any 10 Gigabit copper and fiber ports can be used for stacking,
depending on inter-switch links oversubscription requirements
Within the stack, a switch is elected (or chosen based on priority
settings) as the “management unit”
The other switch is designated (or chosen based on priority settings)
as an alternate, backup management unit
The Nonstop Forwarding (NSF) feature enables the stack to secure
forwarding server and storage traffic when the management unit
fails:
- Power failure of the management unit
- Other hardware failure causing the management unit to hang or to
reset
- Soſtware failure causing the management unit to hang or to reset
- Failover initiated by the administrator
- Loss of cascade connectivity between the management unit and
the backup unit
Instant failover from management unit to redundant management
unit is hitless for the servers and storage equipment connecting both
As the backup management unit takes over, data streams may lose
a few packets, but do not lose their IP sessions, such as iSCSI, NFS,
CIFS etc...
Other lower end solutions are causing service interruptions across
the stack for servers and storage without NSF and hitless failover
Back to normal production conditions, hitless failback requires a
command in CLI or in GUI, for more control
Hitless failback is automatic in case of new management unit
(triggered or accidental) failure
13. What are spine and leaf topologies and associated
benefits?
For typical collapsed core installations, with a variety of 1G and
10G access ports in branch offices, server rooms or campus high
performance labs: M4300 10G models can stack with M4300 1G
models, enabling innovative “spine and leaf” topologies (other ring
topologies are also possible).
Spine and leaf architectures deliver highest performance with every
leaf switch (1G) connecting to every spine switch (10G)
Every 1G “leaf” access switch connects to both 10G “spine”
distribution switches
Any 10G port (copper, fiber) and any media type (RJ45, SFP+,
DAC) can be used for stacking on any M4300 model
On 1G models, up to (4) 10G ports per switch can be used for
stacking, hence allowing for line-rate aggregation to their spine
On 10G models, up to (16) 10G ports per switch can be used for
stacking, depending on inter-switch links oversubscription requirements
Up to (8) M4300 switches can be aggregated using a virtual
backplane and a single console or web management interface
While reducing the number of logical units to manage, stacking also
brings network resiliency with distributed uplinks in aggregation to
main core
In this architecture, both 10G “spine” switches connect to main core
using 10G LACP link aggregation
Using adequate priorities in the stack, both 10G “spine” switches are
meant to handle “management unit” and “backup management unit”
roles
This way, management unit hitless failover and nonstop forwarding
ensures no single point of failure:
- Nonstop Forwarding (NSF) enables the stack to secure forwarding
end-user traffic on all other switches when the management unit
fails
- Instant failover from management unit to backup management
unit is hitless for the rest of the stack
- Since both the management unit and the backup unit connect
to the core using distributed link aggregation (LACP), there is no
possible service interruption while the backup management unit
takes over
- All other switches in the stack keep forwarding L2 and L3 traffic in
and out, while backup unit guarantees connectivity to the core
Back to normal production conditions, hitless failback requires a
command in CLI or in GUI, for more control
Hitless failback is automatic in case of new management unit
(triggered or accidental) failure
M4300 Virtual Chassis stacking technology upsurges overall
network availability, providing better resiliency in network
architectures, and better performance with advanced load balancing
capabilities between network uplinks
14. What is active-active teaming?
Any server, storage equipment or any type of host can connect to
two different M4300 switches in a stack, using simple LACP Ethernet
channeling. A server for instance, will use its two network cards in
active-active teaming mode instead of standard failover mode. It
means more performance, more bandwidth for the server for same
level of redundancy: in case of a switch failure, nonstop forwarding
architecture ensures no service interruption for the other switches
in the stack. For the server, it means the traffic will continue to flow
through the other link without noticeable effect.