Avaya 5520-48T-PWR AL1001E05-E5 Manuel D’Utilisation
Codes de produits
AL1001E05-E5
avaya.com
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High-performance data center
edge
edge
The high-performance, low-latency
and high-availability requirements of
the modern data center make the ERS
5000 Series perfect for server access
as a top-of-rack solution. By utilizing
Avaya’s innovative ‘horizontal
stacking’ capability – a switch at the
top of each server rack, stacked
‘horizontally’ – the ERS 5000 series
can support cost-effective, high-
density server connections. Up to
400 Gigabit ports and multiple
10GbE uplinks per stack can be
deployed in this manner
(see Figure 1).
and high-availability requirements of
the modern data center make the ERS
5000 Series perfect for server access
as a top-of-rack solution. By utilizing
Avaya’s innovative ‘horizontal
stacking’ capability – a switch at the
top of each server rack, stacked
‘horizontally’ – the ERS 5000 series
can support cost-effective, high-
density server connections. Up to
400 Gigabit ports and multiple
10GbE uplinks per stack can be
deployed in this manner
(see Figure 1).
Avaya’s Switch Clustering technology
can further enhance overall resiliency
through addition of a second
horizontally-stacked ‘Top-of-Rack’
series of switches. Connected servers
can then be ‘dual-homed’ to separate
stacks of ERS 5000 Switches, which
in turn appear as a single, logical
switch to the rest of the network. This
enables active-active connections,
load-balancing and sub-second
failover across the stacks. These
features make the ERS 5000 series a
truly cost-effective data center
solution that combines always-on
resiliency with high-performance
connectivity.
can further enhance overall resiliency
through addition of a second
horizontally-stacked ‘Top-of-Rack’
series of switches. Connected servers
can then be ‘dual-homed’ to separate
stacks of ERS 5000 Switches, which
in turn appear as a single, logical
switch to the rest of the network. This
enables active-active connections,
load-balancing and sub-second
failover across the stacks. These
features make the ERS 5000 series a
truly cost-effective data center
solution that combines always-on
resiliency with high-performance
connectivity.
Highly scalable small core
The ERS 5000 Series can also serve
as a high-performing, feature-rich
small Core solution. With high-
density 10GbE and SFP ports (up to
64 10GbE and 192 SFP ports per
stack), the ERS 5530-24TFD and
5632FD models are particularly well-
as a high-performing, feature-rich
small Core solution. With high-
density 10GbE and SFP ports (up to
64 10GbE and 192 SFP ports per
stack), the ERS 5530-24TFD and
5632FD models are particularly well-
suited to small core applications.
Coupled with dynamic routing
protocol support (RIP/ OSPF) – and
field-replaceable, redundant power in
the 5600 models — the ERS 5000
series can provide low-cost, resilient
small core solutions.
Coupled with dynamic routing
protocol support (RIP/ OSPF) – and
field-replaceable, redundant power in
the 5600 models — the ERS 5000
series can provide low-cost, resilient
small core solutions.
The ERS 5000 Series can also act as
a Switch Cluster supporting other
ERS 3500, 4000 or third-party
access switches (see Figure 2) using
Avaya’s Switch Clustering technology
(SMLT). ERS 5000s in this
configuration can provide up to 800
ports and over 2.3 Terabits of always-
on performance – while enabling full
use of all switches and links across
the network.
a Switch Cluster supporting other
ERS 3500, 4000 or third-party
access switches (see Figure 2) using
Avaya’s Switch Clustering technology
(SMLT). ERS 5000s in this
configuration can provide up to 800
ports and over 2.3 Terabits of always-
on performance – while enabling full
use of all switches and links across
the network.
A comprehensive suite of Layer 3
Routing protocols helps ensure that
the ERS 5000 Series can be a truly
effective core switch for the smaller
network. IPv4 is supported along with
IPv6 Static Routes, Auto-Address
Assignment, and IPv4/ IPv6
Tunneling. Multicast support includes
PIM-SM/SSM capabilities across the
stack, along with full IGMPv3 support.
Routing protocols helps ensure that
the ERS 5000 Series can be a truly
effective core switch for the smaller
network. IPv4 is supported along with
IPv6 Static Routes, Auto-Address
Assignment, and IPv4/ IPv6
Tunneling. Multicast support includes
PIM-SM/SSM capabilities across the
stack, along with full IGMPv3 support.
High-density wiring closet
With its non-blocking design, high-
density GbE and integrated 10GbE
port options, the Ethernet Routing
Switch 5000 Series is perfectly suited
as a high-performance, highly
available connectivity solution in the
wiring closet. Up to eight ERS 5000
Switches can be combined into a
single stack with each ERS 5600 unit
providing two 10GbE XFP ports for
high-capacity uplinks to the core or
aggregation layers of the network.
ERS 5698 models provide even
density GbE and integrated 10GbE
port options, the Ethernet Routing
Switch 5000 Series is perfectly suited
as a high-performance, highly
available connectivity solution in the
wiring closet. Up to eight ERS 5000
Switches can be combined into a
single stack with each ERS 5600 unit
providing two 10GbE XFP ports for
high-capacity uplinks to the core or
aggregation layers of the network.
ERS 5698 models provide even
Avaya’s Innovative,
Resilient Stackable
Chassis technology:
Resilient Stackable
Chassis technology:
True pay-as-you-grow
scaling: Extending capacity is
easy. Simply cable a new unit
into the virtual backplane and
the configuration is
automatically updated.
scaling: Extending capacity is
easy. Simply cable a new unit
into the virtual backplane and
the configuration is
automatically updated.
Scalable performance: The
high performance design of
Avaya’s Switches along with
their high-speed interfaces
(up to 1.152 terabits) help
ensure that the Stackable
Chassis scales proportionally
as each new unit is added.
high performance design of
Avaya’s Switches along with
their high-speed interfaces
(up to 1.152 terabits) help
ensure that the Stackable
Chassis scales proportionally
as each new unit is added.
Switch Clustering: Based on
Avaya’s unique Switch Multi-
Link Trunking (SMLT)
technology, switch clustering
enables load balancing and
sub-second failover to
enhance the overall resiliency
of the stack solution.
Avaya’s unique Switch Multi-
Link Trunking (SMLT)
technology, switch clustering
enables load balancing and
sub-second failover to
enhance the overall resiliency
of the stack solution.
Optimal path forwarding:
The shortest, most optimal
path is chosen for each flow
of traffic with QoS being
maintained across the virtual
backplane.
The shortest, most optimal
path is chosen for each flow
of traffic with QoS being
maintained across the virtual
backplane.
No single point-of-failure:
Stackable Chassis operations
are unaffected by the failure
of any individual unit and
units can easily be replaced
within minutes.
Stackable Chassis operations
are unaffected by the failure
of any individual unit and
units can easily be replaced
within minutes.
Centralized management:
Single IP address for the
entire Stackable Chassis for
simplified management.
Single IP address for the
entire Stackable Chassis for
simplified management.
Flexible stacking options:
Mix-and-match any member
of the ERS 5000 Series into a
single Stackable Chassis.
Mix-and-match any member
of the ERS 5000 Series into a
single Stackable Chassis.
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Figure 1: ERS 5000 as a Horizontal Stacking / Top-of-Rack Solution
ERS 5000s configured
as Top-of-Rack switches
in a Horizontal Stack
Creates a virtual
backplane across
multiple server
racks
Racked Servers