 The
Alpine 3800 series switches enable enterprise networks
to adopt new technologies, such as wireless and
Voice-over-IP (VoIP), by offering intelligent security
and availability features to keep network convergence
simple and manageable.Providing advanced availability,
scalability and management features, the Alpine
3800 series switches are ideally suited for service
providers and metropolitan area networks (MANs).
The Alpine
3800 series switches support a wide offering of
high performance Ethernet connections including
standard Category 5, fiber optic media, legacy WAN,
and Power over Ethernet. With the flexibility and
scalability of a modular chassis, the Alpine chassis
switches provide a complete solution for Ethernet
network connectivity.
Ordering
Information
Part
Number |
Description |
| Chassis |
45061 |
Alpine 3802 3-slot
Chassis (includes SMMi, single AC PSU, fan
tray) |
45062 |
Alpine
3802 3-slot Chassis (includes SMMi, dual AC
PSU, fan tray) |
45064 |
Alpine 3802 3-slot
Chassis (includes SMMi, dual DC PSU, fan tray) |
45040 |
Alpine
3804 5-slot Chassis (includes fan tray) |
45080 |
Alpine 3808 9-slot
Chassis (includes fan tray) |
45014 |
Alpine
3800 Switch Management Module |
| I/O
Modules |
45122 |
Alpine 3800 16-port
auto-negotiating 10/100/1000BASE-TX (RJ-45)
Module |
45121 |
Alpine
3800 16-port 1000BASE-X module with 16 unpopulated
mini-GBIC 1000BASE-X ports (SFP) |
45113 |
Alpine 3800 4-port
auto-negotiating 100/1000BASE-T (RJ-45) Module |
45112 |
Alpine
3800 4-port 1000BASE-X GBIC-based (unpopulated)
Module |
45110 |
Alpine 3800 4-port
1000BASE-SX (MT-RJ-based) Module |
45210 |
Alpine
3800 32-port 10/100BASE-TX (RJ-45) Module |
45220 |
Alpine 3800 32-port
Power over Ethernet 10/100BASE-TX (RJ-45)
Modules |
45213 |
100BASE-TX (RJ-45)
Modules |
45211 |
Alpine 3800 24-port
100BASE-FX (MT-RJ) Multimode Module |
45212 |
Alpine 3800 24-port
100BASE-FX (MT-RJ) Single Mode Module |
45302 |
Alpine 3800 4-port
T1 (RJ-48) WAN Module Spec
Sheet (PDF 27K) |
45305 |
Alpine 3800 1-port
T3 (BNC) WAN Module |
45306 |
Alpine 3800 4-port
E1(RJ-48) WAN Module Spec
Sheet (PDF 27K) |
45310 |
Alpine 3800 Eight-port
VDSL (RJ-21) Module Spec
Sheet (PDF 26K) |
45380 |
Alpine 3800 VDSL
CPE with 10BASE-T Interface |
| Software |
45033 |
ExtremeWare full
Layer 3 voucher for the Alpine 3804 and 3808 |
45034 |
ExtremeWare
full Layer 3 voucher for the Alpine 3802 |
| Power
Supplies and Accessories |
45012 |
Alpine 3800 AC Power
Supply; Includes power cord for US & Japan |
45022 |
Alpine
3800 DC Power Supply |
45005 |
Alpine 3800 Blank
Faceplate (spare) |
45013 |
Alpine
3808 Spare Fan Tray |
45015 |
Alpine 3804 Spare
Fan Tray |
10011 |
Extreme
1000BASE-SX GBIC-based transceiver, SC connector,
for use with multi-mode fiber with distances
up to 550 meters |
10013 |
Extreme 1000BASE-LX
GBIC-based transceiver for distances up to
10km; SC connector, for use with single mode
fiber |
10017 |
Extreme
1000BASE-ZX GBIC based transceiver, extra
long distance single mode fiber: 70Km/21dB
Budget. SC connector |
10051 |
Mini-GBIC, SFP, 1000BASE-SX,
LC Connector (multimode fiber) |
10052 |
Mini-GBIC,
SFP, 1000BASE-LX, LC Connector (single/multimode
fiber) |
10053 |
Mini-GBIC, SFP, 1000BASE-ZX,
LC Connector (single mode fiber) |
Alpine
3800 Chassis Switch Features
| |
Hot-swappable
I/O modules and fan trays |
| |
Fully
redundant, load-sharing, hot-swappable power
supplies |
| |
Demonstrated
reliability with NEBS |
| |
802.3ad
load sharing and cross module trunking |
| |
Built-in
link redundancy offers active and backup data
paths |
| |
Extreme
Standby Router Protocol (ESRP) provides Layer
2 and Layer 3 redundancy for smart, ultra-fast
failover to a default
router or switch |
| |
Virtual
Router Redundancy Protocol (VRRP) provides
Layer 3 redundancy to a router or switch |
| |
Spanning
Tree Protocol (STP) for Layer 2 networks |
| |
Ethernet
Automatic Protection Switching (EAPS) for
SONET-like resiliency |
| |
OSPF
Equal Cost Multipath Routing (ECMP) distributes
traffic across multiple high bandwidth links |
Security
Features |
| |
Denial
of Service (DoS) protection against attacks |
| |
Network
Login and 802.1x to authenticate and protect
networks at the point of entry |
| |
Hardware
based access control lists (ACLs) linked to
a class of service, perform Layer 1-4 packet-level
security and control
traffic flows at wire-speed |
| |
MAC
address security to lock-out unauthorized
equipment |
Scalability
Features |
| |
802.3af
Power-over-Ethernet (PoE) to support converging
network applications |
| |
Policy-Based
Quality of Service (QoS) at wire-speed to
allocate bandwidth, and prioritize traffic |
| |
Bidirectional
rate shaping to provision and manage bandwidth
by the slice from 1Kbps to 1Gbps |
| |
Jumbo
frames to efficiently utilize high performance
connections |
| |
Integrated
server load balancing to improve application
performance |
| |
Integrated
transparent web cache redirection optimizes
bandwidth utilization |
Management
Features |
| |
Secure
Shell (SSH2) encrypts remote telnet management
connections across the network |
| |
SNMPv3
insures authentication and privacy for management
applications |
| |
End-to-End
ExtremeWare® |
| |
Comprehensive
EPICenter® |
Product
Specifications
| Alpine
3802 Chassis |
|
OSPF |
| - |
3-slot
chassis |
|
- |
RFC
2328 OSPF v2 (including MD5 authentication) |
| Port
Densities |
|
- |
RFC
1587 OSPF NSSA Option |
| - |
20
10/100/1000BASE-T ports |
|
- |
RFC
1765 OSPF Database Overflow |
| - |
20
1000BASE-X ports |
|
- |
RFC
2370 OSPF Opaque LSA Option |
| - |
64
10/100BASE-TX ports |
|
BGP4 |
| - |
64
10/100BASE-TX PoE ports |
|
- |
RFC
1771 Border Gateway Protocol 4 |
| - |
48
100BASE-FX MMF ports |
|
- |
RFC
1965 Autonomous System |
| - |
48
100BASE-FX SMF ports |
|
- |
Confederations
for BGP |
| Performance |
|
- |
RFC
1997 BGP Communities Attribute |
| - |
16
Gbps switch fabric bandwidth |
|
- |
RFC
1745 BGP/OSPF Interaction |
| |
12
Mpps forwarding rate |
|
- |
RFC
2385 TCP MD5 Authentication for BGPv4 |
| - |
128K
MAC addresses |
|
- |
RFC
2439 BGP Route Flap Damping |
| - |
4096
VLANs |
|
IP
Multicast |
| |
|
- |
RFC
2362 PIM-SM |
| |
|
|
- |
PIM-DM
Draft IETF PIM Dense Mode v2-dm-03 |
| |
|
|
- |
DVMRP
v3 draft IETF DVMRP v3-07 |
| Physical
Dimensions |
|
- |
RFC
1112 IGMP v1 |
| - |
Rack
height: 4RU |
|
- |
RFC
2236 IGMP v2 |
| - |
7.0
in (H) x 17.3 in (W) x 12.0 in (D) |
|
- |
IGMP
Snooping with Configurable Router |
| - |
17.8
cm (H) x 43.9 cm (W) x 30.5 cm (D) |
|
- |
Registration
Forwarding |
| |
Weight
(empty): 25 lbs (11 kg) |
|
- |
Static
IGMP Membership |
| - |
Weight
(fully loaded): 31 lbs (14 kg) |
|
- |
IGMP
Filters |
| Power
and Heat Dissipation |
|
- |
Mtrace,
draft-ietf-idmr-traceroute-imp-07 |
| - |
Power
Supply Input: 315 Watts |
|
- |
Mrinfo |
| - |
Heat
Dissipation 1076 BTU/hour |
|
IS-IS |
| - |
Current
Rating: 4A @ 100 VAC; 2A @ 200 VAC; 8A @ -40VDC |
|
- |
RFC
1142 (ISO 10589), IS-IS protocol |
| Alpine
3804 Chassis |
|
- |
RFC
1195 Use of OSI IS-IS for routing in TCP/IP |
| - |
5-slot
chassis |
|
|
and
dual environments |
| Port
Densities |
|
- |
RFC
2104 HMAC: Keyed-Hashing for |
| - |
64
10/100/1000BASE-T ports |
|
|
Message
Authentication |
| - |
64
1000BASE-X ports |
|
Management
and Security |
| - |
128
10/100BASE-TX ports |
|
Management
- SNMP & MIBs |
| - |
128
10/100BASE-TX PoE ports |
|
- |
RFC
1155 Structure of Mgmt Information (SMIv1) |
| - |
96
100BASE-FX SMF ports |
|
- |
RFC
1157 SNMPv1 |
| Performance |
|
- |
RFC
1212, RFC 1213, RFC 1215 MIB-II & TRAPs |
| - |
32
Gbps switch fabric bandwidth |
|
- |
RFC
1901 – 1908 SNMP Version 2c, SMIv2 |
| - |
24
Mpps forwarding rate |
|
|
and
Revised MIB-II and authentication |
| - |
128K
MAC addresses |
|
- |
RFC
2576 Coexistence between SNMP Version 1, |
| - |
4096
VLANs |
|
- |
Version
2 and Version 3 |
| Physical
Dimensions |
|
- |
RFC
1757 RMON 4 groups: Stats, History, Alarms |
| - |
Rack
height: 6RU |
|
|
and
Events |
| - |
10.5
in (H) x 17.3 in (W) x 15.5 in (D) |
|
- |
RFC
2021 RMON2 (probe configuration) |
| - |
26.7
cm (H) x 43.9 cm (W) x 39.4 cm (D) |
|
- |
RFC
2613 SMON MIB |
| - |
Weight
(empty): 30 lbs (14 kg) |
|
- |
RFC
2668 802.3 MAU MIB |
| - |
Weight
(fully loaded): 68 lbs (31 kg) |
|
- |
RFC
1643 Ethernet MIB |
| Power
and Heat Dissipation |
|
- |
Draft-ietf-bridge-rstpmib-03.txt
– Definitions of Managed |
| - |
Power
Supply Input: 577 Watts |
|
- |
Objects
for Bridges with Rapid Spanning Tree Protocol |
| - |
Heat
Dissipation 2000 BTU/hour |
|
- |
RFC
1354 IPv4 Forwarding Table MIB |
| - |
Current
Rating: 6.5A @ 100 VAC; 3.5A @ |
|
- |
RFC
2037 Entity MIB RFC 2233 Interface MIB |
| |
200
VAC; 15A @ -40VDC |
|
- |
RFC
2096 IP Forwarding |
| Alpine
3808 Chassis |
|
- |
RFC
1724 RIPv2 MIB |
| - |
9-slot
chassis |
|
- |
RFC
1850 OSPFv2 MIB |
| Port
Densities |
|
- |
RFC
1657 BGPv4 MIB |
| - |
128
10/100/1000BASE-T ports |
|
- |
RFC
2787 VRRP MIB |
| - |
128
1000BASE-X ports |
|
- |
RFC
2925 Ping / Traceroute /NSLOOKUP MIB |
| - |
256
10/100BASE-TX ports |
|
- |
ExtremeWare
vendor MIB (includes ACL, MAC |
| - |
256
10/100BASE-TX PoE ports |
|
- |
FDB,
IP FDB, MAC Address Security, QoS |
| - |
192
100BASE-FX MMF ports |
|
|
policy
and VLAN config) |
| - |
192
100BASE-FX SMF ports |
|
- |
IEEE
802.1x – 2001 MIB |
| Performance |
|
- |
Extreme
extensions to 802.1x-MIB |
| - |
64
Gbps switch fabric bandwidth |
|
Management
- Other |
| - |
48
Mpps forwarding rate |
|
- |
RFC
1866 HTML |
| - |
128K
MAC addresses |
|
- |
RFC
2068 HTTP |
| - |
4096
VLANs |
|
- |
RFC
854 Telnet |
| Physical
Dimensions |
|
- |
HTML/
HTTP management |
| - |
Rack
height: 12RU |
|
- |
Secure
Shell (SSHv2) and Telnet management, |
| - |
21.0
in (H) x 17.3 in (W) x 11.4 in (D) |
|
- |
Telnet
and SSHv2 clients |
| - |
53.3
cm (H) x 43.9 cm (W) x 28.9 cm (D) |
|
- |
Secure
Copy (SCPv2) |
| - |
Weight
(empty): 50 lbs (23 kg) |
|
-
- |
NetFlow
version 1 export
Configuration Logging |
| - |
Weight
(fully loaded): 100 lbs (45 kg) |
|
- |
Multiple
Images, Multiple Configs |
| Power
and Heat Dissipation |
|
- |
BSD
System Logging Protocol (SYSLOG), |
| |
Power
Supply Input: 1046 Watts |
|
|
with
Multiple Syslog Servers |
| - |
Heat
Dissipation 3600 BTU/hour |
|
- |
999
Local Messages (criticals stored across reboots) |
| - |
Current
Rating: 13A @ 100 VAC; 6.5A @ |
|
- |
RFC
2030 SNTP, Simple Network Time Protocol v4 |
| |
200
VAC; 30A @ -40VDC |
|
Security |
| Protocols
and Standards |
|
- |
Routing
protocol authentication (see above) |
| General
Routing/Switching |
|
- |
Secure
Shell (SSHv2) & Secure Copy (SCPv2) |
| - |
RFC
1812 IPv4 Router Requirements |
|
|
with
encryption/authentication |
| - |
RFC
1519 CIDR |
|
- |
SNMPv3
user based security, with encryption/ |
| - |
RFC
1256 IPv4 Router Discovery (IRDP) |
|
|
/authentication
(see page 3) |
| - |
RFC
783 TFT |
|
- |
RFC
1492 TACACS+ |
| - |
RFC
951, 1542 BootP |
|
- |
RFC
2138 RADIUS Authentication |
| - |
RFC
2131 BOOTP/DHCP relay agent and |
|
- |
RFC
2139 RADIUS Accounting |
| - |
DHCP
server |
|
- |
RADIUS
Per-command Authentication |
| - |
RFC
1591 DNS (client operation) |
|
- |
Access
Profiles on All Routing Proto |
| - |
RFC
1122 Host Requirements |
|
- |
Access
Profiles on All Management Methods |
| - |
RFC
768 UDP |
|
- |
Network
Login (web-based DHCP/RADIUS mechanism) |
| - |
RFC
791 IP |
|
- |
IEEE802.1x
– 2001 Port-Based Network Access |
| - |
RFC
792 ICMP |
|
- |
Control
for Network Login |
| - |
RFC
793 TCP |
|
- |
Multiple
supplicants for Network Login (web-based and |
| - |
RFC
826 ARP |
|
|
802.1x
modes) |
| - |
RFC
2338 VRRP |
|
- |
MAC
Address Security / Lockdown |
| - |
Extreme
Standby Router Protocol (ESRP) |
|
|
Network
Address Translation (NAT) |
| - |
IPX
RIP/SAP Router specification |
|
- |
Layer
2/3/4/7 Access Control Lists (ACLs) |
| - |
IEEE
802.1D-1998 Spanning Tree Protocol (STP) |
|
Safety |
| - |
Multiple
Instances of Spanning Tree (PVST+ |
|
- |
UL
1950 3rd Edition , Listed (Safety of ITE) |
| |
compatible,
802.1Q interoperable) |
|
- |
EN60950:1992/A1-4:1997+ZB/ZC
Deviations |
| - |
IEEE
802.1w - 2001 Rapid Reconfiguration for STP,
RSTP |
|
|
(Safety
of ITE) |
| - |
IEEE
802.1Q - 1998 Virtual Bridged Local Area Networks |
|
- |
IEC
950CB (Safety of ITE) |
| |
Ethernet
Automatic Protection Switching (EAPS) |
|
- |
Low
Voltage Directive (LVD) |
| - |
Software
controlled redundant ports |
|
- |
CSA
22.2#950-95 (Safety of ITE) |
| Quality
of Service and Policies |
|
- |
AS/NZX
3260 (product safety standard) |
| - |
IEEE
802.1D -1998 (802.1p) Packet Priority |
|
- |
EN60825-1
(Safety of Lasers Products) |
| - |
RFC
2474 DiffServ Precedence, including 8 queues/port |
|
- |
FCC
CFR 21 (Laser Products) |
| - |
RFC
2598 DiffServ Expedited Forwarding (EF) |
|
EMI/EMC |
| - |
RFC
2597 DiffServ Assured Forwarding (AF) |
|
- |
NEBS
Level III, Issue 1 |
| - |
RFC
2475 DiffServ Core and Edge Router Functions |
|
- |
FCC
CFR 47 part 15 Class A (USA EMC standard) |
| - |
Bi-directional
Rate Shaping |
|
- |
ICES-003A/C108.8-M1983
Class A (Canada |
| - |
Layer
1-4, Layer 7 (user name) Policy-Based Mapping |
|
|
EMC
standard) |
| - |
Policy-Based
Mapping/Overwriting of DiffServ code |
|
- |
VCCI
Class A (Japan EMC standard) |
| |
points,
.1p priority |
|
- |
AS/NZS
3548 (Australia EMC standard) |
| - |
DLCS
(Dynamic Link Context System, WINS snooping) |
|
- |
EN
55022 Class A (European EMC standard) |
| |
for
integration with EPICenter Policy Manger |
|
- |
CISPR
22 Class A (European EMC standard) |
| VLANs |
|
- |
EN
50082-1:1997 includes ENV 50204 |
| - |
IEEE
802.1Q VLAN Tagging |
|
|
(European
EMC standards) |
| - |
IEEE
802.3ad Static configuration and dynamic (LACP) |
|
- |
EN
55024:1998 includes IEC 61000-4-2, 3, 4, 5,
6, 8, 11 |
| - |
IEEE
802.1v VLAN classification by Protocol and
Port |
|
|
(European
EMC standards) |
| - |
Port-based
VLANs |
|
- |
EN
61000-3-2,3 (European EMC standards) |
| - |
MAC-based
VLANs |
|
- |
CNS
13438 Class A (BSMI-Taiwan) |
| - |
Protocol-sensitive
VLANs |
|
- |
Low
Voltage Directive (LVD) |
| - |
Multiple
STP domains per VLAN |
|
Requirements |
| - |
RFC-3069
VLAN Aggregation |
|
- |
Operating
Temperature: 0° to 40°C (32° to
104°F) |
| - |
Virtual
MANs |
|
- |
Storage
Temperature: -40° to 70°C (-40°
to 158°F) |
| - |
VLAN
Translation |
|
- |
Operating
Humidity:10%to 95%relative humidity, |
| RIP |
|
|
non-condensing |
| - |
RFC
1058 RIP v1 |
|
- |
EN60068
to Extreme IEC68 schedule |
| - |
RFC
2453 RIP v2 |
|
Reliability |
| |
|
|
- |
Minimum
50000 hrs MTBF to Mil HDBK 217F |
| |
|
|
|
Notice
1, Parts Stress Method |
The most advanced member of the
BlackDiamond series is the BlackDiamond 10808 (BD10K).
Designed from the ground up to support a high-density
10 gigabit infrastructure, the BlackDiamond 10K
is based on Extreme Networks® fourth generation
of Application-Specific Integrated Circuit (ASIC)
technology. These ASICs have a number of new enhancements,
including longest prefic match (LPM) routing for
IPv4 and IPv6, programmable packet parsing and editing,
robust multicast performance, and the revolutionary
CLEAR-Flow security infrastructure. These features
enhance routing performance, allow support of new
network protocols without disruptive hardware upgrades,
enable seamless voice and video distribution, and
enable real-time response to day-zero network Denial
of Service (DoS) attacks. Features such as Quality
of Service (QoS), Access Control Lists (ACLs), and
statistics gathering can be enabled without affecting
packet throughput, even at 10 gigabit data rates.
The BlackDiamond 10K chassis was
designed to meet stringent carrier-class standards,
with front-to-back cooling, redundant PSUs, fans,
and controllers, and a passive backplane. Integrated
error checking and correction protects the packet
data path, and independent control and data planes
ensure that network data and management traffic
never interfere.
The most advanced member of the
BlackDiamond series is the BlackDiamond 10808 (BD10K).
Designed from the ground up to support a high-density
10 gigabit infrastructure, the BlackDiamond 10K
is based on Extreme Networks® fourth generation
of Application-Specific Integrated Circuit (ASIC)
technology. These ASICs have a number of new enhancements,
including longest prefic match (LPM) routing for
IPv4 and IPv6, programmable packet parsing and editing,
robust multicast performance, and the revolutionary
CLEAR-Flow security infrastructure. These features
enhance routing performance, allow support of new
network protocols without disruptive hardware upgrades,
enable seamless voice and video distribution, and
enable real-time response to day-zero network Denial
of Service (DoS) attacks. Features such as Quality
of Service (QoS), Access Control Lists (ACLs), and
statistics gathering can be enabled without affecting
packet throughput, even at 10 gigabit data rates.
The BlackDiamond 10K chassis was
designed to meet stringent carrier-class standards,
with front-to-back cooling, redundant PSUs, fans,
and controllers, and a passive backplane. Integrated
error checking and correction protects the packet
data path, and independent control and data planes
ensure that network data and management traffic
never interfere.
The newest member of the BlackDiamond
series is the versatile BlackDiamond 8800 family.
Again, designed from the ground up for 10 gigabit
support, the BlackDiamond 8800 provides the universal
port for IP telephony with integrated support for
Power over Ethernet (PoE) at gigabit data rates.
Available in 10-slot and 6-slot models, the BlackDiamond
8800 series provides voice-class availability and
power at every port, making it the ideal modular
unified access solution for a combined edge and
aggregation solution in a converged network. Each
port supports a full range of Layer 2-4 features,
and each I/O module provides non-blocking local
switching and backplane connectivity for up to 48
gigabits of port bandwidth. This unprecedented performance
also makes the BlackDiamond 8800 series ideal for
medium enterprise cores and as an interconnect switch
for high-performance computing applications. The
highly redundant chassis design and system architecture
provide voice-class availability at any network
location.
Our revolutionary ExtremeWare®
XOS™ operating system, the industry's first
truly modular network operating system, increases
availability over and beyond the chassis level high
availability design. Self-healing process restart
ensures that the switch can recover from failures
without rebooting the entire operating system. Software
modules can be loaded or upgraded dynamically, and
the ExtremeWare XOS architecture also supports hitless
software failover and upgrades.
All BlackDiamond switches are designed
and built to minimize latency and jitter, which
degrade the quality of voice and video applications.
They're also highly resilient, a key aspect of voice-class
availability. One of the many mechanisms used to
ensure resiliency, is Ethernet Automatic Protection
Switching (EAPS) link resiliency standard, available
on all switches from Extreme Networks. With sub-50-millisecond
link failover recovery time, you can be certain
that voice calls won't be dropped.
Our multi-layered approach to security
safeguards your network. Airtight authentication
blocks users at the switch, until they've been approved.
Extensive ACLs make it easy to apply policies that
prevent users from reaching restricted resources,
without slowing performance. Additionally, we have
developed proven-interoperable solutions with best-of-breed
partners, so you can implement the security architecture
that's best for you.
Management simplicity has always
been critical; it becomes even more so as a single,
converged network carries all of an organization's
voice, video, and data traffic. All of our products
share the same user interface and management framework,
ensuring end-to-end simplicity. We also offer management
software that allow you to monitor your wired and
wireless IP-based data and phone infrastructure
and take the effort out of moves, adds and changes. |
