HP MSR4000 Series
Modular Ethernet Router

Features & Benefits:

Performance

• Excellent forwarding performance — Provides forwarding performance up to 36 Mpps (24.2 Gb/s); meets the bandwidth-intensive application demands of enterprise businesses
• Powerful security capacity — The MSR4000 series is available with standard or high encryption, an embedded hardware encryption accelerator to improve encryption performance; IPSec encryption throughput can be up to 28 Gb/s with a maximum of 10,000 IPSec VPN tunnels

Product architecture

• SDN/OpenFlow — OpenFlow is the communications interface defined between the control and forwarding layers of a SDN (Software-Defined Networking) architecture. OpenFlow separates the data forwarding and routing decision functions. It keeps the flow-based forwarding function and employs a separate controller to make routing decisions. OpenFlow matches packets against one or more flow tables. MSR support OpenFlow 1.3.1
• Ideal multiservice platform — Provides WAN router, Ethernet switch, stateful firewall, VPN, and Session Initiation Protocol (SIP) or voice gateway all in one device
• Advanced hardware architecture — Provides multicore processors, Gigabit switching, and PCIe bus; dual main processing units, four internal power supplies (N+1 configuration), and internal and external CF cards are offered; new high-performance MIM modules (HMIM) supported
• New operating system version — Ships with new Comware v7 Operating System delivering the latest in virtualization and routing
• Open Application Platform architecture — Provides unmatched application and services flexibility, with the potential to deliver the functionality of multiple devices, creating capital and operational expense savings and lasting investment protection
• Distributed architecture with separation of data and control planes — Delivers enhanced fault tolerance and facilitates near continuous operation and zero service disruption during planned or unplanned control-plane events; service processing units (SPUs) perform data forwarding, encryption or decryption, and analyzing or filtering of data packets; main processing units perform route calculation, forward table maintenance, and configure and monitor the SPU
• Field-programmable gate array (FPGA) — Improves the bandwidth of I/O module slots from 100 Mb/s to 1000 Mb/s, and improves uplink performance from 1 Gb/s to 10 Gb/s
• Multi Gigabit Fabric (MGF) — Eases utilization of the main processor by transmitting Layer 2 packets directly via the MGF
• Main processing unit (MPU) — Provides 1GbE management port; has default of 512 MB internal flash and 2 GB DDR3 memory
• Service processing units (SPU) — Includes four 1000BASE-T and four SFP (combo) slots, two voice processing module slots, and 2 GB DDR3 memory; SPU 200/300 also has one 10GbE SFP+ slot; forwarding performance: 10 Mpps (SPU-100), 20 Mpps (SPU-200), 36 Mpps (SPU-300)

Connectivity

• Powerful aggregation capacity — Supports integrated 10GbE LAN, and up to 64 E1 or eight E3/T3 ports, and up to 148 Giga ports on one chassis
• High-density port connectivity — Provides up to eight interface module slots and up to four on-board Gigabit Ethernet and one 10GbE ports
• Multiple WAN interfaces — Provides traditional links with E1, T1, Serial, Asynchronous Transfer Mode (ATM), and ISDN; high-density Ethernet access with WAN Fast Ethernet and Gigabit Ethernet with POE/POE+; and high-speed E3/T3, 155 Mb/s OC3 access options
• Packet storm protection — Protects against broadcast, multicast, or unicast storms with user-defined thresholds
• Ethernet Virtual Interconnect (EVI) — EVI is a MAC-in-IP technology that provides Layer 2 connectivity between distant Layer 2 network sites across an IP routed network. It is used for connecting geographically dispersed sites of a virtualized large-scale data center that requires Layer 2 adjacency
• VXLAN (Virtual eXtensible LAN) — VXLAN (Virtual eXtensible LAN, scalable virtual local area network) is an IP-based network, using the “MAC in UDP” package of Layer VPN technology. VXLAN can be based on an existing ISP or enterprise IP networks for decentralized physical site provides Layer 2 communication, and can provide service isolation for different tenants.
• Virtual Private LAN Service (VPLS) — Virtual Private LAN Service (VPLS) delivers a point-to-multipoint L2VPN service over an MPLS or IP backbone. The backbone is transparent to the customer sites, which can communicate with each other as if they were on the same LAN. The following protocols support on MSRs, RFC4447, RFC4761 and RFC4762, BFD detection in VPLS, Support hierarchical HOPE (H-VPLS), MAC address recovery in H-VPLS to speed up convergence
• Loopback — Supports internal loopback testing for maintenance purposes and an increase in availability; loopback detection protects against incorrect cabling or network configurations and can be enabled on a per-port or per-VLAN basis for added flexibility
• USB interface — Uses USB memory disk to download and upload configuration or OS image files; supports an external USB 3G/4G modem for a 3G/4G WAN uplink
• Flexible port selection — Provides a combination of fiber and copper interface modules, 100/1000BASE-X support, and 10/100/1000BASE-T auto-speed detection plus auto duplex and MDI/MDI-X

Layer 2 switching

• Spanning Tree Protocol (STP) — Supports standard IEEE 802.1D STP, IEEE 802.1w Rapid Spanning Tree Protocol (RSTP) for faster convergence, and IEEE 802.1s Multiple Spanning Tree Protocol (MSTP)
• Internet Group Management Protocol (IGMP) and Multicast Listener Discovery (MLD) protocol snooping — Controls and manages the flooding of multicast packets in a Layer 2 network
• Port mirroring — Duplicates port traffic (ingress and egress) to a local or remote monitoring port
• VLANs — Supports up to 4,094 VLANS or IEEE 802.1Q-based VLANs
• sFlow® — Allows traffic sampling

Layer 3 Routing

• Static IPv4 routing — Provides simple manually configured IPv4 routing
• Routing Information Protocol (RIP) — Uses a distance vector algorithm with User Datagram Protocol (UDP) packets for route determination; supports RIPv1 and RIPv2 routing; includes loop protection
• Open shortest path first (OSPF) — Delivers faster convergence; uses this link-state routing Interior Gateway Protocol (IGP), which supports ECMP, NSSA, and MD5 authentication for increased security and graceful restart for faster failure recovery
• Border Gateway Protocol 4 (BGP-4) — Delivers an implementation of the Exterior Gateway Protocol (EGP) utilizing path vectors; uses TCP for enhanced reliability for the route discovery process; reduces bandwidth consumption by advertising only incremental updates; supports extensive policies for increased flexibility; scales to very large networks
• Intermediate system to intermediate system (IS-IS) — Uses a path vector Interior Gateway Protocol (IGP), which is defined by the ISO organization for IS-IS routing and extended by IETF RFC 1195 to operate in both TCP/IP and the OSI reference model (Integrated IS-IS)
• Static IPv6 routing — Provides simple manually configured IPv6 routing
• Dual IP stack — Maintains separate stacks for IPv4 and IPv6 to ease the transition from an IPv4-only network to an IPv6-only network design
• Routing Information Protocol next generation (RIPng) — Extends RIPv2 to support IPv6 addressing
• OSPFv3 — Provides OSPF support for IPv6
• BGP+ — Extends BGP-4 to support Multiprotocol BGP (MBGP), including support for IPv6 addressing
• IS-IS for IPv6 — Extends IS-IS to support IPv6 addressing
• IPv6 tunneling — Allows IPv6 packets to traverse IPv4-only networks by encapsulating the IPv6 packet into a standard IPv4 packet; supports manually configured, 6 to 4, and Intra-Site Automatic Tunnel Addressing Protocol (ISATAP) tunnels; is an important element for the transition from IPv4 to IPv6
• Multiprotocol Label Switching (MPLS) — Uses BGP to advertise routes across Label Switched Paths (LSPs), but uses simple labels to forward packets from any Layer 2 or Layer 3 protocol, which reduces complexity and increases performance; supports graceful restart for reduced failure impact; supports LSP tunneling and multilevel stacks
• Multiprotocol Label Switching (MPLS) Layer 3 VPN — Allows Layer 3 VPNs across a provider network; uses Multiprotocol BGP (MBGP) to establish private routes for increased security; supports RFC 2547bis multiple autonomous system VPNs for added flexibility; supports IPv6 MPLS VPN
• Multiprotocol Label Switching (MPLS) Layer 2 VPN — Establishes simple Layer 2 point-to-point VPNs across a provider network using only MPLS Label Distribution Protocol (LDP); requires no routing and therefore decreases complexity, increases performance, and allows VPNs of non-routable protocols; uses no routing information for increased security; supports Circuit Cross Connect (CCC), Static Virtual Circuits (SVCs), Martini draft, and Kompella-draft technologies
• Routing policy — Allows custom filters for increased performance and security; supports access control lists (ACLs), IP prefix, AS paths, community lists, and aggregate policies

Layer 3 services

• NAT-PT — Network Address Translation-Protocol Translation (NAT-PT) enables communication between IPv4 and IPv6 nodes by translating between IPv4 and IPv6 packets. It performs IP address translation, and according to different protocols, performs semantic translation for packets. This technology is only suitable for communication between a pure IPv4 node and a pure IPv6 node
• WAN Optimization — MSR performs optimization using TFO and a combination of DRE, Lempel-Ziv (LZ) compression to provide the bandwidth optimization for file service and web applications. The policy engine module determines which traffic can be optimized and which optimization action should be taken. A pair of WAN optimization equipment can discover each other automatically and complete the negotiation to establish a TCP optimization session
• Address Resolution Protocol (ARP) — Determines the MAC address of another IP host in the same subnet; supports static ARPs; gratuitous ARP allows detection of duplicate IP addresses; proxy ARP allows normal ARP operation between subnets or when subnets are separated by a Layer 2 network
• User Datagram Protocol (UDP) helper — Redirects UDP broadcasts to specific IP subnets to prevent server spoofing
• Dynamic Host Configuration Protocol (DHCP) — Simplifies the management of large IP networks and supports client and server; DHCP Relay enables DHCP operation across subnets

Quality of Service (QoS)

• Hierarchical quality of service (HQoS) or Nested QoS — Manages traffic uniformly, and hierarchically schedules traffic by user, network service, and application; provides more granular traffic control and quality assurance services than traditional QoS
• Traffic policing — Supports Committed Access Rate (CAR) and line rate
• Congestion management — Supports FIFO, PQ, CQ, WFQ, CBQ, and RTPQ
• Weighted random early detection (WRED) or random early detection (RED) — Delivers congestion avoidance capabilities through the use of queue management algorithms
• Other QoS technologies — Supports traffic shaping, MPLS QoS, MP QoS or LFI, and Control Plane Policing (CoPP)

Security

• Zone based firewall — Zone-Based Policy Firewall changes the firewall configuration from the older interface-based model to a more flexible, more easily understood zone-based model. Interfaces are assigned to zones, and inspection policy is applied to traffic moving between the zones. Inter-zone policies offer considerable flexibility and granularity, so different inspection policies can be applied to multiple host groups connected to the same router interface
• Enhanced stateful firewall — Application layer protocol inspection, Transport layer protocol inspection, ICMP error message check, and TCP SYN check. Support more L4 and L7 protocols like TCP, UDP, UDP-Lite, ICMPv4/ICMPv6, SCTP, DCCP, RAWIP, HTTP, FTP, SMTP, DNS, SIP, H.323, SCCP
• Auto Discover VPN (ADVPN) — Collects, maintains, and distributes dynamic public addresses through the VPN Address Management (VAM) protocol, making VPN establishment available between enterprise branches that use dynamic addresses to access the public network; compared to traditional VPN technologies, ADVPN technology is more flexible and has richer features, such as NAT traversal of ADVPN packets, AAA identity authentication, IPSec protection of data packets, and multiple VPN domains
• IPSec VPN — Supports DES, Triple DES (3DES), and Advanced Encryption Standard (AES) 128/192/256 encryption, and MD5 and SHA-1 authentication
• Access control list (ACL) — Supports powerful ACLs for both IPv4 and IPv6; ACLs are used for filtering traffic to prevent unauthorized users from accessing the network, or for controlling network traffic to save resources; rules can either deny or permit traffic to be forwarded; rules can be based on a Layer 2 header or a Layer 3 protocol header; rules can be set to operate on specific dates or times
• Terminal Access Controller Access-Control System (TACACS+) — Delivers an authentication tool using TCP with encryption of the full authentication request, providing additional security
• Unicast Reverse Path Forwarding (URPF) — Allows normal packets to be forwarded correctly, but discards the attaching packet due to lack of reverse path route or incorrect inbound interface; prevents source spoofing and distributed attacks
• Network login — Allows authentication of multiple users per port
• RADIUS — Eases security access administration by using a user or password authentication server
• Network address translation (NAT) — Supports one-to-one NAT, many-to-many NAT, and NAT control, enabling NAPT to support multiple connections; supports blacklist in NAT, a limit on the number of connections, session logs, and multi-instances
• Secure Shell (SSHv2) — Uses external servers to securely login to a remote device; with authentication and encryption, it protects against IP spoofing and plain text password interception; increases the security of Secure File Transfer Protocol (SFTP) transfers

Convergence

• Internet Group Management Protocol (IGMP) — Utilizes Any-Source Multicast (ASM) or Source-Specific Multicast (SSM) to manage IPv4 multicast networks; supports IGMPv1, v2, and v3
• Protocol Independent Multicast (PIM) — Defines modes of Internet IPv4 and IPv6 multicasting to allow one-to-many and many-to-many transmission of information; supports PIM Dense Mode (DM), Sparse Mode (SM), and Source-Specific Mode (SSM)
• Multicast Source Discovery Protocol (MSDP) — Allows multiple PIM-SM domains to interoperate; is used for inter-domain multicast applications
• Multicast Border Gateway Protocol (MBGP) — Allows multicast traffic to be forwarded across BGP networks and kept separate from unicast traffic

Integration

• Embedded VPN and firewall — Provides enhanced stateful packet inspection and filtering; delivers advanced VPN services with Triple DES (3DES) and Advanced Encryption Standard (AES) encryption at high performance and low latency, URL filtering, and application prioritization and enhancement
• Embedded NetStream — Improves traffic distribution using powerful scheduling algorithms, including Layer 4 to 7 services; monitors the health status of servers and firewalls
• SIP trunking — Delivers multiple concurrent calls on one link; the carrier authenticates only the link, rather than carrying each SIP call on the link

Resiliency and high availability

• Intelligent Resilient Framework (IRF) — IRF allows the customer build an IRF stack, namely a logical device, by interconnecting multiple devices through stack ports. The customer can manage all the devices in the IRF stack by managing the logical device, which is cost-effective like a box-type device, and scalable and highly reliable like a chassis-type distributed device
• Backup center — Acts as a part of the management and backup function to provide backup for device interfaces; delivers reliability by switching traffic over to a backup interface when the primary one fails
• Virtual Router Redundancy Protocol (VRRP) — Allows groups of two routers to dynamically back each other up to create highly available routed environments; supports VRRP load balancing
• In-Service Software Upgrade (ISSU) — Lowers downtime caused by planned maintenance and software upgrades
• Embedded Automation Architecture (EAA) — Monitors the internal event and status of system hardware and software, identifying potential problems as early as possible; collects field information and attempts to automatically repair the issues; based on the user configuration, onsite information will be sent to technical support
• Multiple internal power supply slots — Delivers higher reliability with a maximum of four internal power supplies, which can be installed
• Bidirectional Forwarding Detection (BFD) — Detects quickly the failures of the bidirectional forwarding paths between two devices for upper-layer protocols such as routing protocols and MPLS

Management

• HP Intelligent Management Center (IMC) — Integrates fault management, element configuration, and network monitoring from a central vantage point; built-in support for third-party devices enables network administrators to centrally manage all network elements with a variety of automated tasks, including discovery, categorization, baseline configurations, and software images; the software also provides configuration comparison tools, version tracking, change alerts, and more
• Industry-standard CLI with a hierarchical structure — Reduces training time and expenses, and increases productivity in multivendor installations
• Management security — Restricts access to critical configuration commands; offers multiple privilege levels with password protection; ACLs provide telnet and Simple Network Management Protocol (SNMP) access; local and remote syslog capabilities allow logging of all access
• SNMPv1, v2, and v3 — Provide complete support of SNMP; provide full support of industry-standard Management Information Base (MIB) plus private extensions; SNMPv3 supports increased security using encryption
• Remote monitoring (RMON) — Uses standard SNMP to monitor essential network functions; supports events, alarm, history, and statistics group plus a private alarm extension group
• FTP, TFTP, and SFTP support — Offers different mechanisms for configuration updates; FTP allows bidirectional transfers over a TCP/IP network; trivial FTP (TFTP) is a simpler method using User Datagram Protocol (UDP); Secure File Transfer Protocol (SFTP) runs over an SSH tunnel to provide additional security
• Debug and sampler utility — Supports ping and traceroute for both IPv4 and IPv6
• Network Time Protocol (NTP) — Synchronizes timekeeping among distributed time servers and clients; keeps timekeeping consistent among all clock-dependent devices within the network so that the devices can provide diverse applications based on the consistent time
• Information center — Provides a central repository for system and network information; aggregates all logs, traps, and debugging information generated by the system and maintains them in order of severity; outputs the network information to multiple channels based on user-defined rules
• Management interface control — Provides management access through modem port and terminal interface; provides access through terminal interface, telnet, or SSH
• Network Quality Analyzer (NQA) — Analyzes network performance and service quality by sending test packets, and provides network performance and service quality parameters such as jitter, TCP, or FTP connection delays; allows network manager to determine overall network performance and diagnose and locate network congestion points or failures
• Role-based security — Delivers role-based access control (RBAC); supports 16 user levels (0~15)
• Standards-based authentication support for LDAP — Integrates seamlessly into existing authentication services

Ease of deployment

• Zero-touch deployment — Supports TR069, both USB disk auto deployment and 3G SMS auto deployment

Additional information

• OPEX savings — Simplifies and streamlines deployment, management, and training through the use of a common operating system, thereby cutting costs as well as reducing the risk of human errors associated with having to manage multiple operating systems across different platforms and network layers
• Faster time to market — Allows new and custom features to be brought rapidly to market through engineering efficiencies, delivering better initial and ongoing stability
• Green initiative support — Provides support for RoHS and WEEE regulations

Warranty and support

• 1-year Warranty — Advance hardware replacement with 10-calendar-day delivery (available in most countries)
• Electronic and telephone support (for Warranty 2.0) — Limited electronic and 24x7 telephone support is available from HP for the entire warranty period; to reach our support centers, refer to hp.com/networking/contact-support; for details on the duration of support provided with your product purchase, refer to hp.com/networking/warrantysummary
• Software releases — To find software for your product, refer to hp.com/networking/support; for details on the software releases available with your product purchase, refer to hp.com/networking/warrantysummary

Specifications:

	HP MSR4060 Router Chassis (JG403A)	HP MSR4080 Router Chassis (JG402A)
I/O ports and slots
	2 MPU (Main Processing Unit) slots 1 SPU (Service Processing Unit) slot 6 HMIM slots 4 Power Supply slots	2 MPU (Main Processing Unit) slots 1 SPU (Service Processing Unit) slot 8 HMIM slots 4 Power Supply slots
Physical characteristics
Dimensions	17.32(w) x 18.9(d) x 6.89(h) in. (44 x 48 x 17.50 cm) (4U height)	17.32(w) x 18.9(d) x 8.64(h) in. (44 x 48 x 21.95 cm) (5U height)
Weight	45.52 lb (20.65 kg)	49.93 lb (22.65 kg)
Memory and processor
	MPU-100, 2 cores RISC @ 1 GHz, 512 MB flash capacity, 2 GB DDR3 SDRAM SPU-100, 8 cores RISC @ 1 GHz, 2 GB DDR3 SDRAM SPU-200, 16 cores RISC @ 1 GHz, 2 GB DDR3 SDRAM SPU-300, 32 cores RISC @ 1 GHz, 2 GB DDR3 SDRAM	MPU-100, 2 cores RISC @ 1 GHz, 512 MB flash capacity, 2 GB DDR3 SDRAM SPU-100, 8 cores RISC @ 1 GHz, 2 GB DDR3 SDRAM SPU-200, 16 cores RISC @ 1 GHz, 2 GB DDR3 SDRAM SPU-300, 32 cores RISC @ 1 GHz, 2 GB DDR3 SDRAM
Mounting and enclosure
	Desktop or can be mounted in a EIA standard 19-inch telco rack when used with the rack-mount kit in the package	Desktop or can be mounted in a EIA standard 19-inch telco rack when used with the rack-mount kit in the package
Performance
Throughput	SPU-100/SPU-200/SPU-300 (10 Mpps/20 Mpps/36 Mpps)	SPU-100/SPU-200/SPU-300 (10 Mpps/20 Mpps/36 Mpps)
Routing table size	1000000 entries (IPv4), 1000000 entries (IPv6)	1000000 entries (IPv4), 1000000 entries (IPv6)
Forwarding table size	1000000 entries (IPv4), 1000000 entries (IPv6)	1000000 entries (IPv4), 1000000 entries (IPv6)
Environment
Operating temperature	32°F to 113°F (0°C to 45°C)	32°F to 113°F (0°C to 45°C)
Operating relative humidity	5% to 90%, noncondensing	5% to 90%, noncondensing
Nonoperating/Storage temperature	-40°F to 158°F (-40°C to 70°C)	-40°F to 158°F (-40°C to 70°C)
Nonoperating/Storage relative humidity	5% to 90%, noncondensing	5% to 90%, noncondensing
Altitude	Up to 16,404 ft (5 km)	Up to 16,404 ft (5 km)
Electrical characteristics
Frequency	50/60 Hz	50/60 Hz
Maximum heat dissipation	285/347 BTU/hr (300.67/366.09 kJ/hr), lower number is with SPU-100 module installed; higher number is for SPU-200	297/358 BTU/hr (313.33/377.69 kJ/hr), lower number is with SPU-100 module installed; higher number is for SPU-200
AC voltage	100–240 VAC	100–240 VAC
DC voltage	-36 to -75 VDC	-36 to -75 VDC
Maximum power rating	300 W	300 W
PoE power	450 W PoE+	450 W PoE+
	- Maximum power rating and maximum heat dissipation are the worst-case theoretical maximum numbers provided for planning the infrastructure with fully loaded PoE (if equipped), 100% traffic, all ports plugged in, and all modules populated. - PoE Power is the power supplied by the internal power supply, it is dependent on the type and quantity of power supplies and may be supplemented with the use of an External Power Supply (EPS). - No default power supply is included in the chassis; a minimum of one/maximum of four power supplies should be ordered.
Reliability
MTBF (years)	178.66	178.66
Safety
	UL 60950-1; EN 60825-1 Safety of Laser Products-Part 1; EN 60825-2 Safety of Laser Products-Part 2; IEC 60950-1; EN 60950-1; CAN/CSA-C22.2 No. 60950-1; FDA 21 CFR Subchapter J; AS/NZS 60950-1; GB 4943.1	UL 60950-1; EN 60825-1 Safety of Laser Products-Part 1; EN 60825-2 Safety of Laser Products-Part 2; IEC 60950-1; EN 60950-1; CAN/CSA-C22.2 No. 60950-1; FDA 21 CFR Subchapter J; AS/NZS 60950-1; GB 4943.1
Emissions
	EN 61000-4-11:2004; ANSI C63.4-2009; AS/NZS CISPR 22:2009; CISPR 22 Ed2.0 2008-09; EN 55022:2010; EN 61000-3-3:2008; GB 9254-2008; IEC 61000-3-2 Ed3.0 (2009-02); IEC 61000-3-3 Ed2.0 (2008-06); VCCI V-4/2012.04; CISPR 24 Ed2.0 2010-08; EN 55024:2010; EN 61000-3-2:2006+A1:2009+A2:2009; EN 61000-4-2: 2009; EN 61000-4-29:2000; EN 61000-4-3:2006; EN 61000-4-4:2012; EN 61000-4-5:2006; EN 61000-4-6: 2009; EN 61000-4-8:2010; ETSI EN 300 386 V1.6.1 (2012-09); FCC 47 CFR Part 15 (latest current version); ICES-003 Issue 5; IEC 61000-4-11 Ed2.0 (2004-03); IEC 61000-4-2 Ed2.0 (2008-12); IEC 61000-4-29 Ed1.0 (2000-08); IEC 61000-4-3 Ed3.2 (2010-04); IEC 61000-4-4 Ed3.0 (2012-04); IEC 61000-4-5 Ed2.0 (2005-11); IEC 61000-4-6 Ed3.0 (2008-10); IEC 61000-4-8 Ed2.0 (2009-09); VCCI V-3/2013.04	EN 61000-4-11:2004; ANSI C63.4-2009; AS/NZS CISPR 22:2009; CISPR 22 Ed2.0 2008-09; EN 55022:2010; EN 61000-3-3:2008; GB 9254-2008; IEC 61000-3-2 Ed3.0 (2009-02); IEC 61000-3-3 Ed2.0 (2008-06); VCCI V-4/2012.04; CISPR 24 Ed2.0 2010-08; EN 55024:2010; EN 61000-3-2:2006+A1:2009+A2:2009; EN 61000-4-2: 2009; EN 61000-4-29:2000; EN 61000-4-3:2006; EN 61000-4-4:2012; EN 61000-4-5:2006; EN 61000-4-6: 2009; EN 61000-4-8:2010; ETSI EN 300 386 V1.6.1 (2012-09); FCC 47 CFR Part 15 (latest current version); ICES-003 Issue 5; IEC 61000-4-11 Ed2.0 (2004-03); IEC 61000-4-2 Ed2.0 (2008-12); IEC 61000-4-29 Ed1.0 (2000-08); IEC 61000-4-3 Ed3.2 (2010-04); IEC 61000-4-4 Ed3.0 (2012-04); IEC 61000-4-5 Ed2.0 (2005-11); IEC 61000-4-6 Ed3.0 (2008-10); IEC 61000-4-8 Ed2.0 (2009-09); VCCI V-3/2013.04
Telecom
	FCC part 68; CS-03	FCC part 68; CS-03
Management
	IMC—Intelligent Management Center; command-line interface; limited command-line interface; configuration menu; out-of-band management (RJ-45 Ethernet); SNMP Manager; Telnet; RMON1; FTP; in-line and out-of-band; modem interface; out-of-band management (serial RS-232C or Micro USB); IEEE 802.3 Ethernet MIB	IMC—Intelligent Management Center; command-line interface; limited command-line interface; configuration menu; out-of-band management (RJ-45 Ethernet); SNMP Manager; Telnet; RMON1; FTP; in-line and out-of-band; modem interface; out-of-band management (serial RS-232C or Micro USB); IEEE 802.3 Ethernet MIB
Services
	Refer to the HP website at hp.com/networking/services for details on the service-level descriptions and product numbers. For details about services and response times in your area, please contact your local HP sales office.	Refer to the HP website at hp.com/networking/services for details on the service-level descriptions and product numbers. For details about services and response times in your area, please contact your local HP sales office.

Documentation:

Download the HP MSR4000 Series Datasheet (PDF).