HPE Storage Switch M-series SN3420M with NVIDIA Cumulus® Linux QuickSpecs

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M-series SN3420M with NVIDIA Cumulus® Linux is based on the 2nd generation of NVIDIA SpectrumTM switches, purpose-built for leaf/spine/super-spine data center applications.


M-series SN3420M with NVIDIA Cumulus® Linux is based on the 2nd generation of NVIDIA Spectrum TM switches, purpose-built for leaf/spine/super-spine data center applications. Allowing maximum flexibility, the 1U SN3420M provides port speeds spanning from 1 GbE to 100 GbE, and a port density that enables full-rack connectivity to any server. SN3420M provides an on chip fully-shared 42 MB packet buffer, and flexible port use in addition to advanced capabilities. The uplink ports allow a variety of blocking ratios to suit any application requirement. The SN3420M is ideal for building cloud-scale layer-2 and layer-3 networks. The SN3420M platform delivers high performance, consistent low latency along with support for advanced software defined networking features, making it the ideal choice for web scale IT, cloud, hyperconverged storage and data analytics applications.

  • Overview

    HPE M-Series with NVIDIA Cumulus® Linux family of Ethernet switches are capable of addressing today’s data center’s complex networking requirements, growth, and expansion and are perfect for Top-of-Rack (TOR) deployments and optimized for virtualized environments, hyperconverged infrastructure, and storage deployments. HPE M-Series Ethernet switches give you the right network bandwidth with consistent zero-packet loss performance for high-performance and storage workloads.


    With an increasing need to access data faster and accommodate growing workloads, rising levels of east-west traffic, and new storage arrays based on flash storage technologies, a high bandwidth, low-latency, a zero-packet loss network becomes paramount. The HPE SN3420M Switch with NVIDIA Cumulus® Linux offers a mix of SFP28 and QSFP28 connectivity for Top-of-Rack applications requiring matched downlink to uplink bandwidth. NVIDIA Cumulus® network platforms are capable of delivering exceptional networking speed and agility to keep pace with the most intense workloads small to large scale enterprises can produce. With port speeds spanning 1 Gb/s to 100 Gb/s and a switching capacity of 4.8 Tb/s from 48 ports at 25 GbE and 12 ports at 100 GbE. This switch provides non-blocking throughput at wire-speed transfers-across all packet sizes. The SN3420M delivers a landmark 3.58 Bpps processing capacity and an uncompromising ultra-low true cut-through latency.


    Delivering the highest feature set at the right price allows you to get the most out of your Ethernet infrastructure to best support a variety of use cases, including media and entertainment; streaming video, financial services industry, virtualized data centers, and next generation storage, including software-defined storage and NVMe® flash. HPE SN3420M switches are available with factory integrated NVIDIA Cumulus® Linux for immediate deployment. With HPE M-Series switches, you can:


    • Optimize Storage — modernize your network to eliminate limitations and bottlenecks that can be caused by the addition of flash storage
    • Enjoy Efficient Network Performance —avoid packet loss, provide predictable performance with line-rate packet delivery across all ports and all packet sizes
    • Realize Breakthrough Economics —make better use of your data center resources with the highest port density per rack unit and the industry’s lowest power consumption
    • Accelerate Business Innovation —utilize 1/10/40 Gbps Ethernet connectivity for existing workloads and enhance connectivity utilizing built-in 25/100 Gbps capabilities to respond quickly to business needs and to stay on the leading edge of Ethernet switching technology

    HPE SN3420M Ethernet switches are based on the high-performance 25 GbE NRZ encoding capable Spectrum-2 ASIC and are ideally suited for both Top-of-Rack leaf and fixed configuration spines with capabilities:

    • − Ethernet port speeds from 1 Gbps to 100 Gbps
    • − 12 100/40 GbE QSFP28 ports and 48 x1/10/25 GbE SFP28 ports
    • All 12 QSFP28 ports support split x4 or x2 mode (12 x4=48 breakout ports maximum)
    • − 42 MB of fully-shared packet buffering
    • − 512K on-chip, dynamically shared forwarding table
    • − Deep visibility with 512k general purpose counters
    • − In-band network telemetry
    • − Feature-rich layer 2 and layer 3 forwarding
    • − Ultra-low latency with true cut through performance, Zero-packet loss performance with NVMe TCP and RoCEV2 RDMA, DCBX, PFC, ECN support

Models

HPE M-Series SN3420M Ethernet Switch Model

Description

SKU

HPE 25 GbE 48SFP28 12QSFP28 Power to Connector Airflow Switch SN3420M with NVIDIA Cumulus

  • − HPE 48SFP28 12QSFP28 P2C Sw SN3420M w/NVD

S2T77A

Notes: HPE switch SKUs with factory installed NVIDIA Cumulus® Linux cannot be converted to HPE ONYX or ONIE switch SKUS.

image
image 2

  • Standard Features

    Key Features and Benefits

    • − SN3420M switches are ideal for modern server and storage networks, supporting DAC, AOC, and optical breakout cables. The 48 SFP28 and 12 QSFP28 ports deliver predictable performance and zero-packet loss at line-rate across each port and packet size.
    • − The 12 100 GbE NRZ encoded ports in the SN3420M switches can be split to two (split-2) 50 GbE ports, or to four (or less) 1/10/25 GbE NRZ encoded ports, using a splitter cable.

image 3
  • − SN3420M can be deployed to support 1 GbE and 10 GbE ports, including 10 Gbase-T RJ45 transceivers, and is designed to be able to evolve over time to support 25, 40, 50, 100 GbE speeds. This helps future-proof your network architecture and allows for implementing significant speed upgrades to the architecture over time.
  • − SN3420M provides ultra-low cut-through latency port-to-port. This is advantageous for flash storage, which moved the latency bottleneck from storage media to the network, as well as for the bursty nature of today’s software-defined and cloud-driven data center traffic flows.
  • M-series SN3420M provide high port density in a single rack unit, allowing for higher capacity and efficiency, simplifying scale-out environments and saving on total cost of ownership. Unique breakout cables fan out individual switch ports to multiple device ports.
  • − Provides wire-rate performance with zero-packet loss across all frame sizes, avoiding any negative impact on applications that could occur with frame loss as unexpected packet loss is unacceptable in modern data centers, especially within a storage network.
  • − Capable of forwarding 100% capacity wire rate performance with zero-packet loss across all ports concurrently at 25 GbE and 100 GbE speeds while transferring data across both Layer 2 and Layer 3 networks.
  • − Designed to use less electric power than competing switches, providing one of the industry’s lowest power draws, producing less heat than competing products, providing reduced OpEX cost.
  • − Provides enough switching bandwidth to transport all ports at 25 GbE and 100 GbE bandwidth concurrently. This allows the switches to avoid head-of-line blocking which can reduce a switches overall performance and throughput.

NVIDIA® Cumulus Linux

Cumulus Linux is a powerful open network operating system enabling advanced automation, customization and scalability using web-scale principles like the world’s largest data centers. It accelerates networking functions and provides choice from an extensive list of supported switch models including NVIDIA Spectrum TM based switches. Cumulus Linux was built for automation, scalability and flexibility, allowing you to build data center and campus networks that ideally suit your business needs. Cumulus Linux is the only open network OS that allows you to build affordable and efficient network operations like the world’s largest data center operators, unlocking web scale networking for businesses of all sizes.


The ideal solution for your network challenges, Cumulus Linux enables modern data center architecture, while providing a transition path for traditional data center architecture, with support for layer 2, layer 3, and overlay networks. This open approach enables a wide range of solutions. Centralized, remote management of AI deployments enables over-the-air software updates, remote debugging, and system monitoring, as well as other features like self-healing systems. These remote management features make maintenance and upkeep easier, and AI more accessible and practical for locations that are difficult to access or far from headquarters. This results in faster, more comprehensive insights that can drive real-time decisions.


Deployment Models:

L3 network, L2 network, Clos, Out-of-band management, Overlay network,


Use cases:

Containers, Big data, Private cloud, Network virtualization, DevOps / automation, Monitoring and analytics, Hyperconverged infrastructure

Key Features

Unnumbered Interfaces: Automation gets even easier with this simplified Internet Protocol (IP) approach for Border Gateway Protocol (BGP) and Open Shortest Path First (OSPF). All you need is one IP template for leaf nodes and one for spine nodes. BGP Unnumbered, the only difference between a BGP unnumbered configuration and the BGP numbered configuration is that the BGP neighbor is as an interface (instead of an IP address). There is no need to configure an IP address on the interface between the two peers on each side.


Redistribute Neighbor (RDNBR): Get virtual machine (VM) and host mobility by plugging your server into any RDNBR switch and making it layer 3-discoverable on the fabric. If you need to move the server, there’s no need to reconfigure.


Prescriptive Topology Manager (PTM): Efficiently go from whiteboard to physical cable. With PTM, you can program your data center to verify connections and resolve issues faster.


Virtual Routing and Forwarding : Run multiple network paths without the need for multiple switches, giving you traffic isolation and network segmentation for multiple devices.


Ethernet Virtual Private Networks (EVPN): The most advanced capabilities available for EVPN allow legacy layer-2 applications to operate over next-generation layer-3 networks.


NVIDIA User Experience (NVUE): A full command-line interface (CLI) object model of Cumulus Linux enables advanced programmability, extensibility, and usability.


Digital twins: NVIDIA Air makes physical deployments seamless by validating and simplifying deployments and upgrades in a virtual network.

image 3

User Interface: Command Line

With the NVIDIA User Experience (NVUE) object-oriented management tool, Cumulus Linux customers can go beyond the CLI and unify their network management with the rest of the data center management. NVUE enables any APIs to tie into NOS management, including REST, gRPC, RestConf, NetConf, and OpenConfig. Additionally, NVUE is Git-based, enabling Diff, revert, apply, branch, and stash behaviors. NVUE’s configuration is simple: one YAML file ties all Linux configurations together, making it easy to copy configurations from switch to switch.


Operating System Install and Upgrade

  • − Server-style upgrade/patching across minor releases, server-style process restart/termination
  • − Support for zero touch OS installation using ONIE loaded on industry-standard switches
  • − Standard mechanism for authentication, authorization, and accounting with TACACS+

Extensibility

  • − Cumulus Linux works with any language supported in Linux today, including scripting with Bash, Perl, Python, and Ruby

Hardware Management

  • − The switch hardware abstraction layer accelerates Linux kernel networking constructs in hardware, including the routing table, ARP table, bridge FOB, IP/EB tables, bonds, VLANs, and VXLAN bridges
  • − Hardware management also includes jumbo frames support and environmental management
  • − Forwarding table profiles on the ASIC provide flexible partitioning of resources

Layer 3 Features

  • − IPv4/v6 routing suite including OSPFv2, OSPFv3, and BGPv4/v6
  • − RDMA over Converged Ethernet (RoCEv2) support for Layer 2 and Layer 3
  • − Virtual routing and forwarding (VRF) and VRF route leaking
  • − Equal-cost multi-path (ECMP) and ECMP resilient hashing for IPv4 and IPv6 traffic
  • − Bidirectional forwarding detection (BFD) across all platform and interface types, IPv4 and IPv6, BGP and OSPF, VXLAN, BGP conditional route advertisement
  • − Protocol-independent multicast (PIM, PIM-SM, PIM-SSM)
  • − Policy-based routing
  • − Generic routing encapsulation (GRE) tunneling
  • − Precision time protocol (PTP) Boundary Clock
  • − VNI scaling: supports 6 bridges with up to 1,000 VNls
  • − GTP Hashing
  • − Adaptive Routing with RoCEv2

Layer 2 features

  • − Bridge management with STP (IEEE 802.1d). RSTP (IEEE 802.1w), PVRST, PVST, bridge assurance, BPDU guard, and BPDU filter
  • − VLANs. VLAN trunks (IEEE 802.1q). LACP (IEEE 802.3adl. LACP bypass, unicast/broadcast storm control, LLDP, CDP, IPv6 neighbor discovery, and IPv6 route advertisement
  • − MLAG (Multi-Chassis Link Aggregation)
  • − IGMPv2/v3 snooping, MLDv1/v2 snooping, Optimized Multicast Flooding (OMF)
  • − Virtual router redundancy (VRR - active-active first hop redundancy protocol)
  • − LLDP DCB IEEE TLVs

Network Virtualization

  • − VXLAN support
  • − VXLAN Routing - symmetric and asymmetric
  • − L2 gateway services integration with VMware NSX
  • − VXLAN head end replication
  • − VXLAN active-active bridging with MLAG
  • − Controller-less network virtualization with EVPN

Management

  • − Object-oriented APl-compatible switch management with NVIDIA User Experience (NVUE)
  • − ISSU: in-service software upgrades
  • − Warm boot on bonds
  • − Native Linux management tools, such as OpenSSH, SCP, and FTPS
  • − Automated install and provisioning: zero touch install and zero touch provisioning
  • − Management VRF
  • − DHCP and v4/v6 DHCP relays
  • − Authentication with LDAP and authorization with sudo NTP
  • − Interface configuration management (ifupdown2)
  • − Advanced management/orchestration through third-party add-on packages
  • − Snapshot and rollback of the entire system to eliminate risk from system updates

Monitoring and Troubleshooting

  • − Monitor traffic patterns and preemptive capacity planning with buffer monitoring
  • − Traditional monitoring with SNMPv2 and SNMPv3 and network-specific MIBs, hardware monitoring via watchdog, analytics with SPAN, ERSPAN, ACL-based counters, DOM optics data, thermal sensors, real time queue depth, and buffer utilization reporting
    • HPE recommends use of SNMPv3 username and password instead of the read-only community; SNMPv3 does not expose the password in the GetRequest and GetResponse packets and can also encrypt packet contents. You can configure multiple usernames for different user roles with different levels of access to various MIBs
    • The /usr/share/snmp/mibs/Cumulus-Snmp-MIB.txt file defines the overall Cumulus Linux MIB
  • − Troubleshooting with dnsutils, syslog, reachability tools, hardware inventory, log files, server-style filesystem, and Spectrum ASIC commands
  • − The cl-support script generates a compressed archive file (.txz) of useful information for troubleshooting. The system either creates the archive file automatically or you can create the archive file manually. The system creates the cl-support archive file automatically for the following reasons:
    • When there is a core dump file for any application (not specific to Cumulus Linux, but something all Linux distributions support), located in /var/support/core
    • When one of the monitored services fails for the first time after you reboot or power cycle the switch
  • − sFlow monitoring for system statistics and network traffic
  • − The NVIDIA Firmware Tool (MFT) mlxlink tool is integrated into Cumulus and is used to check and debug link status and related issues. The tool can be used on different links and cables (passive, active, transceiver and backplane)
  • − What Just Happened (WJH) provides real time visibility into network problems and has two components:
    • The WJH agent enables you to stream detailed and contextual telemetry for off-switch analysis with tools such as NVIDIA NetQ
    • The WJH service (what-just-happened) enables you to diagnose network problems by looking at dropped packets. WJH can monitor layer 1, layer 2, layer 3, tunnel, buffer and ACL related issues. Cumulus Linux enables and runs the WJH service by default
    • You can choose which packet drops you want to monitor and show by creating channels and setting the packet drop categories (layer 1, layer 2, layer 3, tunnel, buffer and ACL) you want to monitor
    • NVUE does not provide commands to set the buffer and ACL packet drop categories. You must edit the /etc/what-just-happened/what-just-happened.json file. NVUE supports WJH show commands

Security

  • − Access control lists (ACLs) L2-L4 classification through IP/EP tables and CPU protection through hardware enforced ACL-based rate limiting DoS control
  • − Authenticate and authorize attached devices with 802.1x
  • − Kernel Address Space Randomization

QoS

  • − Link PAUSE
  • − Classification based on Class of Service (CoS) (IEEE 802.1p) or DSCP (queuing, scheduling-DWRR and Strict Priority - and buffer allocation)
  • − Ingress ACL-based classification/policing
  • − Priority flow control and explicit congestion notification (ECN)
  • − Dynamic buffer configuration as default

Cumulus VX and NVIDIA AIR

  • − Getting started with Cumulus Linux is easy. Customers can explore, test, and prototype the technology
  • To build a data center digital twin or mock-up a deployment with Cumulus, visit NVIDIA Air
  • − Download the free NVIDIA Cumulus VX appliance, supported virtual appliance to test and stage production rollouts

Third-party Packages

  • − Orchestration: Ansible, CFEngine, Chef, and Puppet
  • − Monitoring: Collectd, Ganglia, Graphite, Nagios/lcinga, and NetSNMP
  • − You can use Cumulus Linux to run the Docker container platform. You can install Docker Engine directly on a Cumulus Linux switch and run Docker containers natively on the switch

  • Service and Support

    Warranty

    (3-3-3) Hardware Warranty; 3-year parts; 3-year on-site (standard business hours, next business day response) and 3-year labor.

    Notes: The hardware warranty covers firmware. For extended hardware support and installation information, please see the “Services and Support” Section.


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  • Configuration Information

    Model Description

HPE M-series SN3420M (P2C) 48SFP28 12QSFP28 Switch
  • − 2 x 550w Power Supply with Intake Fan
  • − 5 x Intake Fan Tray
  • − 1 x Fixed Rack Mount Kit MTEF-KIT-SP Standard: 23.6"-31.5" (60 to 80 cm)
  • − 2 x Power cord, 1.83m, C14-C13
  • − 1 x Serial cable (DB9 to RJ45)
  • − 2 x PSU CABLE RETAINER KIT
  • − 1 x HPE Warranty and Installation instructions

Notes: SN3420M with NVIDIA Cumulus® Linux requires transceivers listed below

Step 1 - Base Configuration

Select one Model

Description

SKU

HPE 25GbE 48SFP28 12QSFP28 Power to Connector Airflow Switch SN3420M with NVIDIA Cumulus®

  • − HPE 48SFP28 12QSFP28 P2C Sw SN3420M NVD, AC power

S2T77A

Step 2 – Options

Refer to HPE M-Series Switches SPOCK Connectivity Stream for latest SN3420M with NVIDIA Cumulus® Linux interconnect support matrix

Transceivers – for M-series SN3420M NVIDIA Cumulus® Linux switches

Note #

Descriptions

SKU

HPE 100GbE QSFP28 SR4 100m Transceiver

Q2F19A

HPE Storage 100GbE QSFP28 SR4 Extended Temperature Pull Tab Transceiver

S2T35A

HPE Aruba Networking 100G SR1.2 QSFP28 LC 100m MMF Transceiver

S4B44A

HPE 100GbE QSFP28 500m 1310mm PSM4 Transceiver

Q8J73A

5, 6

HPE 100Gb QSFP28 LC SWDM4 Multi-mode 100m Transceiver

R0R40A

2

HPE 10GbE SFP+ SR Multi-mode 300m Transceiver

Q6M30A

2

HPE 10Gb SFP+ Short Wave 1-pack Pull Tab Optical Transceiver

Q2P65A

2, 7, 8

HPE 10GBASE-T SFP+ RJ45 30m 1-pack Transceiver

R0R41B

2

HPE 25Gb SFP28 SR 30m Transceiver

R0R42A

2

HPE BladeSystem c-Class 10Gb SFP+ SR Transceiver

455883-B21

2

HPE Aruba Networking 1G SFP RJ45 T 100m Cat5e TAA Transceiver

R9Q45A

2

HPE Aruba Networking 25G SFP28 LC LR 10km SMF Transceiver

JL486A

2

HPE 25GbE SFP28 LR 10km 1-pack Extended Temperature Pull Tab Transceiver

S6B58A

2

HPE Aruba Networking 10G SFP+ LC LR 10km SMF Transceiver

J9151E

2

HPE Aruba Networking 10G SFP+ LC ER 40km SMF Transceiver

J9153D

2

HPE 10GbE SFP+ LR 10km 1-pack Extended Temperature Pull Tab Transceiver

S6B57A

2

HPE Networking X130 10G SFP+ LC SR Transceiver

JD092B

2

HPE Networking X130 10G SFP+ LC LR Transceiver

JD094B

2

HPE Networking X130 10G SFP+ LC ER 40km Transceiver

JG234A

1, 2

HPE Networking X130 10G SFP+ LC LH 80km Transceiver

JG915A

HPE Networking X140 40G QSFP+ CSR4 300m Transceiver

JG709A

HPE Networking X140 40G QSFP+ LC LR4L 2km SM Transceiver

JL286A

HPE Networking X140 40G QSFP+ LC LR4 SM 10km 1310nm Transceiver

JG661A

HPE Aruba Networking 40G QSFP+ LC ER4 40km SMF Transceiver

Q9G82A

HPE BladeSystem c-Class 40Gb QSFP+ MPO SR4 100m Transceiver

720187-B21

HPE Networking X140 40G QSFP+ LC BiDi 100m MM Transceiver

JL251A

HPE 40Gb QSFP+ Bidirectional Transceiver

841716-B21

2

HPE Networking X190 25G SFP28 LC SR 100m MM Transceiver

JL293A

2

HPE 25Gb SFP28 Short Wave Extended Temperature 1-pack Pull Tab Optical Transceiver

Q2P64B

HPE Aruba Networking 25G SFP28 LC eSR 400m MMF Transceiver

JL485A

HPE Networking X140 40G QSFP+ MPO SR4 Transceiver

JG325B

HPE Aruba Networking 40G QSFP+ MPO SR4 Transceiver

R9F97A

2

HPE 25Gb SFP28 SR 100m Transceiver

845398-B21

2

HPE Aruba Networking 25G SFP28 LC LR 10km SMF Transceiver

JL486A

2

HPE QSFP28 to SFP28 Adapter

845970-B21

HPE Networking X150 100G QSFP28 LC LR4 10km SM Transceiver

JL275A

HPE Networking X150 100G QSFP28 CWDM4 2km SM Transceiver

JH673A

5, 6

HPE Networking X150 100G QSFP28 LC SWDM4 100m MM Transceiver

JH419A

5

HPE 100Gb QSFP28 Bidirectional Transceiver

845972-B21

12

HPE 100GbE QSFP28 LC DR1 500m 1-pack Transceiver

R8M61A

HPE Alletra 6000 2x100Gb QSFP28 MPO SR4 100m FIO Transceiver

R7D08A

HPE Alletra 6000 2x100Gb QSFP28 MPO SR4 100m Transceiver

R7D12A

2

HPE Alletra 6000 2x10Gb SFP+ SR FIO Transceiver

R7D05A

2

HPE Alletra 6000 2x10Gb SFP+ SR Transceiver

R7D09A

2

HPE Alletra 6000 2x25Gb SFP28 SR 100m FIO Transceiver

R7D07A

2

HPE Alletra 6000 2x25Gb SFP28 SR 100m Transceiver

R7D11A

Direct Attach Copper Cables (DAC)

HPE 7.6m/25ft CAT5 RJ45 M/M Ethernet C/O Cable

C7539A

HPE Networking Comware X240 40G QSFP+ QSFP+ 1m Direct Attach Copper Cable

JG326A

HPE Networking Comware X240 40G QSFP+ QSFP+ 3m Direct Attach Copper Cable

JG327A

HPE Networking Comware X240 40G QSFP+ QSFP+ 5m Direct Attach Copper Cable

JG328A

3

HPE 100GbE QSFP28 to 4x25GbE SFP28 1m Direct Attach Copper Cable

Q9S72A

3

HPE Networking Comware X240 40G QSFP+ to 4x10G SFP+ 1m Direct Attach Copper Splitter Cable

JG329A

3

HPE Networking Comware X240 40G QSFP+ to 4x10G SFP+ 3m Direct Attach Copper Splitter Cable

JG330A

3

HPE Networking Comware X240 40G QSFP+ to 4x10G SFP+ 5m Direct Attach Copper Splitter Cable

JG331A

HPE BladeSystem c-Class 10GbE SFP+ to SFP+ 3m Direct Attach Copper Cable

487655-B21

HPE Networking X242 40G QSFP+ to QSFP+ 1m Direct Attach Copper Cable

JH234A

HPE Networking X242 40G QSFP+ to QSFP+ 3m Direct Attach Copper Cable

JH235A

HPE Networking X242 40G QSFP+ to QSFP+ 5m Direct Attach Copper Cable

JH236A

3

HPE Networking X240 QSFP28 4xSFP28 1m Direct Attach Copper Cable

JL282A

3

HPE Networking X240 QSFP28 4xSFP28 3m Direct Attach Copper Cable

JL283A

3

HPE Networking X240 QSFP28 4xSFP28 5m Direct Attach Copper Cable

JL284A

2

HPE Aruba Networking 25G SFP28 to SFP28 0.65m Direct Attach Cable

JL487A

2

HPE Aruba Networking 25G SFP28 to SFP28 3m Direct Attach Copper Cable

JL488A

2

HPE Aruba Networking 25G SFP28 to SFP28 5m Direct Attach Copper Cable

JL489A

2

HPE Aruba Networking 25G SFP28 to SFP28 3m Direct Attach Copper Cable

R9F92A

2

HPE Aruba Networking 25G SFP28 to SFP28 5m Direct Attach Copper Cable

R9F93A

HPE Aruba Networking 100G QSFP28 to QSFP28 1m Direct Attach Copper Cable

R0Z25A

HPE Aruba Networking 100G QSFP28 to QSFP28 5m Direct Attach Copper Cable

R0Z26A

2

HPE 25Gb SFP28 to SFP28 0.5m Direct Attach Copper Cable

R4G18A

2

HPE 25Gb SFP28 to SFP28 1m Direct Attach Copper Cable

R4G19A

2

HPE 25Gb SFP28 to SFP28 3m Direct Attach Copper Cable

844477-B21

2

HPE 25Gb SFP28 to SFP28 5m Direct Attach Copper Cable

844480-B21

2

HPE Aruba Networking 100G QSFP28 to QSFP28 3m Direct Attach Copper Cable

JL307A

HPE Aruba Networking 100G QSFP28 to QSFP28 1m Direct Attach Copper Cable

R9F77A

HPE Aruba Networking 100G QSFP28-QSFP28 3m Direct Attach Copper Cable

R9F74A

HPE Aruba Networking 100G QSFP28 to QSFP28 5m Direct Attach Copper Cable

R9F78A

HPE 100Gb QSFP28 to 4x25Gb SFP28 3m Direct Attach Copper Cable

845416-B21

HPE 100Gb QSFP28 to QSFP28 5m Direct Attach Copper Cable

845408-B21

HPE Networking X240 100G QSFP28 1m DAC Cable

JL271A

HPE Networking X240 100G QSFP28 3m DAC Cable

JL272A

HPE Networking X240 100G QSFP28 5m DAC Cable

JL273A

HPE Aruba Networking 10G SFP+ to SFP+ 7m Direct Attach Copper Cable

J9285D

HPE 100Gb QSFP28 to QSFP28 3m Direct Attach Copper Cable

845406-B21

HPE 100Gb QSFP28 to QSFP28 0.5m Direct Attach Copper Cable

R8M59A

2

HPE Alletra 6000 2x10Gb SFP+ to SFP+ 3m Direct Attach Copper Cable

R7D16A

2

HPE Alletra 6000 2x25Gb SFP28 to SFP28 3m Direct Attach Copper Cable

R7D17A

HPE Alletra 6000 2x100Gb QSFP28 to QSFP28 3m Direct Attach Copper Cable

R7D18A

HPE Aruba Networking 10G SFP+ to SFP+ 3m Direct Attach Copper Cable

R9F84A

Active Optical Cable (AOC)

Notes #

Descriptions

SKU

3

HPE 40GbE QSFP+ to 4x10GbE SFP+ 5m Active Optical Cable

Q9S66A

2

HPE 25GbE SFP28 to SFP28 3m Smart Active Optical Cable

Q9S67A

2

HPE 25GbE SFP28 to SFP28 5m Smart Active Optical Cable

Q9S68A

2

HPE 25GbE SFP28 to SFP28 10m Smart Active Optical Cable

Q9S69A

2

HPE 25GbE SFP28 to SFP28 15m Smart Active Optical Cable

Q9S70A

HPE 100GbE QSFP28 to QSFP28 5m Active Optical Cable

Q9S71A

2

HPE Aruba Networking 25G SFP28 to SFP28 7m Active Optical Cable

R9F95A

HPE Aruba Networking 100G QSFP28 to QSFP28 2m Active Optical Cable

R9F76A

HPE Aruba Networking 100G QSFP28 to QSFP28 7m Active Optical Cable

R9F79A

HPE Aruba Networking 100G QSFP28 to QSFP28 15m Active Optical Cable

R9F80A

HPE Aruba Networking 100G QSFP28 to QSFP28 30m Active Optical Cable

R9F81A

HPE BladeSystem c-Class QSFP+ to 4x10G SFP+ 15m Active Optical Cable

721076-B21

HPE BladeSystem c-Class 40G QSFP+ to QSFP+ 15m Active Optical Cable

720211-B21

HPE 100Gb QSFP28 to QSFP28 7m Active Optical Cable

845410-B21

HPE 100Gb QSFP28 to QSFP28 15m Active Optical Cable

845414-B21

HPE QSFP28 to 4x25Gb SFP28 7m Active Optical Cable

845420-B21

HPE QSFP28 to 4x25Gb SFP28 15m Active Optical Cable

845424-B21

HPE Storage 100GbE QSFP28 to QSFP28 5m Extended Temperature Active Optical Cable

S2T38A

HPE 100GbE QSFP28 2m Extended Temperature Active Optical Cable

S6B63A

Aruba 100G QSFP28 LC FR1 SMF 2km Transceiver

S1D17A/R9B63A

HPE Storage 100GbE QSFP28 to QSFP28 10m Extended Temperature Active Optical Cable

S2T39A

HPE Storage 100GbE QSFP28 to QSFP28 15m Extended Temperature Active Optical Cable

S2T40A

HPE Storage 100GbE QSFP28 to QSFP28 25m Extended Temperature Active Optical Cable

S2T41A

M-series 200 GbE pluggables – DAC/AOC/Optical transceivers

Note #

Descriptions

SKU

9

HPE 200Gb QSFP56 to QSFP56 0.5m Direct Attach Copper Cable

R5Z76A

9

HPE 200Gb QSFP56 to QSFP56 1m Direct Attach Copper Cable

R5Z77A

9

HPE 200Gb QSFP56 to QSFP56 2m Direct Attach Copper Cable

R5Z78A

9

HPE 200Gb QSFP56 to QSFP56 2.5m Direct Attach Copper Cable

R5Z79A

9

HPE 200Gb QSFP56 to QSFP56 5m Active Optical Cable

R5Z80A

9

HPE 200Gb QSFP56 to QSFP56 10m Active Optical Cable

R5Z81A

9

HPE 200Gb QSFP56 to QSFP56 15m Active Optical Cable

R5Z82A

9,10

HPE 200Gb QSFP56 MPO SR4 100m Transceiver

R5Z83A

9,11

HPE 200Gb QSFP56 LC CWDM4 FR4 Transceiver

R5Z84A

9,14

HPE 200Gb QSFP56 to 2x100Gb QSFP56 3m Active Optical Cable

R6F24A

9,14

HPE 200Gb QSFP56 to 2x100Gb QSFP56 5m Active Optical Cable

R6F25A

9,14

HPE 200Gb QSFP56 to 2x100Gb QSFP56 15m Active Optical Cable

R6F26A

9,13

HPE 200Gb QSFP56 to 4x50/25Gb SFP56 2.5m Direct Attach Copper Cable

R6F27A

14

HPE 200GbE QSFP56 to 2xQSFP56 2m Direct Attach Copper Cable

R8M57A

14

HPE 200GbE QSFP56 to 2xQSFP56 2.5m Direct Attach Copper Cable

R8M58A

13

HPE 400GbE QSFP-DD to 4xQSFP56 1m Direct Attach Copper Cable

R8M55A

13

HPE 400GbE QSFP-DD to 4xQSFP56 2m Direct Attach Copper Cable

R8M56A

Notes:

1. JG915A - Storage connectivity support for this transceiver is limited to 40Km.

2. HPE QSA28 (QSFP28 to SFP28) adapter (845970-B21) is compatible with all M-Series switches and is required with this transceiver to convert a QSFP+/QSFP28 slot to a single SFP+/SFP28 slot for 25G or 10G operation with this switch model.

3. The SN2010M 25G DAC connectivity to another M-Series switch or 3rd party switch is limited to a 0.5 m DAC cable. End device connectivity may use 1 m or a 3 m (26 gauge) DAC.

4. This RJ45 crossover cable is compatible and supported for use when directly connecting the two M-Series switch MGMT ports. When configuring MLAG and also utilizing in-band management, the MGMT0 ports of the two switches shall be connected (with MLAG the MGMT0 ports shall be reachable from each switch).

5. The 845972-B21 HPE 100 Gb QSFP28 Bidirectional XCVR does not interoperate with the JH419A and R0R40A HPE 100 Gb QSFP28 LC SWDM4 MM 100 m transceivers.

6. 100 Gbe SWDM4 LC transceivers JH419A and R0R40A are interoperable.

7. 10 Gbase-T SFP+ RJ45 transceiver supports maximum length 30M CAT6a cable. This 10Gabse-T transceiver is not qualified for use at 1 GbE and shall be operated only at 10 GbE.

8. Cumulus 5.9 and later revisions are required for support of R0R41B in the SN3420M and with a QSA28 in SN3420M, SN3700CM, SN3700M, and SN4600cM switches. Prior to Cumulus 5.9, SN3420M limits R0R41B support to Ports 1-6, Cumulus 5.9 expands support to ports 1-48. R0R41B transceiver supports maximum length 30M CAT6a cable. R0R41B 10Gabse-T transceiver is not qualified for use at 1 GbE and shall be operated only at 10 GbE.

9. Cumulus 5.9.2 and later revisions are required for support of the QSA28 and QSFP56 200G pluggable with the SN3700M, SN3700cM, SN3420M, SN2100M, SN2010M and SN4600cM switches.

10. R5Z83A operates at 200 GbE, 100 GbE, and 4x50 GbE breakout. Operation at 4 x25/10GGbE breakout is not supported. Use a 100 GbE transceiver for this breakout application.

11. R5Z84A requires a single mode duplex LC cable.

12. The R8M61A class 6 power requirements limit use in the SN3700cM to ports 1, 2, 31, 32; SN3700M has no power transceiver class 6 port use limit.

13. All cable ports must be set as NRZ or PAM4. A mix between the two technologies is not supported.

14. All cable ports must be set as PAM4, NRZ is not supported.

Supported Optical Cables for all M-Series switch models

Description

SKU

HPE Premier Flex MPO/MPO Multi-mode OM4 12 Fiber 10m Cable

QK729A

HPE Premier Flex MPO/MPO Multi-mode OM4 8 Fiber 50m Cable

QK731A

HPE Premier Flex LC/LC Multi-mode OM4 2 Fiber 1m Cable

QK732A

HPE Premier Flex LC/LC Multi-mode OM4 2 Fiber 2m Cable

QK733A

HPE Premier Flex LC/LC Multi-mode OM4 2 Fiber 5m Cable

QK734A

HPE Premier Flex LC/LC Multi-mode OM4 2 Fiber 15m Cable

QK735A

HPE Premier Flex LC/LC Multi-mode OM4 2 Fiber 30m Cable

QK736A

HPE Premier Flex LC/LC Multi-mode OM4 2 Fiber 50m Cable

QK737A

HPE LC to LC Multi-mode OM3 2-Fiber 0.5m 1-Pack Fiber Optic Cable

AJ833A

HPE LC to LC Multi-mode OM3 2-Fiber 1.0m 1-Pack Fiber Optic Cable

AJ834A

HPE LC to LC Multi-mode OM3 2-Fiber 2.0m 1-Pack Fiber Optic Cable

AJ835A

HPE LC to LC Multi-mode OM3 2-Fiber 5.0m 1-Pack Fiber Optic Cable

AJ836A

HPE LC to LC Multi-mode OM3 2-Fiber 15.0m 1-Pack Fiber Optic Cable

AJ837A

HPE LC to LC Multi-mode OM3 2-Fiber 30.0m 1-Pack Fiber Optic Cable

AJ838A

HPE LC to LC Multi-mode OM3 2-Fiber 50.0m 1-Pack Fiber Optic Cable

AJ839A

HPE Premier Flex MPO/MPO OM4 100m Cable

H6Z30A

HPE Multi Fiber Push On to 4 x Lucent Connector 5m Cable

K2Q46A

HPE Multi Fiber Push On to 4 x Lucent Connector 15m Cable

K2Q47A

HPE Premier Flex MPO/MPO Multi-mode OM4 12 Fiber 1m Cable

Q1H63A

HPE Premier Flex MPO/MPO Multi-mode OM4 12 Fiber 2m Cable

Q1H64A

HPE Premier Flex MPO/MPO Multi-mode OM4 12 Fiber 5m Cable

Q1H65A

HPE Premier Flex MPO/MPO Multi-mode OM4 12 Fiber 15m Cable

Q1H66A

HPE Premier Flex MPO/MPO Multi-mode OM4 12 Fiber 30m Cable

Q1H67A

HPE Premier Flex MPO to 4xLC 30m Cbl

Q1H68A

HPE Premier Flex MPO to 4 x Lucent Connector 50m Cable

Q1H69A

HPE 5m Single-Mode LC/LC Fibre Channel Cable

AK346A

HPE Premier Flex MPO12 to MPO12 APC Single-mode 50m 1-pack Cable

R6F28A

HPE Premier Flex MPO12 to MPO12 APC Single-mode 100m 1-pack Cable

R6F29A

HPE Premier Flex MPO12 to MPO12 APC Single-mode 300m 1-pack Cable

R6F30A

HPE Premier Flex MPO12 to MPO12 APC Single-mode 500m 1-pack Cable

R6F31A

HPE Premier Flex Wide Band OM5 LC 2 Fibers 100m Cable

R9M64A

HPE Premier Flex Wide Band OM5 LC 2 Fibers 150m Cable

R9M65A

HPE Premier Flex Wide Band MPO OM5 8 Fibers 100m Cable

R9M62A

HPE Premier Flex MPO16 to 2xMPO8 OM4 5m Cable

S1H57A

HPE Premier Flex MPO16 to 2xMPO8 OM4 10m Cable

S1H58A

HPE Storage Premier Flex MPO16 to 4xMPO8 OM4 5m Cable

S2T36A

HPE Storage Premier Flex MPO16 to 4xMPO8 OM4 10m Cable

S2T37A

HPE Premier Flex MPO16 to MPO16 OM4 2m Cable

R4D51A

HPE Premier Flex MPO16 to MPO16 OM4 5m Cable

R4D52A

HPE Premier Flex MPO16 to MPO16 OM4 10m Cable

R4D53A

HPE Premier Flex MPO16 to MPO16 OM4 15m Cable

R4D54A

HPE Premier Flex MPO16 to MPO16 OM4 30m Cable

R4D55A

HPE Premier Flex MPO16 to 8xLC OM4 5m Cable

R4D56A

HPE Premier Flex MPO16 to 8xLC OM4 10m Cable

R4D57A

HPE Premier Flex MPO16 to 8xLC OM4 15m Cable

R4D58A

HPE Premier Flex MPO16 to 8xLC OM4 30m Cable

R4D59A

HPE MPO12 to 4xLC Single-mode 15m Fibre Cable

R4D60A

HPE MPO12 to 4xLC Single-mode 30m Fibre Cable

R4D61A

HPE MPO12 to 4xLC Single-mode 2m Fibre Cable

R4D62A

HPE MPO12 to 4xLC Single-mode 5m Fibre Cable

R4D63A

HPE MPO12 to 4xLC Single-mode 10m Fibre Cable

R4D64A

Note:

The following 4 single-mode cables have APC connectors for use with the S6B55A and R8M60B transceivers. They are not compatible with the S6B51A or S6B53A.

HPE Premier Flex MPO8 to MPO8 Single-mode 2m Cable

S6B70A

HPE Premier Flex MPO8 to MPO8 Single-mode 5m Cable

S6B71A

HPE Premier Flex MPO8 to MPO8 Single-mode 15m Cable

S6B72A

HPE Premier Flex MPO8 to MPO8 Single-mode 30m Cable

S6B73A

Note:

The following 6 multi-mode cables have APC connectors for use with the S6B51A, S6B56A, and S6B53A transceivers. Connector damage occurs if they are inserted into a transceiver’s MPO connector.

HPE Premier Flex MPO8 to MPO8 APC OM4 1m Cable

S6B64A

HPE Premier Flex MPO8 to MPO8 APC OM4 2m Cable

S6B65A

HPE Premier Flex MPO8 to MPO8 APC OM4 5m Cable

S6B66A

HPE Premier Flex MPO8 to MPO8 APC OM4 15m Cable

S6B67A

HPE Premier Flex MPO8 to MPO8 APC OM4 30m Cable

S6B68A

HPE Premier Flex MPO8 to MPO8 APC OM4 50m Cable

S6B69A

Note:

  • − The following 2 multi-mode splitter cables have APC connectors for use with the S6B51A, S6B56A, and S6B53A transceivers. Connector damage occurs if they are inserted into a transceiver’s MPO connector.
  • − These 2x splitter cables are configured for the following use cases:
    • MPO8 end: (S6B51A) HPE 400GbE QSFP-DD VR4 50m Transceiver
    • MPO4 end: (S6B56A) HPE 200GbE QSFP56 VR2 50m Transceiver

HPE Premier Flex MPO8 to 2xMPO4 APC OM4 5m Cable

S6B74A

HPE Premier Flex MPO8 to 2xMPO4 APC OM4 15m Cable

S6B75A

  • Technical Specifications

    Family Information (M-series with NVIDIA Cumulus® Linux)

Model

HPE SN2010M 100 GbE x4QSFP28 + x18 1/10/25 GbE switch S2T75A

HPE SN2100M 100 GbE 16QSFP28 switch S2T76A

HPE SN3420M 100 GbE x12QSFP28 + x48 1/10/25 GbE switch S2T77A

HPE SN3700cM 100 GbE 32QSFP28 switch S2T78A

Description

Ideal ½ width ToR

Ideal ½ width ToR

1/10/25 GbE ToR 40/100 GbE

40/100 GbE ToR

Ports Speeds

1/10/25/40/100 GbE

18 x 1/10/25 GbE + 4 x40/100 GbE

Breakout - 16 x1/10/25 GbE

1/10/25/40/100 GbE

16 x40/100 GbE

Breakout –

64 x1/10/25 GbE

48 x1/10/25 GbE

+ 12 x40/100 GbE

Breakout -

48 x1/10/25 GbE

32 x40/100 GbE

Breakout -

128 x1/10/25 GbE

Minimum Configuration

18 + 4 Ports

16 Ports

48 + 12 Ports

32 ports

Size

1U ( ½ 19” wide)

1U ( ½ 19” wide)

1U

1U

Switching Capacity

1.7 Tb/s

3.2 Tb/s

4.8 Tb/s

6.4 Tb/s

Processing Capacity

1.26 Bpps

2.38 Bpps

3.58 Bpps

4.76 Bpps

Forwarding Technology

Cut Through

Cut Through

Cut Through

Cut Through

Latency

300 ns

300 ns

425 ns

425 ns

Typical Power Consumption (ATIS)

66 W

74 W

202 W

242 W

Energy Efficiency

full load:

91.3% @ 115 Vac/60Hz, 92.6% @ 230 Vac/50Hz

full load:

91.3% @ 115 Vac/60Hz , 92.6% @ 230 Vac/50Hz

80 Plus Gold

80 Plus Gold

Supported NOS**

NVIDIA Cumulus® Linux

NVIDIA Cumulus® Linux

NVIDIA Cumulus® Linux

NVIDIA Cumulus® Linux

System Memory

8 GB

8 GB

8 GB

8 GB

SSD Memory

16 GB

16 GB

32 GB

32 GB

Packet Buffer

16 MB

16 MB

42 MB

42 MB

1 GbE Mgmt Port

1 RJ45

1 RJ45

1 RJ45

1 RJ45

Serial Port

1 RJ45

1 RJ45

1 RJ45

1 RJ45

USB Port

1 Mini USB 2.0

1 Mini USB 2.0

1 Type A USB 3.0

1 Micro USB 2.0

Airflow

Power-to-Connector (P2C) airflow

Power-to-Connector (P2C) airflow

Power-to-Connector (P2C) airflow

Power-to-Connector (P2C) airflow

Power Supplies

2 (1+1 redundant) not replaceable

2 (1+1 redundant) not replaceable

2 (1+1 redundant)

2 (1+1 redundant)

Fans

2 fans not replaceable

2 fans not replaceable

5 (N+1 redundant)

4 (N+1 redundant)

Power Supplies with integrated fans

Frequency: 50-60Hz

Input range:

100-264 Vac

Input current 4.5A-2.9A

IEC C14 To C13

Frequency: 50-60Hz

Input range:

100-264 Vac

Input current 4.5A-2.9A

IEC C14 To C13

Frequency: 50-60Hz

Input range:

100-264 Vac

Input current 7.1A-2.8A

IEC C14 To C13

Frequency: 50-60Hz

Input range:

100–264 Vac

Input current 13A-7A

IEC C14 To C13

Size

1.72’’ x 7.87’’ x 20’’ (43.9 mm x 200 mm x 508 mm)

1.72’’ x 7.87’’ x 20’’ (43.9 mm x 200 mm x 508 mm)

1.72’’ x 17.24’’ x 18.29’’ (44 mm x 438 mm x 464.6 mm)

1.72’’ x 16.84’’ x 22’’ (44 mm x 428 mm x 559 mm)

Weight

4.5 Kg (9.9 lbs)

4.54 Kg (10 lbs)

8.5 Kg (18.8 lbs)

14 Kg (30.9 lbs)

Model

HPE SN4600cM 100 GbE

64QSFP28 Switch S2T80A

HPE SN3700M 200 GbE 32QSFP56 Switch S2T79A

HPE SN4700M 400 GbE 32QSFP-DD Switch S2T81A

Description

40/100 GbE

Aggregation/ToR/EoR/ Super Spine

40/50/100/200 GbE

Aggregation/ToR/ Super Spine

40/50/100/200/400 GbE Aggregation/ToR/EoR/ Super Spine

Ports Speeds

64 x40/100 GbE

Breakout –

128 x 1/10/25 GbE

32 x40/100/200 GbE

Breakout –

128 x1/10/25/50 GbE

32 x40/100/200/400 GbE

Breakout –

128 x1/10/25/50 GbE

Minimum Configuration

64 QSFP28 Ports

32 QSFP56 Ports

32 QSFP-DD Ports

Size

2U

1U

1U

Switching Capacity

12.8 Tb/s

12.8 Tb/s

25.6 Tb/s

Processing Capacity

8.4 Bpps

8.33 Bpps

8.4 Bpps

Forwarding Technology

Cut Through

Cut Through

Cut Through

Latency

500 ns

425 ns

500 ns

Typical Power Consumption (ATIS)

466 watts

250 watts

630 watts

Supported NOS**

NVIDIA Cumulus® Linux

NVIDIA Cumulus® Linux

NVIDIA Cumulus® Linux

System Memory

8 GB

8 GB

16 GB

SSD Memory

30 GB

32 GB

60 GB

Packet Buffer

64 MB

42 MB

64 MB

1 GbE Mgmt Port

1 RJ45

1 RJ45

1 RJ45

Serial Port

1 RJ45

1 RJ45

1 RJ45

USB Port

1 Type A USB 2.0

1 Micro USB 2.0

1 Type A USB 2.0

Airflow

Power-to-Connector airflow (P2C) airflow

Power-to-Connector airflow (P2C) airflow

Power-to-Connector airflow (P2C) airflow

Power Supplies

2 (1+1 redundant)

2 (1+1 redundant)

2 (1+1 redundant)

Energy Efficiency

80 Plus Gold

80 Plus Gold

80 Plus Gold

Fans

3 (N+1 redundant)

6 (N+1 redundant)

6 (N+1 redundant)

Power Supplies with integrated fans

Frequency: 50-60 Hz

Input range: 100-264 Vac

Input current 10A–6A

@200 Vac-240 Vac

C14 TO C15 EUR + CCC

C14 TO C15 UL

Frequency: 50-60 Hz

Input range: 100–264 Vac

Input current 13A-7A

@200 Vac- 240 Vac

IEC C14 To C13

Frequency: 50-60 Hz

Input range: 100–264 Vac

Input current 15A-10A

@200 Vac-240 Vac

C14 TO C15 EUR + CCC

C14 TO C15 UL

Size

3.46’’ x 16.85’’ x 22.3’’ (88 mm x 428 mm x 568.5 mm)

1.72’’ x 16.84’’ x 22’’ (44 mm x 428 mm x 559 mm)

1.72” x 16.85” x22.3” (44 mm x 428 mm x 568.5 mm)

Weight

14.64 Kg (32.3 lbs)

14 Kg (30.9 lbs)

11.6 Kg (25.6 lbs)

Notes: **There are separate M-Series SKUs for ONIE, ONYX™ and NVIDIA Cumulus® switch models.

Environment

Operating temperature

0°C to 40°C

Notes: SN4700M 0°C to 35°C

Non-Operating temperature

-40°C to 70°C

NEBs and ETSI operating temperature

-5°C to 55°C

Operating relative humidity (operational)

Noncondensing

10% to 85%

Operating Altitude

0 - 3050 m

Compliant

RoHS

Safety/ EMC

CB, cTUVus, CE, CU, S_Mark, CE, FCC, VCCI, ICES, RCM, BSMI, KCC, CCC

Electrical characteristics

Frequency

50/60 Hz

Voltage

100 - 264 Vac

Ethernet Ports Maximum High-Power Support

  • SN3420M
  • Ports 1-6 Power Class 3 (2.5 W)
  • Ports 7-48 Power Class 1 (1.5 W)
  • Ports 49-52, 54, 56, 58, 60 Power Class 4 (3.5 W)
  • Ports 53, 55, 57, 59 Power Class 7 (5 W)
  • SN3700cM
  • Ports 1, 2, 31, 32 Power Class 7 (5 W)
  • Ports 3-30 Power Class 4 (3.5 W)
  • SN3700M
  • Ports 1-32 Power Class 7 (5 W)
  • Ports 1, 2, 21, 22 Power Class 8 (6.5 W)
  • SN4600cM
  • Ports 1-48 Power Class 4 (3.5 W)
  • Ports 49-64 Power Class 7 (5 W)
  • SN4700M
  • All Ports 1-32 Power Class 48 (12 W) – QSFP-DD new method Watt *4
  • SN2010M
  • Ports 1,2,17,18 Power Class 3 (2.5 W)
  • Ports 3-16 Power Class 1 (1.5 W)
  • Ports 19-22 Power Class 6 (4.5 W)
  • SN2100M
  • Ports 1,2,15,16 Power Class 7 (5 W)
  • Ports 3-14 Power Class 4 (3.5 W)

Safety CB, CE, cTUVus, CU

EN 60950-1:2006+A11:2009+A1:2010+A12:2011+AC:2011+A2:2013, IEC 60950-1:2005 (Second Edition) + AMD 1:2009 + AMD 2:2013 and EN 60950-1:2006 + A11:2009 + A1:2010 + A12:2011 + AC:2011 + A2:2013, UL 60950-1:2007 R10.14, CAN/CSA C22.2 No. 60950 -1-07+A1:2011+A2:2014, IEC 60950-1 Ed. 2.0 :2005 + Am 1:2009+ Am 2:2013, LV CU TR 004/2011 and EMC CU TR 020/2011


EMC CE, ICES, FCC, RCM, VCCI

EN 55032:2012 + AC(13) class A, EN 55024:2010, EN 61000-3-2:2014, EN 61000-3-3: 2013, EN 61000-4-2: 2002, EN 61000-4-3: 2006+A1(08)+A2(10), EN 61000-4-4: 2004+A1(10), EN 61000-4-5: 2006, EN 61000-4-6: 2014 EN 61000-4-11:2004, CFR 47, FCC Part 15:2017, Sub-part B:2019 Class A, ICES-003, Issue 6: 2016 Class A, VCCI-CISPR 32: 2016, Class A, AZ/NZS CISPR 32:2015 Class A, KN22:2009 class A/ KN24:2009


Acoustic

High-speed fan:

  • − SN3420M – 67.6 dB(A)

Typical power with passive cables (ATIS):

  • − SN3420M
  • 689.25 BTUs per Hour (202 watts)

HPE Power Advisor

To address a need to accurately estimate power requirements and to ensure the appropriate levels of power and cooling and power-related operating costs, HPE created the HPE Power Advisor utility. The HPE Power Advisor utility provides accurate and meaningful estimates of the power needs for HPE servers, storage, and switches including M-series Ethernet switches.


Standards

  • − 802.1D Bridging and Spanning Tree
  • − 802.1p QOS
  • − 802.1Q VLAN Tagging
  • − 802.1w Rapid Spanning Tree
  • − 802.1s Multiple Spanning Tree Protocol
  • − 802.1AB Link Layer Discovery Protocol
  • − 802.1Qaz ETS
  • − 802.1Qbb PFC
  • − 802.3ad Link Aggregation with LACP
  • − 802.3ba
  • − 802.3x Flow Control
  • − 1000BASE-KX
  • − 802.3ae 10 Gigabit Ethernet

SNMP MIBs

Due to licensing restrictions, Cumulus Linux does not install all MIBs. For the MIBs that Cumulus Linux does not install, you must add the “non-free” archive to /etc/apt/sources.list. To see which MIBs are on your switch, run ls /usr/share/snmp/mibs/.

BGP4-MIB OSPFv2-MIB

OSPFv3-MIB RIPv2-MIB

You can enable FRR SNMP support to provide support for OSPF-MIB (RFC-1850), OSPFV3-MIB (RFC-5643), and BGP4-MIB (RFC-1657).

CUMULUS-BGPVRF-MIB

Cumulus Linux also includes its own BGP unnumbered MIB for BGP unnumbered peers, defined in /usr/share/snmp/mibs/Cumulus-BGPUN-MIB.txt, which has the OID 1.3.6.1.4.1.40310.7.

CUMULUS-COUNTERS-MIB

Discard counters: Cumulus Linux also includes its own counters MIB, defined in

/usr/share/snmp/mibs/Cumulus-Counters-MIB.txt. It has the OID 1.3.6.1.4.1.40310.2.

CUMULUS-RESOURCE-QUERY-MIB

Cumulus Linux includes its own resource utilization MIB, which is similar to using cl-resource-query. This MIB monitors layer 3 entries by host, route, nexthops, ECMP groups, and layer 2 MAC/BDPU entries.

/usr/share/snmp/mibs/Cumulus-Resource-Query- MIB.txt defines this MIB, which has the OID .1.3.6.1.4.1.40310.1.

CUMULUS-SNMP-MIB

SNMP counters. For information on exposing CPU and memory information with SNMP, see this knowledge base article.

DISMAN-EVENT-MIB

Trap monitoring

ENTITY-MIB

Cumulus Linux supports the temperature sensors, fan sensors, power sensors, and ports from RFC 4133.

Notes: The ENTITY-MIB does not show the chassis information in Cumulus Linux.

ENTITY-SENSOR-MIB

Physical sensor information (temperature, fan, and power supply) from RFC 3433.

HOST-RESOURCES-MIB

Users, storage, interfaces, process info, run parameters.

BRIDGE-MIB

Q-BRIDGE-MIB

The dot1dBasePortEntry and dot1dBasePortIfIndex tables in the BRIDGE-MIB and dot1qBase, dot1qFdbEntry, dot1qTpFdbEntry, dot1qTpFdbStatus, and dot1qVlanStaticName tables in the Q-BRIDGE-MIB tables. You must uncomment the bridge_pp.py pass_persist script in /etc/snmp/snmpd.conf.

IEEE8023-LAG-MIB

Implementation of the IEEE 8023-LAG-MIB includes the dot3adAggTable and dot3adAggPortListTable tables. To enable this, edit /etc/snmp/snmpd.conf and uncomment or add the following lines:


view systemonly included 1.2.840.10006.300.43

pass_persist .1.2.840.10006.300.43

/usr/share/snmp/ieee8023_lag_pp.py

IF-MIB

Interface description, type, MTU, speed, MAC, admin, operation status, counters.

Notes: Cumulus Linux disables the IF-MIB cache by default.

The non-caching code path in the IF-MIB treats 64-bit counters like 32-bit counters (a 64-bit counter rolls over after the value increments to a value that extends beyond 32 bits). To enable the counter to reflect traffic statistics using 64-bit counters, remove the -y option from the SNMPDOPTS line in the /etc/default/snmpd file. The example below first shows the original line, commented out, then the modified line without the -y option:

cumulus@switch:~$ cat /etc/default/snmpd # SNMPDOPTS='-y -LS 0-4 d -Lf /dev/null -u snmp -g snmp -I -smux -p /run/snmpd.pid'

SNMPDOPTS='-LS 0-4 d -Lf /dev/null -u snmp -g snmp -I -smux -p /run/snmpd.pid

IP-FORWARD-MIB

IP routing table.

IP-MIB (includes ICMP)

IPv4, IPv4 addresses counters, netmasks.

IPv6-MIB

IPv6 counters.

LLDP-MIB

Layer 2 neighbor information from lldpd (you need to enable the SNMP subagent in LLDP). You need to start lldpd with the -x option to enable connectivity to snmpd (AgentX).

LM-SENSORS MIB

Fan speed, temperature sensor values, voltages. The ENTITY-SENSOR MIB replaces this MIB.

NET-SNMP-AGENT-MIB

Agent timers, user, group config.

NET-SNMP-VACM-MIB

Agent timers, user, group config.

NOTIFICATION-LOG-MIB

Local logging.

SNMP-FRAMEWORK-MIB

Users, access.

SNMP-MPD-MIB

Users, access.

SNMP-TARGET-MIB

SNMP-TARGET-MIB.

SNMP-USER-BASED-SM-MIBS

Users, access.

SNMP-VIEW-BASED-ACM-MIB

Users, access.

TCP-MIB

TCP-related information.

UCD-SNMP-MIB

System memory, load, CPU, disk IO.

UDP-MIB

UDP-related information.

  • Summary of Changes

Date

Version History

Action

Description of Change

01-Dec-2025

Version 6

Added

− Added new transceiver SKUs in Step 2 – Options section: S6B58A (25GbE LR), S6B57A (10GbE LR), S6B63A (100GbE AOC), and S1D17A/R9B63A (100G QSFP28 LC FR1).

− Expanded Supported Optical Cables section with new single-mode and multi-mode APC cables and splitter cables, including SKUs S6B64A–S6B75A.

− Introduced Ethernet Ports Maximum High Power Support table detailing port Power Classes.

06-Oct-2025

Version 5

Changed

HPE Rebranding FY25

Removed

Obsolete SKU removed - JW148A

02-Jun-2025

Version 4

Changed

Configuration Information section was updated

03-Jun-2024

Version 3

Changed

Obsolete SKUs were removed - 720199-B21 / 720202-B21

Overview, Configuration Information and Technical Specifications sections were updated

01-Apr-2024

Version 2

Changed

Overview and Configuration Information sections were updated

04-Mar-2024

Version 1

New

New QuickSpecs

© Copyright 2025 Hewlett Packard Enterprise Development LP. The information contained herein is subject to change without notice. The only warranties for Hewlett Packard Enterprise products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. Hewlett Packard Enterprise shall not be liable for technical or editorial errors or omissions contained herein.

a50007023enw, 17133 - Worldwide - V6 - 01-December-2025

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