Country / Region
Country / Region
H3C S9820 series switches are a new generation of high-performance, high-density 400GE/100GE Ethernet switches launched by H3C for data centers. These switches provide high density 400GE/100GE/40GE/25GE/10GE ports; supports redundant pluggable power supplies and fans, and the fan direction can be flexibly adjusted. S9820s can be used for next-generation data center core.
S9820s can also connect to S12500 core switches through 400GE uplinks and 100GE switches in downlinks, providing high-bandwidth and large-capacity server access.
The S9820 switch series has two models:
S9820-64H. The switch provides 64 × 100G QSFP28 ports
H3C S9820-8C: supports 8 subslots, each card can provide up to 16 100GE ports or 4 400GE ports , S9820-8C provides up to 128 100G ports or 32 400G ports in total.
*Warranty Information:H3Care CT Foundation Basic 9X5 NBD-Ship Service(1Y)
The following contents are complex, and it is recommended to browse on PC.
Enter c.h3c.com.cn on the PC browser and operate according to the page to synchronize to the PC and continue browsing.
Continue by mobile
The H3C S9820 series switches supports high-density 100GE/40GE/25GE/10GE ports, has powerful forwarding capabilities, and has flexible sub-card configurations, supporting a maximum of 32 400GE ports or 128 100GE ports, with extremely high port density and strong forwarding capability, can meet the needs of high-end data center high-density servers without networking requirements for convergent access.
The switch supports abundant data center features, including:
H3C S9820 series switches supports MP-BGP EVPN (Multiprotocol Border Gateway Protocol Ethernet Virtual Private Network) which can run as VXLAN control plane to simplify VXLAN configuration, eliminate traffic flooding and reduce full mesh requirements between VTEPs via the introduction of BGP RR.
H3C S9820 series switches support Fiber Channel over Ethernet (FCoE), which permits storage, data, and computing services to be transmitted on one network, reducing the costs of network construction and maintenance.
H3C S9820 series switches support Priority-based Flow Control (PFC), Enhanced Transmission Selection (ETS) and Data Center Bridging eXchange (DCBX). These features ensure low latency and zero packet loss for FC storage, RDMA applications and high-speed computing services.
H3C S9820 series switches support DRNI(M-LAG), which enables links of multiple switches to aggregate into one to implement device-level link backup. DRNI is applicable to servers dual-homed to a pair of access devices for node redundancy.
Streamlined topology: DRNI simplifies the network topology and spanning tree configuration by virtualizing two physical devices into one logical device.
Independent upgrading: The DR member devices can be upgraded independently one by one to minimize the impact on traffic forwarding.
High availability: The DR system uses a keepalive link to detect multi-active collision to ensure that only one member device forwards traffic after a DR system splits.
With the rapid development of data center, the scale of the data center expands rapidly; reliability, operation and maintenance become the bottleneck of data center for further expansion. H3C S9820 series switches conform to the trend of automated data operation and maintenance, and support visualization of data center.
INT (Inband-Telemetry) is a network monitoring technology used to collect data from the device. Compared with the traditional network monitoring technology featuring one query, one reporting, INT requires only one-time configuration for continuous data reporting, thereby reducing the request processing load of the device. INT can collect timestamp information, device ID, port information, and buffer information in real time.
Provides a variety of traffic monitoring and analytic tools, including sFlow, NetStream, SPAN/RSPAN/ERSPAN mirroring, and port mirroring to help customers perform precise traffic analysis and gain visibility into network application traffic. With these tools, customers can collect network traffic data to evaluate network health status, create traffic analysis reports, perform traffic engineering, and optimize resource allocation.
Supports realtime monitoring of buffer and port queues, allowing for visible and dynamic network optimization.
Supports PTP (Precision Time Protocol) to achieve highly precise clock synchronization.
Remote Direct Memory Access (RDMA) directly transmits the user application data to the storage space of the servers, and uses the network to fast transmit the data from the local system to the storage of the remote system. RDMA eliminates multiple data copying and context switching operations during the transmission process, and reduces the CPU load.
RoCE supports RDMA on standard Ethernet infrastructures. H3C S9820 switches support RoCE and can be used to build a lossless Ethernet network to ensure zero packet loss.
RoCE include the following key features,include PFC(Priority based Flow Control), ECN(Explicit Congestion Notification), DCBX(Data Center Bridging Capability Exchange Protocol), ETS(Enhanced Transmission Selection).
The switch uses industry-leading programmable switching chips that allow users to define the forwarding logic as needed.
Users can develop new features that meet the evolving trend of their networks through simple software updates.
H3C S9820 series switches adopt the next-generation chip with more flexible Openflow FlowTable, more resources and accurate ACL matching, which greatly improves the software-defined network (SDN) capabilities and meet the demand of data center SDN network.
H3C S9820 series switches can interconnect with H3C SeerEngine-DC Controller through standard protocols such as OVSDB, Netconf and SNMP to implement network automatic deployment and configuration.
H3C S9820 series switch supports AAA, RADIUS and user account based authentication, IP, MAC, VLAN, port-based user identification, dynamic and static binding; when working with the H3C iMC platform, it can conduct real time management, instant diagnosis and crackdown on illicit network behavior.
H3C S9820 series switch supports enhanced ACL control logic, which enables an enormous amount of inbound and outbound ACL, and delegate VLAN based ACL. This simplifies user deployment process and avoids ACL resource wastage. S9820 series switch can also take advantage of Unicast Reverse Path Forwarding (Unicast RFP). When the device receives a packet, it will perform the reverse check to verify the source address from which the packets are supposedly originated, and will drop the packet if such path doesn’t exist. This can effectively prevent the source address spoofing in the network.
The S9820 series switch provides multiple reliability protection at both switch and link levels. With over current, overvoltage, and overheat protection, all models have a redundant pluggable power module, which enables flexible configuration of AC or DC power modules based on actual needs. The entire switch supports fault detection and alarm for power supply and fan, allowing fan speed to change to suit different ambient temperatures.
The switch supports diverse link redundancy technologies such as H3C proprietary RRPP, VRRPE, and Smart Link. These technologies ensure quick network convergence even when large amount of traffic of multiple services runs on the network.
To cope with data center cooling aisle design, the H3C S9820 series switch comes with flexible airflow design, which features bi-cooling aisles in the front and back. Users may also choose the direction of airflow (from front to back or vice versa) by selecting a different fan tray.
The switch improves system management through the following ways:
Provides multiple management interfaces, including the serial console port, mini USB console port, USB port, two out-of-band management ports, and two SFP ports. The SFP ports can be used as in-band management port through which encapsulated sampling packets are sent to the controller or other management devices for deep analysis.
Supports multiple access methods, including SNMPv1/v2c/v3, Telnet, SSH 2.0, SSL, and FTP.
Supports standard NETCONF APIs that allow users to configure and manage the switch, enhancing the compatibility with third-party applications.
Item | S9820-64H | S9820-8C |
Dimensions (H × W × D) | 88.1× 440 × 540 mm (3.44 × 17.32 × 21.26 in) | 130.5 × 440 × 760 mm (5.14 × 17.32 × 29.92 in) |
Weight | ≤ 18 kg (39.68 lb) | ≤45kg |
Console port | 1 | |
Out-of-band management port | One GE copper port and one GE fiber port | |
Mini USB port | 1 | |
USB port | 1 | |
QSFP28 port | 64 | N/A |
Expansion slot | N/A | 8(16 100G ports or 4 400G ports per slot) |
CPU | 2.2GHz @4Cores | |
Flash/SDRAM | 4GB/8GB | |
Latency | < 1 μs | |
Buffer | 42M | 64M |
Switching capacity | 12.8 Tbps | 25.6Tbps |
Forwarding capacity | 4400 Mpps | 7655.5Mpps |
AC-input voltage | 90 VAC to 264 VAC | 90-290 VAC |
DC-input voltage | –40 VDC to –72 VDC | N/A |
Power module slot | 4 | |
Fan tray slot | 3 | 5 |
Air flow direction | From front to rear or from rear to front | |
Static power consumption | Dual AC: 336W | Dual AC:305W |
Typical power consumption | Dual AC: 519W | Dual AC:1132W |
Maximum heat consumption (BTU/hour) | 3190 | 6923 |
MTBF(years) | 23.31 | |
MTTR(hour) | 1 | |
Operating temperature | 0°C to 45°C (32°F to 113°F) | |
Operating humidity | 10% to 90%, noncondensing |
Item | Feature description |
Device Virtualization | M-LAG(DRNI) |
S-MLAG | |
Network Virtualization | BGP-EVPN |
VxLAN(S9820-8C exclude) | |
VxLAN | L2 VxLAN gateway(S9820-8C exclude) |
EVPN VxLAN(S9820-8C exclude) | |
manual configured VxLAN(S9820-8C exclude) | |
IPv4 VxLAN tunnel(S9820-8C exclude) | |
SDN | H3C SeerEngine-DC |
Lossless network | PFC and ECN |
DCBX | |
RDMA and ROCE | |
PFC deadlock watchdog | |
ROCE stream analysis | |
Programmability | Openflow1.3 |
Netconf | |
Ansible | |
Python//TCL/Restful API to realize DevOps automated operation and maintenance | |
Traffic analysis | Sflow |
Netstream | |
VLAN | Port-based VLANs |
Mac-based VLAN ,Subnet-based VLAN and Protocol VLAN | |
VLAN mapping(S9820-8C exclude) | |
QinQ(S9820-8C exclude) | |
MVRP(Multiple VLAN Registration Protocol) | |
Super VLAN | |
PVLAN | |
MAC address | Dynamic learning and aging of mac address entries |
Dynamic,static and blackhole entries | |
Mac address limiting on ports | |
IPv4 routing | RIP(Routing Information Protocol) v1/2 |
OSPF (Open Shortest Path First) v1/v2 | |
ISIS(Intermediate System to Intermediate system) | |
BGP (Border Gateway Protocol) | |
Routing policy | |
VRRP | |
PBR | |
IPv6 routing | RIPng |
OSPFv3 | |
IPv6 ISIS | |
BGP4+ | |
Routing policy | |
VRRP | |
IPv6 routing | PBR |
MPLS/VPLS | Support L3 MPLS VPN(S9820-8C exclude) |
Support L2 VPN: VLL (Martini, Kompella) (S9820-8C exclude) | |
Support MPLS OAM(S9820-8C exclude) | |
Support VPLS, VLL(S9820-8C exclude) | |
Support P/PE function(S9820-8C exclude) | |
Support LDP protocol (S9820-8C exclude) | |
Support MCE | |
Multicast | IGMP snooping |
MLD snooping | |
IPv4 and IPv6 multicast VLAN | |
IPv4 and IPv6 PIM snooping | |
IGMP and MLD | |
PIM and IPv6 PIM | |
MSDP | |
Multicast VPN | |
Reliability | LACP |
STP/RSTP/MSTP protocol, PVST compatible | |
STP Root Guard and BPDU Guard | |
RRPP and ERPS | |
Ethernet OAM | |
Smartlink | |
DLDP | |
BFD for OSPF/OSPFv3, BGP/BGP4, IS-IS/IS-ISv6, PIM/IPM for IPv6 and Static route | |
VRRP and VRRPE | |
QOS | Weighted Random Early Detection (WRED) and tail drop |
Flexible queue scheduling algorithms based on port and queue, including strict priority (SP), Weighted Deficit Round Robin (WDRR), Weighted Fair Queuing (WFQ), SP + WDRR, and SP + WFQ. | |
Traffic shaping | |
Packet filtering at L2 (Layer 2) through L4 (Layer 4); flow classification based on source MAC address, destination MAC address, source IP (IPv4/IPv6) address, destination IP (IPv4/IPv6) address, port, protocol, and VLAN to apply qos policy,including mirroring,redirection,priority remark etc. | |
Committed access rate (CAR) | |
Account by packet and byte | |
COPP | |
Telemetry | gRPC |
ERSPAN | |
Mirror on drop | |
Telemetry Stream | |
INT | |
iNQA | |
Packet trace, Packet capture | |
Configuration and maintenance | Console telnet and SSH terminals |
SNMPv1/v2/v3 | |
ZTP | |
Configuration and maintenance | System log |
File upload and download via FTP/TFTP BootRom update and remote update | |
NQA | |
ping,tracert | |
NTP | |
PTP(1588v2) | |
GIR Graceful Insertion and Removal | |
Security and management | Hierarchical management and password protection of users |
Authentication methods,including AAA,RADIUS and HWTACACS | |
Support DDos, ARP attack and ICMP attack function | |
IP-MAC-port binding and IP Source Guard | |
SSH 2.0 | |
HTTPS | |
SSL | |
PKI | |
Boot ROM access control (password recovery) | |
RMON | |
EMC | FCC Part 15 Subpart B CLASS A ICES-003 CLASS A VCCI CLASS A CISPR 32 CLASS A EN 55032 CLASS A AS/NZS CISPR32 CLASS A CISPR 24 EN 55024 EN 61000-3-2 EN 61000-3-3 ETSI EN 300 386 GB/T 9254 YD/T 993 |
IEEE Standard | 802.3x/802.3ad/802.3AH/802.1P/802.1Q/802.1D/802.1w/802.1s/802.1AG 802.1x/802.1Qbb/802.1az/802.1Qaz |
Safety | UL 60950-1 CAN/CSA C22.2 No 60950-1 IEC 60950-1 EN 60950-1 AS/NZS 60950-1 FDA 21 CFR Subchapter J GB 4943.1 |
Item | | S9820-64H | S9820-8C |
Virtualization | IRF stack | 9 | N/A |
M-LAG device number | 2 | 2 | |
ACL | max number of ingress ACLs | 6K/pipe, total 4 pipes | 3K/pipe, total 8 pipes |
ACL | max number of ingress Car | 1K/pipe, total 4 pipes | 128/Pipe, total 8 pipes |
max number of ingress Counter | 3.5K/pipe | 2304/pipe | |
max number of egress ACLs | 1024 | 512 | |
max number of egress Car | 512 | N/A | |
max number of egress Counter | 512 | 512 | |
Forwading table | Jumbo frame length(byte) | 9416 | 9416 |
Mirroring group | 4 | 4 | |
PBR policy | 1000 | 1000 | |
PBR node | 256 | 256 | |
max number of MACs per switch | 264K max | 8K | |
max number of ARP entries IPv4 | 264K max | 32K max | |
max ND table size for IPv6 | 132K max | 132K max | |
max number of unicast routes IPv4 | 320K max | 931K max | |
max number of unicast routes IPv6 | 160K max | 931K max | |
IPv4 l2 multicast group | 4000 | 500 | |
IPv4 l3 multicast group | 4000 | 500 | |
IPv4 multicast routing | 16K | 500 | |
IPv6 l2 multicast group | 4000 | 500 | |
IPv6 l3 multicast group | 4000 | 500 | |
IPv6 multicast routing | 8K | 500 | |
LAGG group | 1024 | 64 | |
LAGG member per group | 256 | 64 | |
ECMP group | max 2K | max 4K | |
ECMP member per group | 2-128 | 2-128 | |
VRF | 2047 | 2047 | |
Interface | Loopback interface number | 1K | 1K |
L3 sub interface number | 2500 | 2500 | |
SVI interface number | 2K | 2K | |
VxLAN AC number | 16K | N/A | |
VxLAN VSI number | 16K | N/A | |
VxLAN tunnel number | 2K | N/A | |
VSI interface number | N/A | N/A | |
IPv4 tunnel number | 2K | 2K | |
IPv6 tunnel number | 2K | 2K | |
VLAN number | 4094 | 4094 | |
Performance | RIB | 1M | 1M |
MSTP instance | 64 | 64 | |
PVST instance | 510 | 510 | |
PVST logical port number | 2000 | 2000 | |
VRRP VRID | 255 | 255 | |
VRRP group | 256 | 256 | |
NQA group | 32 | 32 | |
Static table | static mac-address | 8K | 8K |
static multicast mac-address | 4000 | 4000 | |
Static table | static ARP | 1K | 1K |
static ND | 1K | 1K | |
static IPv4 routing table | 4K | 4K | |
static IPv6 routing table | 2K | 2K |
The typical data center application is an EVPN-VxLAN design, S9820 series switches work as spine or spine/border, S68XX series work as leaf and border or ED. From this design. The users can get a non-blocking large L2 system.
PID | Description |
LS-9820-64H-H1 | H3C S9820-64H L3 Ethernet Switch with 64 QSFP28 Ports |
LS-9820-8C | H3C S9820-8C L3 Ethernet Switch with 8*Interface Module Slots |
Power |
|
LSVM1AC650 | 650W AC Power Supply Module(for S9820-64H) |
LSVM1DC650 | 650W DC Power Supply Module(for S9820-64H) |
PSR1600B-12A-B | 1600W AC Power Supply Module (Power Panel Side Exhaust Airflow) (for S9820-8C) |
Fan |
|
LSWM1BFANSCB | Fan Module with Port to Power Airflow(for S9820-64H) |
LSWM1BFANSC | Fan Module with Power to Port Airflow(for S9820-64H) |
FAN-80B-1-B | Fan Module (Fan Panel Side Exhaust Airflow) (for S9820-8C) |
LSW-WA-A | H3C S9820-8C Switch Cable Management Frame (for S9820-8C) |
LSVM1BSR10 | H3C S9810 Bottom Support Rails,630mm~900mm (for S9820-8C) |
Module | |
LSWM116H | 16-Port QSFP28 Ethernet Optical Interface Module (for S9820-8C) |
LSWM1M4CD | 4-Port 400GBASE Ethernet Optical Interface Module(QSFP-DD) (for S9820-8C) |
Transceiver |
|
QSFP-100G-SR4-MM850 | 100G QSFP28 Optical Transceiver Module (850nm,100m OM4,SR4,MPO) |
QSFP-100G-LR4-WDM1300 | 100G QSFP28 Optical Transceiver Module(1310nm,10km,LR4,WDM,LC) |
QSFP-100G-PSM4-SM1310 | 100G QSFP28 Optical Transceiver Module (1310nm,500m,PSM4,MPO/APC) |
QSFP-100G-LR4L-WDM1300 | 100G QSFP28 Optical Transceiver Module (1310nm,2km,LR4L,CWDM4,LC) |
QSFP-100G-ER4L-WDM1300 | 100G QSFP28 Optical Transceiver Module (1310nm,40km,ER4L,WDM,LC) |
QSFP-40G-LR4-WDM1300 | QSFP+ 40GBASE Optical Transceiver Module (1310nm,10km,LR4,LC) |
QSFP-40G-CSR4-MM850 | QSFP+ 40GBASE Optical Transceiver Module (850nm,300m,CSR4,Support 40G to 4*10G) |
QSFP-40G-SR4-MM850 | QSFP+ 40GBASE Optical Transceiver Module (850nm,100m,SR4,Support 40G to 4*10G) |
QSFP-40G-LR4-PSM1310 | QSFP+ 40GBASE Optical Transceiver Module (1310nm,10km,MPO/APC,LR4,Parallel Single Mode) |
QSFP-40G-LR4L-WDM1300 | QSFP+ 40GBASE Optical Transceiver Module (1310nm,2km,LR4L,LC) |
QSFP-40G-BIDI-SR-MM850 | QSFP+ 40GBASE BIDI Optical Transceiver Module (850nm,100m,SR) |
SFP-GE-LH80-SM1550 | 1000BASE-LH80 SFP Transceiver, Single Mode (1550nm, 80km, LC) |
SFP-FE-LX-SM1310-A | 100BASE-LX SFP Transceiver, Single Mode (1310nm, 15km, LC) |
SFP-FE-SX-MM1310-A | 100BASE-FX SFP Transceiver, Multi-Mode (1310nm, 2km, LC) |
SFP-FE-LH40-SM1310 | 100BASE-LH40 SFP Transceiver, Single Mode (1310nm, 40km, LC) |
SFP-GE-LX-SM1310-A | 1000BASE-LX SFP Transceiver, Single Mode (1310nm, 10km, LC) |
SFP-GE-LH40-SM1310 | 1000BASE-LH40 SFP Transceiver, Single Mode (1310nm, 40km, LC) |
SFP-GE-LH40-SM1550 | 1000BASE-LH40 SFP Transceiver, Single Mode (1550nm, 40km, LC) |
SFP-GE-SX-MM850-A | 1000BASE-SX SFP Transceiver, Multi-Mode (850nm, 550m, LC) |
SFP-GE-T | SFP GE Copper Interface Transceiver Module (100m,RJ45) |
QSFPDD-400G-LR8-WDM1300 | 400G QSFP-DD Optical Transceiver Module (1300nm,10km,LR8,LC) |
Cable |
|
QSFP-100G-D-CAB-1M | 100G QSFP28 to 100G QSFP28 1m Passive Cable |
QSFP-100G-D-CAB-3M | 100G QSFP28 to 100G QSFP28 3m Passive Cable |
QSFP-100G-D-AOC-7M | 100G QSFP28 to 100G QSFP28 7m Active Optical Cable |
QSFP-100G-D-AOC-10M | 100G QSFP28 to 100G QSFP28 10m Active Optical Cable |
QSFP-100G-D-AOC-20M | 100G QSFP28 to 100G QSFP28 20m Active Optical Cable |
QSFP-100G-D-CAB-5M | 100G QSFP28 to 100G QSFP28 5m Passive Cable |
QSFP-100G-4SFP-25G-CAB-1M | 100G QSFP28 to 4x25G SFP28 1m Passive Cable |
QSFP-100G-4SFP-25G-CAB-3M | 100G QSFP28 to 4x25G SFP28 3m Passive Cable |
QSFP-100G-4SFP-25G-CAB-5M | 100G QSFP28 to 4x25G SFP28 5m Passive Cable |
LSWM1QSTK0 | 40G QSFP+ Cable 1m |
LSWM1QSTK1 | 40G QSFP+ Cable 3m |
LSWM1QSTK2 | 40G QSFP+ Cable 5m |
LSWM1QSTK3 | 40G QSFP+ to 4x10G SFP+ Cable 1m |
LSWM1QSTK4 | 40G QSFP+ to 4x10G SFP+ Cable 3m |
LSWM1QSTK5 | 40G QSFP+ to 4x10G SFP+ Cable 5m |
QSFP-40G-D-AOC-7M | 40G QSFP+ to 40G QSFP+ 7m Active Optical Cable |
QSFP-40G-D-AOC-10M | 40G QSFP+ to 40G QSFP+ 10m Active Optical Cable |
QSFP-40G-D-AOC-20M | 40G QSFP+ to 40G QSFP+ 20m Active Optical Cable |