Login
- Table of Contents
-
- H3C Network Adapter Datasheet-6W102
- 00-Preface
- 01-About H3C Network Adapters
- 02-PCIe network adapter specifications
- 03-FLOM network adapter specifications
- 04-mLOM network adapter specifications
- 05-sLOM network adapter specifications
- 06-OCP network adapter specifications
- 07-Appendix A Safety standards&EMC standards&Acronyms
- 08-Appendix B FAQs
- Related Documents
-
| Title | Size | Download |
|---|---|---|
| 01-About H3C Network Adapters | 160.54 KB |
About H3C Network Adapters
H3C provides network adapters of multiple types for different application scenarios. The network adapters help servers process networking data to reduce the load on processors, improving server stability.
Table 1 lists H3C network adapters.
A row might contain multiple network adapter models, which essentially correspond to the same physical network adapter.
The model name of a network adapter in this document might differ slightly from its model name label. A model name in this document might be simplified. For example, the CNA-10GE-2P-510F-B2-1-X network adapter represents network adapter labels including UN-CNA-10GE-2P-510F-B2-1-X and UN-CNA-10GE-2P-510F-B2-1.
Table 1 Network adapters
|
Model |
Type |
Connector |
Feature |
Applicable scenarios |
|
· CNA-10GE-2P-510F-B2 · CNA-10GE-2P-510F-B2-1-X |
PCIe |
2 × 10-GE SFP+ fiber ports |
High performance |
|
|
· NIC-10GE-2P-520F-B2 · NIC-10GE-2P-520F-B2-1-X · NIC-10GE-2P-530F-STD-B |
PCIe |
2 × 10-GE SFP+ fiber ports |
Low latency |
|
|
· NIC-10GE-2P-530F-B2 · NIC-10GE-2P-530F-B2-1-X |
PCIe |
2 × 10-GE SFP+ fiber ports |
NPAR |
|
|
· CNA-10GE-2P-560F-B2 · ST-CNA-10GE-2P-560F · CNA-10GE-2P-560F-B2-1-X |
PCIe |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
· NIC-GE-4P-360T-B2-1-X · NIC-ETH360T-LP-4*1G |
PCIe |
4 × GE RJ-45 copper ports |
Basic functions supported |
|
|
NIC-ETH330T-LP-4P |
PCIe |
4 × GE RJ-45 copper ports |
Basic functions supported |
|
|
· CNA-560T-B2-10Gb-2P · CNA-560T-B2-10Gb-2P-1-X · NIC-ETH563T-LP-2*10G |
PCIe |
2 × 10-GE RJ-45 copper ports |
All functions supported |
|
|
· NIC-620F-B2-25Gb-2P · NIC-620F-B2-25Gb-2P-1 · NIC-620F-B2-25Gb-2P-2 · NIC-620F-B2-25Gb-2P-1-X · NIC-25GE-2P-620F-STD-B |
PCIe |
2 × 25-GE SFP28 fiber ports |
High performance |
|
|
· NIC-ETH540F-LP-2P · NIC-ETH540F-LP-2P-1 |
PCIe |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-ETH1060F-LP-2P |
PCIe |
2 × 100-GE QSFP28 fiber ports |
High performance |
|
|
NIC-ETH531F-LP-2P |
PCIe |
2 × 10GE SFP+ fiber ports |
All functions supported |
|
|
· NIC-10GE-2P-530F-L2 · ST-NIC-10GE-2P-530F |
FLOM |
2 × 10GE SFP+ fiber ports |
NPAR |
|
|
· NIC-10GE-2P-560F-LOM |
FLOM |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-GE-4P-360T-L2 |
FLOM |
4 × GE RJ-45 copper ports |
Basic functions supported |
|
|
· CNA-560T-L2-10Gb-2P · NIC-ETH560T-fL-2P |
FLOM |
2 × 10-GE RJ-45 copper ports |
All functions supported |
|
|
NIC-10GE-2P-560F-L2 |
mLOM |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-10GE-2P-560F-L2-M |
mLOM |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-GE-4P-360T-L3 |
mLOM |
4 × GE RJ-45 copper ports |
Basic functions supported |
|
|
NIC-GE-4P-360T-L3-M |
mLOM |
4 × GE RJ-45 copper ports |
Basic functions supported |
|
|
NIC-10GE-2P-560T-L2 |
mLOM |
2 × 10-GE RJ-45 copper ports |
All functions supported |
|
|
NIC-10GE-2P-560T-L2-M |
mLOM |
2 × 10-GE RJ-45 copper ports |
All functions supported |
|
|
sLOM |
4 × GE RJ-45 copper ports |
Basic functions supported |
||
|
NIC-10GE-2P-530F-s3 |
sLOM |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-ETH561F-sL-2*10G |
sLOM |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-ETH561F-sL-4*10G |
sLOM |
4 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-ETH640F-L-2*25G |
sLOM |
2 × 25-GE SFP28 fiber ports |
High performance |
|
|
NIC-ETH563T-SL-2P |
sLOM |
2 × 10-GE RJ-45 copper ports |
All functions supported |
|
|
NIC-ETH640F-3S-2P |
OCP |
2 × 25-GE SFP28 fiber ports |
High performance |
|
|
NIC-ETH540F-3S-2P |
OCP |
2 × 10-GE SFP+ fiber ports |
High performance |
|
|
NIC-ETH561F-3S-2P |
OCP |
2 × 10-GE SFP+ fiber ports |
All functions supported |
|
|
NIC-ETH565T-3S-2P |
OCP |
2 × 10-GE RJ-45 copper ports |
All functions supported |
|
|
NIC-ETH360T-3S-4P |
OCP |
4 × GE RJ-45 copper ports |
Basic functions supported |
|
|
NIC-ETH660F-3S-2P |
OCP |
2 × 25-GE SFP28+ fiber ports |
High performance |
|
|
NIC-ETH330T-3S-4P |
OCP |
4 × GE RJ-45 copper ports |
Basic functions supported |
|
|
NIC-ETH531F-3S-2P |
OCP |
2 × 10-GE SFP+ fiber ports |
All functions supported |
Application scenarios
This section introduces the applicable scenarios for H3C network adapters.
Data center networking
The network adapters provide the following benefits for data center networking:
· Scaling out of servers and NAS.
· Fast implementation of data transfer and synchronization between data centers.
· Reduced network cost through the unification of LANs, SANs and cluster networks.
Cloud computing
The network adapters provide the following benefits for cloud computing:
· Maximized cloud scale and utilization through network adapter virtualization.
· Support of high performance computing (HPC) via InfiniBand and FC application without Ethernet network adjustment.
· Differentiated services through QoS traffic management.
Network storage
Deploying high-performance NAS and Ethernet-based IP SANs can help implement the shared storage system at the file level and block level.
High performance computing
HPC requires high-speed transmission between cluster networks, LANs, and SANs, which can be achieved by deploying high-bandwidth and ultra-low-latency Ethernet networks.
Flexible network configuration
NPAR can split a physical Ethernet interface into multiple partitions or multiple virtual interfaces with each virtual interface supporting TCP/IP or iSCSI. You can also configure SR-IOV on a virtual interface to manage network resources flexibly and efficiently.
Virtual environment
The network adapters can provide the following features:
· Intel virtualization technology—Helps reduce I/O bottlenecks and improve overall server performance.
· VMDq—Enhances processing efficiency of I/O controllers by hardware-assisted virtualization.
· VMDc—Enables VMs to provide physical host-like performance, increases VM scalability, and enables flexible VM migration between physical servers through direct interconnection.
Unification of network environment
Supporting both LANs and SANs, the network adapters integrates previously dispersed network resources, and simplifies I/O adapter deployment and cabling, which reduces management and operating costs.
Network adapter driver
To obtain the driver and driver installation guide for the network adapter, access the H3C official website at http://www.h3c.com/cn/Service/Software_Download/.
Transceiver modules
For information about transceiver modules available for H3C network adapters, use the Transceiver Module Lookup Tool at https://www.h3c.com/en/Support/Resource_Center/Technical_Documents/Severs/. For detailed specifications about transceiver modules, see H3C Transceiver Modules User Guide.
Environment requirements
Before using a network adapter, make sure the environment meets the following requirements as shown in Table 2, Table 3, and Table 4.
Table 2 Temperature requirements
|
Specifications |
|
|
Operating temperature |
· 0°C to 50°C (32°F to 122°F): ¡ CNA-10GE-2P-510F-B2 · 0°C to 45°C (32°F to 113°F): ¡ NIC-10GE-2P-560F-L2 ¡ NIC-GE-4P-360T-L3 ¡ NIC-10GE-2P-560T-L2 ¡ NIC-10GE-2P-560F-L2-M ¡ NIC-GE-4P-360T-L3-M ¡ NIC-10GE-2P-560T-L2-M · 5°C to 45°C (41°F to 113°F): ¡ NIC-ETH640F-L-2*25G · 0°C to 55°C (32°F to 131°F): Network adapters not listed above. |
|
Storage temperature |
–40°C to +70°C (–40°F to +158°F) |
|
Item |
Specifications |
|
Operating humidity |
8% RH to 90% RH, non-condensing |
|
Storage humidity |
5% RH to 95% RH, non-condensing |
|
Item |
Specifications |
|
Operating altitude |
–60 m to +5000 m (–196.85 ft to +16404.20 ft) The allowed maximum temperature decreases by 0.33 °C (32.59°F) as the altitude increases by 100 m (328.08 ft) from 900 m (2952.76 ft). |
|
Storage altitude |
–60 m to +5000 m (–196.85 ft to +16404.20 ft) |
