MPN P08440-B21
Artikel-Nr. W125834131
EAN / UPC 5715063200636
Lagerbestand
Do you need an adapter that is big on capability and small on CPU utilization?
The HPE Ethernet 10Gb 2-port 537SFP+ FLR Adapter has been designed to efficiently deliver high performance, low latency an minimal CPU utilization by offloading many I/O processing within the adapter. Low latency dramatically improves application performance and frees up CPU resources in the host allowing it to do tasks that are more important.
Features
Improve Application Performa...
Server
Yes
Server
85176990
10000 Mbit/s
IEEE 1588, IEEE 802.1Qau, IEEE 802.1Qaz, IEEE 802.1Qbb, IEEE 802.1Qbg, IEEE 802.2x, IEEE 802.3, IEEE 802.3ad, IEEE 802.3ae, IEEE 802.3x
85176990
0,1 cm
0,26 kg
0,1 cm
0,1 cm
2
SFP+
PCI Express
Wired
3.0
Fiber
9,084 Watt
24,69 cm
6,17 cm
0,25 kg
21,44 cm
Yes
Yes
Windows Server 2012, Windows Server 2016, Windows Server 2019
1 Jahre)
Do you need an adapter that is big on capability and small on CPU utilization?
The HPE Ethernet 10Gb 2-port 537SFP+ FLR Adapter has been designed to efficiently deliver high performance, low latency an minimal CPU utilization by offloading many I/O processing within the adapter. Low latency dramatically improves application performance and frees up CPU resources in the host allowing it to do tasks that are more important.
Features
Improve Application Performance
- HPE Ethernet 10Gb 2-port 537SFP+ FLR Adapters offload packet processing to reduce CPU utilization with tunnel offloads (VXLAN and NVGRE). Now you can distribute network traffic across CPU cores in your data center.
- Speed up packet processing to service more I/O requests by utilizing Data Plane Development Kit (DPDK) feature.
Increase I/O Bandwidth for Workload-Intensive Applications
- HPE Ethernet 10Gb 2-port 537SFP+ FLR Adapters deliver single root I/O virtualization (SR-IOV) which increases virtual network performance while decreasing CPU utilization.
*Die oben genannten Produktdaten werden von Icecat zur Verfügung gestellt. EET ist nicht verantwortlich für eventuelle Fehler in diesem Zusammenhang.