2.Using EPCT's multi-function port configuration technology
3.The application queue technology function
4.Applied to high-throughput network equipment
Key Features
1.With a rate of 10G/5G/2.5G/1000M/100M
2.Designed for servers and their application equipment
3.Full load power consumption is only 7.5W
10 G
The OCP series network cards are mainly designed for large-scale data centers, which usually have the characteristics of high bandwidth and low latency, aiming to better meet the network traffic requirements of data centers.
Features
High Bandwidth and Low Latency
With excellent features such as high bandwidth, low latency, and chassis maintenance-free.
Openness
This specification defines in an open format a common core set of NIC features.
Stability
It performs real-time self-detection to ensure uninterrupted high-performance communications.
DPDK
It can enhance DPDK to be more efficient and flexible in packet forwarding and packet processing
An Intel solution OCP3.0 SFF structure of the quad-port optical fiber 10G Ethernet network adapter
With a rate of 10G
It can enhance DPDK to be more efficient and flexible in packet forwarding and packet processing.
OCP 3.0 10G SFP+ Quad-port fiber ethernet network adapter.
The physical board size used complies with OCP 3.0 design specifications, small size (SFF).
This network adapter meets the needs of next-generation data centers by providing features for server and network virtualization technologies.
Applied to meet the needs of the server market for network traffic and data distribution, processing and virtualization, big data computing, cloud computing, etc.
An Intel solution OCP3.0 SFF structure of the dual port optical fiber 10G Ethernet network adapter;
With a speed rate of 1/10G;
It can enhance DPDK to be more efficient and flexible in packet forwarding and packet processing.
Small size (SFF) panels in accordance with OCP 3.0 design specification.
It supports fault tolerance and redundancy by bundling and aggregating multiple ports to ensure network performance and expand network bandwidth. It can implement real-time self detection and route the communication from the fault port to other members in the same group to continue running to achieve uninterrupted high-performance communication.
In addition to stateless offloading, the adapter card can also distribute the network traffic to the CPU core, which improves the network throughput.
It is applied to meet the needs of current and long-term server market for network traffic and data diversion, processing and virtualization, big data computing and cloud computing.
An Intel solution OCP3.0 SFF structure of the dual-port optical fiber 10G ethernet network adapter
With a rate of 1G/10G
It can enhance DPDK to be more efficient and flexible in packet forwarding and packet processing.
An Intel solution OCP3.0 SFF structure of the dual-port optical fiber 10G ethernet network adapter
With a rate of 1G/10G
It can enhance DPDK to be more efficient and flexible in packet forwarding and packet processing.
