The FUJITSU PLAN EP Intel X710-DA2 network adapter is designed to meet the demands of modern network environments, offering dual 10Gb Ethernet SFP+ ports for high-speed connectivity and efficient data transfer rates up to 10 Gbps. This adapter supports a wide range of networking standards, including IEEE 802.1Q, IEEE 802.1Qaz, and IEEE 802.3ae, and comes equipped with features such as VLAN support, TCP/IP offloading, and teaming support, which enhance network management and efficiency.¦Additionally, the adapter features Extended Message-Signaled Interrupts (MSI-X), Single Root I/O Virtualization (SR-IOV), and Precision Time Protocol (PTP), providing improved performance, reduced latency, and precise time synchronization across network devices. With support for TCP/IP, UDP/IP, and iSCSI network transport protocols, the FUJITSU PLAN EP Intel X710-DA2 offers versatile and reliable connectivity options for a variety of network architectures and applications. Designed to operate in a wide range of temperatures from 0°C, it ensures reliable performance in diverse environmental conditions.
- Intel X710-DA2 SFP+ Dual-Port 10 GbE Controller
- A complete, unified network solution
- Data, storage, management - DCB
- Server virtualization and VMDq
Intel X710-DA2 SFP+ Dual-Port 10 GbE Controller
Industry-leading, cost- and power-efficient design delivers superior performance with 40 Gb/s theoretical bidirectional throughput (20 Gb/s Tx, 20 Gb/s Rx) in a PCI Express v3.0 x8 slot.
A complete, unified network solution
The convergence of data and storage in one fabric eliminates the need for multiple adapters, cables and switches.
Data, storage, management - DCB
A key capability that makes all this possible is the separation of traffic classes enabled by Data Center Bridging (DCB) - this provides a "one-cable solution" with virtual lines for different traffic classes.
Server virtualization and VMDq
The host-based virtualization technologies supported by Intel VT include VMDq for Emulated Path: an adapter-based queue sorting that enables efficient, hypervisor-based switching.