Intel X550T2BLK Dual Port Converged 10GbE Network Card PCI-E OEM
The Intel Ethernet Converged Network Adapter X550 hosts Intel's advanced Ethernet silicon, the Intel Ethernet Controller X550, a low-cost single-chip 10GBASE-T solution for server platforms.
Simplify The Transition To 10 GbE
With 10GBASE-T, migration to 10 GbE is dramatically simplified with backward compatibility for your existing GbE network infrastructure. Install an X550 adapter into a server and the autonegotiation between 1 GbE and 10 GbE provides the necessary backwards compatibility that most customers require for a smooth transition and easy migration to 10 GbE. When time and budget allows, 10GBASE-T switches can be added any time to experience the full benefits of 10 GbE. 10GBASE-T uses the copper twisted-pair cables. It is all you know and love about 1000BASE-T. 10GBASE-T is an easy and versatile 10 GbE interface that can be deployed anywhere in your data center. Its flexible reach supports the advanced network architectures including Top of Rack (ToR), Middle of Row (MoR), and End of Row (EoR).
10 GbE Performance At Low Cost And Low Power
The Intel Ethernet Converged Network Adapter X550 is low-cost way to deploy 10 GbE in your data center. The Intel X550 uses low-cost Cat6 and Cat6a cabling. Chances are this cabling already exists in the data center. A way for Intel to reduce cost and power is to integrate components into a single-chip solution. Why is integration important? First, integration translates to lower power. This means no active heat sink and reduces the per-port power consumption. Second, integration also means a lower cost per port, because two separate components are not needed. When cabling is accounted for, cost efficiencies realized from a single part mean 10GBASE-T is low-cost media to deploy. With lower cost and power, 10GBASE-T is ideal for broad deployment. 10GBASE-T is a solution for every rack and tower server in the data center.
A Complete Unified Network Solution
Converging data and storage onto one fabric eliminates the need for multiple adapters and cables per server. Furthermore, 10 GbE provides the bandwidth to converge these multiple fabrics into a single wire. A key capability that makes all this possible is traffic class separation provided by Data Center Bridging (DCB). DCB provides a collection of standards for additional QoS functionality such as lossless delivery, congestion notification, priority-based flow control, and priority groups. This enables the CNA X550 family to provide a one-wire solution with virtual pipes for the different classes of traffic.
Great Choice For Server Virtualization
Virtualization changes server resource deployment and management by running multiple applications and operating systems on a single physical server. With Intel Virtualization Technology for connectivity, the CNA X550 family delivers outstanding I/O performance and QoS in virtualized data centers and cloud environments. I/O virtualization advances network connectivity used in servers to more efficient models by providing FPP, multiple Tx/Rx queues, Tx queue rate-limiting, and on-controller QoS functionality that is useful for both virtual and non-virtual server deployments. Features • Low-cost, low-power, 10-GbE performance for the entire datacenter.
• Intel's 10GBASE-T controller with integrated MAC and PHY.
• Standard CAT 6a cabling with RJ-45 connectors.
• Backward compatibility with existing 1000BASE-T networks simplifies the transition to 10 GbE.
• Unified networking delivering LAN, iSCSI and FCoE in one low-cost CNA.
• Flexible I/O virtualization for port partitioning and Quality of Service.
• Device Type: Network adapter Intel
• Form Factor: Plug-in card - low profile
• Interface (Bus) Type: PCI Express 3.0 x4
• PCI Specification Revision: PCIe 3.0
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For further information regarding Scan's warranty procedure please see our terms and conditions
- 12 months
- Return to base
- DOA Period:
- 28 days
- RTB Period:
- 12 months
- Scan OEM
- 0871 472 4747
Date Issued: 26th Oct 2006
As a growing number of homes contain more than one computer, their users must find ways to network them. The primary purpose for creating a home network tends to be to provide Internet access to all computers within the house. There are other good reasons, however. These include enabling LAN gaming, data backups from one machine to another and the sharing of music within the home.