
Safe Checkout
Secure Payments
Fast Delivery
Order Today
Free Shipping
Across the US
Easy Returns
Hassle-Free
Dell 042F2X QLogic 2 x Ports 10GbE Converged Network Adapter Card
- 2 x 10GbE ports
- QLogic technology
- Converged Network Adapter (CNA)
- PCI-Express interface
- Supports high-speed data transfer
- Designed for server connectivity
Click on Inquire to get latest price
Free U.S. Ground Shipping
Typically 1-2 handling + 3-7 transit days
Purchase orders accepted
For government, enterprise, data center, and small business customers.
Bulk Purchase Inquiry
Volume pricing and availability
Product Overview
The Dell 042F2X is a QLogic converged network adapter card providing two 10GbE ports. It is designed to offer high-speed network connectivity and offload capabilities for servers.
Technical Information
| Product Type | Converged Network Adapter Card |
| Ports | 2 x 10GbE |
Additional Specifications
| Technology | QLogic |
| Interface | PCI-Express |
Product Description
The Dell 042F2X, a QLogic converged network adapter card, is engineered to provide high-performance, dual-port 10 Gigabit Ethernet (10GbE) connectivity for servers. This adapter leverages QLogic's expertise in networking technology to deliver reliable and efficient data transfer, crucial for demanding enterprise workloads. The card features two 10GbE ports, enabling high-speed network connections that are essential for modern data centers, virtualization environments, and high-performance computing. As a converged network adapter (CNA), it can potentially handle both network traffic and storage traffic (like Fibre Channel over Ethernet - FCoE), simplifying network infrastructure and reducing the number of adapter cards required in a server. Utilizing a PCI-Express interface, the Dell 042F2X ensures a high-bandwidth connection to the server's motherboard, minimizing latency and maximizing throughput. This makes it an ideal choice for servers that require fast and reliable network access for applications such as large file transfers, database operations, and high-density virtualization.