Does interconnect reliability and reach impacting your infrastructure? HPE StoreFabric Ethernet Transceivers, Active Optical Cables and Direct Attached Copper cables are designed to increase the performance of network connectivity, requiring high-bandwidth, low-latency connections between compute nodes, Storage nodes and switch nodes. To verify superior system performance, HPE StoreFabric Ethernet Transceivers, AOCs and DACs deliver compatibility with Hewlett Packard Enterprise storage solutions and networking adapters.
Would you like to use high-performance QSFP+ transceivers for both Ethernet and storage connections? The HPE Synergy 40GbE/4x10GbE/4x8Gb FC QSFP+ Transceiver delivers a full-duplex optical module with four independent transmit and receive channels supporting multiple data rate configurations including 40 GbE, 4x8 Gb and 4x10 GbE for high-density applications and improving performance.
Can data center save costs by using low-cost RJ45 copper cables for 10GbE connection? The HPE 10GBase-T SFP+ Transceiver can convert a 10 Gb SFP+ port on an Hewlett Packard Enterprise switch to a 10GBase-T connection. It is specifically designed for high speed communication links that require 10 Gigabit Ethernet over Cat 6a/7 cable. This SFP+ transceiver offers 10 Gb/s communication over RJ45 copper cables.
What if you could have 40 GbE connection using existing LC cables in your data center? The HPE 40Gb QSFP+ Bi-directional Transceiver integrates four electrical data lanes in each direction into transmission over a single LC duplex fiber optic cable. Together with other HPE 40GbE QSFP+ MPO Transceivers, it provides more flexibility and variety of high-density and low-power 40GbE solutions for Hewlett Packard Enterprise server users.
What if you could increase the speed in your data center interconnects by 2.5 times while reducing the amount of hardware required? The HPE 25Gb SFP28 Transceiver is designed to meet the increasing demand of higher bandwidth in the data center. The 2.5x bandwidth performance over 10GbE allows a reduction of the number of cables and connection ports required to achieve higher throughput. In addition, up to 100 m high-speed, efficient and cost-effective connectivity can be provided using this transceiver.