The Intel® Omni-Path Edge Switch consists of two models supporting 100 Gb/s for all ports, an entry-level 24-port switch for small clusters and a 48-port switch. The larger switch, in addition to enabling a 48-port fabric in 1U, can be combined with other edge switches and directors to build much larger multitier fabrics. These Intel® Omni-Path Edge Switches are members of the Intel® Omni-Path Fabric 100 series of switches, host adapters, and software delivering an exceptional set of high-speed networking features and functions.

Intel® Omni-Path Edge Switch 100 Series 48 Port 2 PSU

  • 48 # of Ports External
  • 100Gbps Data Rate per Port
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Intel® Omni-Path Edge Switch 100 Series 24 Port 2 PSU

  • 24 # of Ports External
  • 100Gbps Data Rate per Port
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Intel® Omni-Path Edge Switch 100 Series 48 Port Managed 2 PSU

  • 48 # of Ports External
  • 100Gbps Data Rate per Port
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Intel® Omni-Path Edge Switch 100 Series 24 Port Managed 2 PSU

  • 24 # of Ports External
  • 100Gbps Data Rate per Port
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Intel® Omni-Path Edge Switch 100 Series 48 Port 1 PSU

  • 48 # of Ports External
  • 100Gbps Data Rate per Port
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Intel® Omni-Path Edge Switch 100 Series 24 Port 1 PSU

  • 24 # of Ports External
  • 100Gbps Data Rate per Port
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Optimizations and Enhancements

While similar to existing technology, Intel® Omni-Path Architecture (Intel® OPA) has been enhanced to overcome the scaling challenges of large-sized clusters. These enhancements include:

Intel® Omni-Path Architecture is designed to support high message rate traffic from each node through the fabric. With ever-increasing processing power and core counts in Intel® Xeon® processors and Intel® Xeon Phi™ processors, that means the fabric has to support high bandwidth as well as high message rate throughput.

Intel® OPA switch 48-port design provides for improved fabric scalability, reduced latency, increased density, and reduced cost and power. In fact, the 48-port ASIC can enable 5 hop configurations of up to 27,648 nodes, or over 2.3x what’s possible with current InfiniBand* solutions. Depending on fabric size, this can reduce fabric infrastructure requirements in a typical fat tree configuration by over 50 percent, since fewer switches, cables, racks, and power are needed as compared to today’s 36-port switch ASICs.

Features in Intel® OPA help minimize the negative performance impacts of large Maximum Transfer Units (MTUs) on small messages and help maintain consistent latency for interprocess communication (IPC) messages, such as Message Passing Interface (MPI) messages, when large messages—typically storage—are being simultaneously transmitted in the fabric. This will allow Intel® OPA to bypass lower priority large packets to allow higher priority small packets, creating a low and more predictable latency through the fabric.

Intel® Omni-Path Architecture also delivers efficient detection and error correction, which is expected to be much more efficient than forward error correction (FEC) defined in the InfiniBand standard. Enhancements include zero load for detection, and if a correction is required, packets only need to be retransmitted from the last link—not all the way from the sending node—which enables near zero additional latency for a correction.

Benchmarks for Intel® Omni-Path Architecture


See complete speed, performance, and configuration specs.

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