PCIe Card for High Density Vo5G and VoLTE

Date
02/25/2020

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SMART Embedded Computing announced a new PCI Express (PCIe) card for voice-over-5G and LTE applications (Vo5G/VoLTE). This media processing accelerator add-in card enables high density voice processing to be integrated into rack mounted servers or other network appliances that have PCIe slots. It is designed to make the deployment of the Enhanced Voice Services (EVS) codec, which is in demand for 5G and LTE networks, more cost-effective by significantly increasing channel density.

The PCIe-8130 uses the latest generation of highly efficient digital signal processors (DSP) from Octasic to provide direct offload of the host CPU, eliminating the need for additional servers when adding high density audio transcoding to an application. Network equipment providers can either add or substantially increase the voice channel density within existing systems thereby reducing overall power and space demands for their equipment as it scales to higher throughput. Multiple cards can be added to scale capacity as the subscriber base grows and the card can be deployed as a centralized cloud solution or in central offices at the edge of the network.

The EVS codec is designed to support high quality and high efficiency. Unlike its predecessor, AMR, which was used for initial VoLTE deployments and marketed as ‘HD Voice,’ EVS was developed and optimized specifically for LTE. EVS is a feature-rich codec that supports everything from narrow band (NB) to super wide band (SWB) with bit rates starting at 5.9 kbps up to 128 kbps and a multitude of advanced error treatment capabilities.

Technical Details

  • Configurations with 4, 6 or 12 Octasic OCT3032 DSPs
  • Full- or half-length by full-height versions
  • Octasic Vocallo firmware
    • Broad CODEC support
    • Field proven in carrier networks
    • Echo cancellation and voice quality enhancement
    • Packet-based API reduces development time allowing faster time-to-revenue

See www.smartembedded.com for more information.

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