O-RAN Intel® FPGA IP User Guide

ID 683238
Date 1/24/2023
Public

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3. O-RAN IP Functional Description

The O-RAN IP comprises compression and decompression, mapper and demapper.
Figure 6. O-RAN IP Block Diagram

Mapper

The mapper includes section and common header mapping blocks. The common header consists of a time reference for each packet. The common header format is the same for C-plane and U-plane messages.

Figure 7. Scheduling control and user data transfer procedure The IP transmits C-plane and U-plane messages at different times.

C-plane and U-plane messages have the same header format and different transmission time. The IP multiplexes one common header mapper instantiation for mapping both C-plane and U-plane messages. The IP stores information elements (IEs) related to common header and Rtcid ID in a FIFO buffer to bypass section mapper.

Section Mapper

The section format is different for each section type in C-plane and U-plane messages. The IP instantiates a separate control and user mapper to interface with the client. A simple arbiter multiplexes the control and user mapper output for transmission window monitoring and common header mapping.

Figure 8. Transmission Window Monitoring ensures the incoming packets fall under current time of day (TOD), if not the IP drops the current packet.

Common Header Mapper

The common header mapper appends the following fields to the start of every packet from the section mapper:

  • dataDirection
  • payloadVersion
  • filterIndex
  • frameId
  • subframeId
  • slotId
  • symbolId

This block includes a dispatcher FSM to apply backpressure during insertion of header fields. The block also includes an output FIFO buffer to stream output data with zero or three cycle readyLatency.

Common Header Demapper

The common header demapper demaps the radio application headers from the incoming eCPRI packet and forwards the O-RAN payloads to reception window monitor. This demapper is common for both U-plane and C-plane packets. For every SOP, the IP takes out the MSB nibble and decodes it as a common header. The IP appends the remaining LSB nibble with next clock cycle data and passes it to the next module.

Reception Window Monitoring

The window monitor monitors that the incoming packets fall under current time of day (TOD), if not it drops the current packet. The reception window monitoring shares the same module with the transmission window monitoring. They use different window thresholds, which you program through t2a registers.

Figure 9. Reception Window

Compression and Decompression

A preprocessing block-based bit shift block generates the optimum bit-shifts for a resource block of 12 resource elements (REs). The block reduces the quantization noise, especially for low-amplitude samples. Hence, it reduces the error vector magnitude (EVM) that compression introduces. The compression algorithm is almost independent of the power value. Assuming the complex input samples is x = x1 + jxQ, the maximum absolute value of the real and imaginary components for the resource block is:

The maximum value of the resource block n is:

Having the maximum absolute value for the resource block, the following equation determines the left shift value assigned to that resource block:

Where bitWidth is the input bit width.

The IP supports compression ratios of 8, 9, 10, 11, 12, 13, 14, 15, 16.

Mu-Law Compression and Decompression

The algorithm uses Mu-law companding technique, which speech compression widely uses. This technique passes the input uncompressed signal, x, through a compressor with function, f(x), before rounding and bit-truncation. The technique sends compressed data, y, over the interface. The received data passes through an expanding function (which is the inverse of the compressor, F-1(y). The technique reproduces the uncompressed data with minimal quantization error.

Equation 1. Compressor and decompressor functions

The Mu-law IQ compression algorithm follows the O-RAN specification.