R-Tile Avalon® Streaming Intel® FPGA IP for PCI Express* User Guide

ID 683501
Date 7/08/2024
Public
Document Table of Contents

2.2.3.1. PMA

The R-Tile Avalon® -ST IP for PCI Express contains Physical Medium Attachment (PMA) for handling the Physical layer (PHY) packets. Note that the R-Tile PMA implements the PIPE SerDes Architecture mode, and the Physical Coding Sublayer (PCS) responsibilities are implemented by the logic PHY/MAC layer. The PMA receives and transmits high-speed serial data on the serial lanes. Since the PMA implements the PIPE SerDes Architecture mode, the logic PHY performs functions like data encoding and decoding, scrambling and descrambling, block synchronization etc. The logic PHY and PCIe controller are only available when the PCIe Hard IP mode is used. Refer to PIPE Direct Mode for a functional description of the PIPE mode.

The R-Tile PMA consists of two octets. Each octet contains a pair of transmit PLLs and eight SerDes lanes capable of running up to 32 GT/s to perform the various TX and RX functions.

The Slow PLL generates the required transmit clocks for Gen1/Gen2 speeds, while the Fast PLL generates the required clocks for Gen3/Gen4/Gen5 speeds.

The PMA performs functions such as serialization/deserialization, clock data recovery, and analog front-end functions such as Continuous Time Linear Equalizer (CTLE), Decision Feedback Equalizer (DFE) and transmit equalization.

The transmitter consists of a 3-tap equalizer with one tap of pre-cursor, one tap of main cursor and one tap of post-cursor.

The receiver consists of attenuation (ATT), CTLE, Voltage gain amplifier (VGA) and DFE blocks that are adaptive for Gen3/Gen4/Gen5 speeds. RX Lane Margining is supported by the PHY. The Lane Margining supports timing and voltage margining.

Timing margining capabilities are as follows:
  • Maximum Timing Offset: -0.5UI to +0.5UI
  • Number of timing steps: 63
  • Independent left and right timing margining is not supported.
  • Independent Error Sampler is not supported (lane margining may produce logical errors in the data stream and cause the LTSSM to go to the Recovery state).
Voltage margining capabilities are as follows:
  • Maximum Voltage Offset: -120mV to +120mV
  • Number of voltage steps: 127