F-Tile Architecture and PMA and FEC Direct PHY IP User Guide

ID 683872
Date 7/08/2024
Public

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3.5.2.1. TX Parallel Data Mapping Information for SATA Protocol Mode for Different Configurations

Note:
For the SATA protocol mode, support for the following features is preliminary in both simulation and hardware:
  • PMA electrical idle feature
  • Squelch detect feature
  • Signal detect feature

When SATA is selected for one PMA lane, the tx_parallel_data bus width is reduced from an 80-bit interface to a 76-bit interface. The formula outlined in Bit Mapping for PMA and FEC Mode PHY TX and RX Datapath to calculate the total tx_parallel_data bus is valid except the interface bus width is now reduced to 76-bit from 80-bit. The upper 4 bits are configured to fgt_tx_pma_elecidle bus signal. There is no change to the rx_parallel_data bus width.

Total tx_parallel_data Bit Width Equation for SATA:

tx_parallel_data[(76*N)-1:0]
fgt_tx_pma_elecidle [(4*N)-1:0]

Where:

  • N = Number of PMA lanes value from 1 to 16.

Refer to Variables Defining Bits for the Interfacing Ports in Port and Signal Reference for full variable definitions.

Example 1: Total tx_parallel_data Bit Width with 1 SATA Link (N=1) and 32-bit PMA Width

tx_parallel_data [(76*1)-1:0] = tx_parallel_data [75:0], fgt_tx_pma_elecidle [3:0]

Example 2: Total tx_parallel_data Bit Width with 2 SATA Links (N=2) and 32-bit PMA Width

tx_parallel_data [(76*2)-1:0] = tx_parallel_data [151:0], fgt_tx_pma_elecidle [7:0]
The following table shows the TX parallel data mapping information for the SATA protocol modes for different configurations.
Table 68.  TX Parallel Data Mapping Information for SATA Protocol Mode (PMA Lanes, N = 1) Table Notes:
  1. For unused bits, you can tie the signal to '0' or '1' or leave it unconnected.
  2. The core interface FIFO TX Write Enable and RX Data Valid signal is only valid when you are using PMA clocking mode, and when the core FIFO is in elastic mode.
  3. The TX and RX PMA interface data valid signal is only valid when you are using System PLL clocking mode.
  4. The table is applicable when you select Enable simplified TX data interface.
Note: For every PMA lane count (N) increase, add a 76-bit offset to the defined bits in the table below. For example if configuration is: PMA Width = 32, Single Width, SATA, N=2 then Write Enable for TX Core FIFO in Elastic Mode = bit[151], TX PMA Interface Data Valid = bit[111] and TX data = bits[107:76].
PMA Configuration Bits TX Parallel Data RX Parallel Data

FGT

PMA Width = 8, 10, 16, 20, 32

Single Width

SATA

(One PMA Lane [N=1] with PMA Width ≤ 32)

75 Write Enable for TX Core FIFO in Elastic Mode No change, refer to TX and RX Parallel Data Mapping Information (PMA Lanes, N = 1) with the same PMA configuration.
35 TX PMA Interface Data Valid
[D-1]:0 TX Data

FGT

PMA Width = 8, 10, 16, 20, 32

Double Width

SATA

(One PMA Lane [N=1] with PMA Width ≤ 32)

75 Write Enable for TX Core FIFO in Elastic Mode No change, refer to TX and RX Parallel Data Mapping Information (PMA Lanes, N = 1) with the same PMA configuration.
[D -1 + 36]:36 TX Data (Upper Data Bits)
35 TX PMA Interface Data Valid
[D -1]:0 TX Data (Lower Data Bits)
RS-FEC Enabled, N = number of FEC lanes, X = fec stream index = (0:N-1)

FGT

PMA Width = 32

Double Width

SATA

(One PMA Lane [N=1] with PMA width = 32)

74 TX Deskew Bit No change, refer to TX and RX Parallel Data Mapping Information (Number of PMA Lanes (N) = 1) with the same PMA configuration.
73 TX Alignment Marker
68:36 TX Data (Upper 33 Bits)
35 TX PMA Interface Data Valid Bit
32:2 TX Data (Lower 31 Bits)
1:0 Sync head