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6.3.4. Transceiver Clocking and Channel Placement Guidelines
Transceiver Clocking for PCIe Gen1 and Gen2
The high-speed serial clock is provided by the CMU PLL in a channel different from that of the data channel. The local clock divider block in the data channel generates a parallel clock from this high-speed clock and distributes both clocks to the PMA and PCS of the data channel.
In a PIPE x2 bonded configuration, clocking within the PCS is independent for each receiver channel. Clocking is bonded only for transmitter channels, while the control signals are bonded for both transmitter and receiver channels. The Quartus II software automatically places the transmit CMU PLL and master channel in either channel 1 or channel 4 within a transceiver bank
In a PIPE x4 bonded configuration, clocking within the PCS is independent for each receiver channel. Clocking is bonded only for transmitter channels, while the control signals are bonded for both transmitter and receiver channels. The Quartus II software automatically places the transmit CMU PLL and master channel in either channel 1 or channel 4 within a transceiver bank.
In the x8 PCIe bonded configuration, clocking is independent for receiver channels. Clocking and control signals are bonded only for transmitter channels.
Transceiver Channel Placement Guidelines for Gen1, Gen2, and Gen3 PIPE Configurations
The following table lists the physical placement of PIPE channels in x1, x2, x4, and x8 bonding configurations. The Quartus® II software automatically places the CMU PLL in a channel different from that of the data channels.
Configuration | Data Channel Placement | Channel Utilization Using CMU PLL in Gen1 and Gen2 | Channel Utilization Using ATX PLL in Gen1 and Gen2 | Channel Utilization Using CMU and ATX PLL in Gen3 |
---|---|---|---|---|
x1 | Any channel | 2 | 1 | 2 |
x2 | Contiguous channels | 3 | 2 | 3 |
x4 | Contiguous channels | 5 | 4 | 5 |
x8 | Contiguous channels | 9 | 8 | 9 |
For PIPE x1 configurations, the channel can be placed anywhere within a transceiver bank that contains the transmitter PLL. In Gen1 and Gen2 configurations, you can select either the ATX PLL or the CMU PLL as the transmitter PLL. In Gen3 configurations, a CMU PLL is used for Gen1 and Gen2 datarates and an ATX PLL is used for Gen3 datarates.
The following two figures show examples of channel placement for PIPE x2 and x4 configurations. In a PIPE x2 or x4 configuration, the two or four channels must be contiguous and within the same transceiver bank, but they can be placed in any order as long as Logical Lane 1 is placed on the master channel. In Gen1 and Gen2 configurations, you can select either the ATX PLL or the CMU PLL as the transmitter PLL. In Gen3 configurations, a CMU PLL is used for Gen1 and Gen2 datarates and an ATX PLL is used for Gen3 datarates. The CMU PLL and/or ATX PLL must be within the same transceiver bank as the master channel.
In the figures, channels shaded in blue provide the transmit CMU PLL generating the high-speed serial clock. Channels shaded in gray are data channels. The Quartus II software automatically selects one of the following within a transceiver bank:
- The CMU PLL in either channel 1 or channel 4.
- The upper or lower ATX PLL if the ATX PLL is selected as the transmitter PLL within the transceiver bank containing the master channel.
Gen3 channel placement requires both a CMU and an ATX PLL in the same transceiver bank as the master channel.
In a PIPE x8 configuration, the eight channels must be contiguous, but they can be placed in any order as long as Logical Lane 0 is placed on the master channel.
The Quartus II software automatically selects one of the following within a transceiver bank:
- The CMU PLL in either channel 1 or channel 4.
- The upper or lower ATX PLL if the ATX PLL is selected as the transmitter PLL within the transceiver bank containing the master channel.
In Gen1 and Gen2 configurations, you can select either the ATX PLL or the CMU PLL as the transmitter PLL. In Gen3 configurations, a CMU PLL is used for Gen1 and Gen2 datarates and an ATX PLL is used for Gen3 datarates. The CMU PLL and/or ATX PLL must be within the same transceiver bank.