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Ixiasoft
Visible to Intel only — GUID: fdj1486506937265
Ixiasoft
2.4.3. PMA Parameters
You can specify values for the following types of PMA parameters:
- TX Bonding Options
- TX PLL Options
- TX PMA Optional Ports
- RX CDR Options
- Equalization
- RX PMA Optional Ports
Parameter | Value | Description |
---|---|---|
TX channel bonding mode | Not bonded PMA only bonding PMA and PCS bonding |
Selects the bonding mode to be used for the channels specified. Bonded channels use a single TX PLL to generate a clock that drives multiple channels, reducing channel-to-channel skew. The following options are available: Not bonded: In a non-bonded configuration, only the high speed serial clock is expected to be connected from the TX PLL to the Native PHY IP core. The low speed parallel clock is generated by the local clock generation block (CGB) present in the transceiver channel. For non-bonded configurations, because the channels are not related to each other and the feedback path is local to the PLL, the skew between channels cannot be calculated. PMA only bonding: In PMA bonding, the high speed serial clock is routed from the transmitter PLL to the master CGB. The master CGB generates the high speed and low parallel clocks and the local CGB for each channel is bypassed. Refer to the Channel Bonding section for more details. PMA and PCS bonding : In a PMA and PCS bonded configuration, the local CGB in each channel is bypassed and the parallel clocks generated by the master CGB are used to clock the network. The master CGB generates both the high and low speed clocks. The master channel generates the PCS control signals and distributes to other channels through a control plane block. The default value is Not bonded. Refer to Channel Bonding section in PLLs and Clock Networks chapter for more details. |
PCS TX channel bonding master | Auto, 0 to <number of channels> -1 | Specifies the master PCS channel for PCS bonded configurations. Each Native PHY IP core instance configured with bonding must specify a bonding master. If you select Auto, the Native PHY IP core automatically selects a recommended channel. The default value is Auto. Refer to the PLLs and Clock Networks chapter for more information about the TX channel bonding master. |
Actual PCS TX channel bonding master | 0 to <number of channels> -1 | This parameter is automatically populated based on your selection for the PCS TX channel bonding master parameter. Indicates the selected master PCS channel for PCS bonded configurations. |
Parameter | Value | Description |
---|---|---|
TX local clock division factor | 1, 2, 4, 8 |
Specifies the value of the divider available in the transceiver channels to divide the TX PLL output clock to generate the correct frequencies for the parallel and serial clocks. |
Number of TX PLL clock inputs per channel | 1, 2, 3 , 4 |
Specifies the number of TX PLL clock inputs per channel. Use this parameter when you plan to dynamically switch between TX PLL clock sources. Up to four input sources are possible. |
Initial TX PLL clock input selection | 0 to <number of TX PLL clock inputs> -1 |
Specifies the initially selected TX PLL clock input. This parameter is necessary when you plan to switch between multiple TX PLL clock inputs. |
Parameter | Value | Description |
---|---|---|
Enable tx_pma_analog_reset_ack port | On/Off | Enables the optional tx_pma_analog_reset_ack output port. This port should not be used for register mode data transfers. |
Enable tx_pma_clkout port | On/Off | Enables the optional tx_pma_clkout output clock. This is the low speed parallel clock from the TX PMA. The source of this clock is the serializer. It is driven by the PCS/PMA interface block. 10 |
Enable tx_pma_div_clkout port | On/Off | Enables the optional tx_pma_div_clkout output clock. This clock is generated by the serializer. You can use this to drive core logic, to drive the FPGA - transceivers interface. If you select a tx_pma_div_clkout division factor of 1 or 2, this clock output is derived from the PMA parallel clock. If you select a tx_pma_div_clkout division factor of 33, 40, or 66, this clock is derived from the PMA high serial clock. This clock is commonly used when the interface to the TX FIFO runs at a different rate than the PMA parallel clock frequency, such as 66:40 applications. |
tx_pma_div_clkout division factor | Disabled, 1, 2, 33, 40, 66 | Selects the division factor for the tx_pma_div_clkout output clock when enabled. 11 |
Enable tx_pma_iqtxrx_clkout port | On/Off | Enables the optional tx_pma_iqtxrx_clkout output clock. This clock can be used to cascade the TX PMA output clock to the input of a PLL. |
Enable tx_pma_elecidle port | On/Off | Enables the tx_pma_elecidle port. When you assert this port, the transmitter is forced into an electrical idle condition. This port has no effect when the transceiver is configured for PCI Express. |
Enable rx_seriallpbken port | On/Off | Enables the optional rx_seriallpbken control input port. The assertion of this signal enables the TX to RX serial loopback path within the transceiver. This is an asynchronous input signal. |
Parameter | Value | Description |
---|---|---|
Number of CDR reference clocks | 1 - 5 | Specifies the number of CDR reference clocks. Up to 5 sources are possible. The default value is 1. Use this feature when you want to dynamically re-configure CDR reference clock source. |
Selected CDR reference clock | 0 to <number of CDR reference clocks> -1 | Specifies the initial CDR reference clock. This parameter determines the available CDR references used. The default value is 0. |
Selected CDR reference clock frequency | < data rate dependent > | Specifies the CDR reference clock frequency. This value depends on the data rate specified. |
PPM detector threshold | 100 300 500 1000 |
Specifies the PPM threshold for the CDR. If the PPM between the incoming serial data and the CDR reference clock, exceeds this threshold value, the CDR loses lock. The default value is 1000. |
Parameters | Value | Description |
---|---|---|
CTLE adaptation mode | Manual |
Specifies the Continuous Time Linear Equalization (CTLE) operation mode. For manual mode, set the CTLE options through the Assignment Editor, or modify the Quartus Settings File (.qsf), or write to the reconfiguration registers using the Avalon Memory-Mapped (Avalon-MM) interface. Refer to the Continuous Time Linear Equalization (CTLE) section for more details about CTLE architecture. Refer to the How to Enable CTLE section for more details on supported adaptation modes. |
Parameters | Value | Description |
---|---|---|
Enable rx_analog_reset_ack port | On/Off | Enables the optional rx_analog_reset_ack output. This port should not be used for register mode data transfers. |
Enable rx_pma_clkout port | On/Off | Enables the optional rx_pma_clkout output clock. This port is the recovered parallel clock from the RX clock data recovery (CDR). 12 |
Enable rx_pma_div_clkout port | On/Off | Enables the optional rx_pma_div_clkout output clock. The deserializer generates this clock. Use this to drive core logic, to drive the RX PCS-to-FPGA fabric interface, or both. If you select a rx_pma_div_clkout division factor of 1 or 2, this clock output is derived from the PMA parallel clock. If you select a rx_pma_div_clkout division factor of 33, 40, or 66, this clock is derived from the PMA serial clock. This clock is commonly used when the interface to the RX FIFO runs at a different rate than the PMA parallel clock frequency, such as 66:40 applications. |
rx_pma_div_clkout division factor | Disabled, 1, 2, 33, 40, 66 | Selects the division factor for the rx_pma_div_clkout output clock when enabled. 13 |
Enable rx_pma_iqtxrx_clkout port | On/Off | Enables the optional rx_pma_iqtxrx_clkout output clock. This clock can be used to cascade the RX PMA output clock to the input of a PLL. |
Enable rx_pma_clkslip port | On/Off | Enables the optional rx_pma_clkslip control input port. A rising edge on this signal causes the RX serializer to slip the serial data by one clock cycle, or 2 unit intervals (UI). |
Enable rx_is_lockedtodata port | On/Off | Enables the optional rx_is_lockedtodata status output port. This signal indicates that the RX CDR is currently in lock to data mode or is attempting to lock to the incoming data stream. This is an asynchronous output signal. |
Enable rx_is_lockedtoref port | On/Off | Enables the optional rx_is_lockedtoref status output port. This signal indicates that the RX CDR is currently locked to the CDR reference clock. This is an asynchronous output signal. |
Enable rx_set_lockedtodata port and rx_set_lockedtoref ports | On/Off | Enables the optional rx_set_lockedtodata and rx_set_lockedtoref control input ports. You can use these control ports to manually control the lock mode of the RX CDR. These are asynchronous input signals. |
Enable rx_seriallpbken port | On/Off | Enables the optional rx_seriallpbken control input port. The assertion of this signal enables the TX to RX serial loopback path within the transceiver. This is an asynchronous input signal. |
Enable PRBS (Pseudo Random Bit Sequence) verifier control and status port | On/Off | Enables the optional rx_prbs_err, rx_prbs_clr, and rx_prbs_done control ports. These ports control and collect status from the internal PRBS verifier. |