The CMAC/GT Selection and Configuration tab, shown in the following figure, is used to configure transceiver resources. The window loads with default values pre-populated.
The following table describes the CMAC/GT Selection and Configuration tab options.
| Parameter | Description | Default Value | Range |
|---|---|---|---|
| GT Location | |||
| GT Location Selection | Select whether the GT IP is included in the core or in the example design | Include GT subcore in core |
Include GT subcore in core Include GT subcore in example design |
| CMAC Lane to Transceiver Association | |||
| CMAC Core Selection | Select 100G Ethernet Hard IP core location | Based on the FPGA, part number, CMAC Mode and GT type selected | Based on the FPGA, part number, CMAC Mode and GT type selected, all the usable/configurable 100G Ethernet subsystems for that particular device/package will be listed. |
| GT Group Selection | Select the GT Group |
Based on the FPGA, part number, CMAC Mode, GT type selected and also based on GT selection guidelines |
Based on the FPGA, part number, CMAC Mode, GT type selected and also based on GT selection guidelines. |
| Lane-00 to Lane-09 | Auto fill GT lanes based on the GT Group selected | The best combination of transceivers will be auto filled based on the 100G Ethernet subsystem location chosen |
Based on the Mode selection (CAUI-10, CAUI-4, 100GAUI-2, or Runtime Switchable), the GT selection guidelines are followed. See Transceiver Selection Rules for more details. |
| Shared Logic | |||
| Include Shared Logic in | Determines the location of the transceiver shared logic | Core |
Core Example Design |
| Advanced Options | |||
| Receiver | |||
| RX Insertion Loss at Nyquist (dB) |
Specify the insertion loss of the channel between the transmitter and receiver at the Nyquist frequency in dB. Note: This option is available for Duplex and
Simplex RX operation.
|
12 | Depends on GT |
| RX Equalization Mode |
When Auto is specified, the equalization mode implemented by the Wizard depends on the value specified for insertion loss at Nyquist. Refer to AMD UG576/UG578 to determine the appropriate equalization mode for your system. Note: This option is available for
Duplex and Simplex RX operation. This feature is selected as Auto with grayed out
for the GTM transceiver type.
|
Auto |
Auto DFE LPM |
| Clocking Options | |||
| RX GT Buffer |
Controls whether the GT receiver elastic buffer bypass operates in multi-lane mode or single-lane mode. Note: This option is available for
Duplex and Simplex RX operation. This feature is not applicable for the GTM
transceiver type.
|
Enable |
Enable Bypass |
| RX GT Buffer Bypass Mode |
RX GT Buffer Bypass Mode. RX GT Buffer Bypass Mode is Multi-Lane when the RX GT Buffer option is set to Enable. RX GT Buffer Bypass Mode is Single-Lane when the RX GT Buffer option is set to Bypass. Note: This option is available for
Duplex and Simplex RX operation. This feature is not applicable for the GTM
transceiver type.
|
Multi-Lane |
Multi-Lane Single-Lane |
| GT QPLL | |||
| PLL Type | GT PLL Type Note: This feature is not applicable for
the GTM transceiver type.
|
QPLL0 QPLL1 |
QPLL0 QPLL1 |
| Others | |||
| Enable Pipeline Register | Selecting this option will include one stage pipeline register between the CMAC core and the GT to ease timing. | 0 |
0-Disable 1-Enable |
| Enable Additional GT Control/Status and DRP Ports | Enable Additional GT Control/Status and DRP Ports | 0 |
0-Disable 1-Enable |