Visible to Intel only — GUID: nik1410564899791
Ixiasoft
Visible to Intel only — GUID: nik1410564899791
Ixiasoft
4.8.3. PIPE Interface Signals
These PIPE signals are available for Gen1, Gen2, and Gen3 variants so that you can simulate using either the serial or the PIPE interface. Simulation is much faster using the PIPE interface because the PIPE simulation bypasses the SERDES model . By default, the PIPE interface data width is 8 bits for Gen1 and Gen2 and 32 bits for Gen3. You can use the PIPE interface for simulation even though your actual design includes a serial interface to the internal transceivers. However, it is not possible to use the Hard IP PIPE interface in hardware, including probing these signals using Signal Tap.
Intel® Cyclone® 10 GX devices do not support the Gen3 data rate.
Signal |
Direction |
Description |
---|---|---|
txdata0[7:0] | Output |
Transmit data <n>. This bus transmits data on lane <n>. |
txdatak0 | Output |
Transmit data control <n>. This signal serves as the control bit for txdata <n>. |
txblkst0 | Output |
For Gen3 operation, indicates the start of a block in the transmit direction. |
txcompl0 |
Output |
Transmit compliance <n>. This signal forces the running disparity to negative in Compliance Mode (negative COM character). |
txdataskip0 |
Output |
For Gen3 operation. Allows the MAC to instruct the TX interface to ignore the TX data interface for one clock cycle. The following encodings are defined:
|
txdeemph0 | Output |
Transmit de-emphasis selection. The Intel® Arria® 10 Hard IP for PCI Express sets the value for this signal based on the indication received from the other end of the link during the Training Sequences (TS). You do not need to change this value. |
txdetectrx0 |
Output |
Transmit detect receive <n>. This signal tells the PHY layer to start a receive detection operation or to begin loopback. |
txelecidle0 |
Output |
Transmit electrical idle <n>. This signal forces the TX output to electrical idle. |
txswing | Output |
When asserted, indicates full swing for the transmitter voltage. When deasserted indicates half swing. |
txmargin[2:0] |
Output |
Transmit VOD margin selection. The value for this signal is based on the value from the Link Control 2 Register. Available for simulation only. |
txsynchd0[1:0] |
Output |
For Gen3 operation, specifies the transmit block type. The following encodings are defined:
|
rxdata0[7:0] |
Input |
Receive data <n>. This bus receives data on lane <n>. |
rxdatak0 |
Input |
Receive data control <n>. This signal serves as the control bit for rxdata <n>. Bit 0 corresponds to the lowest-order byte of rxdata, and so on. A value of 0 indicates a data byte. A value of 1 indicates a control byte. For Gen1 and Gen2 only. |
rxblkst0 |
Input |
For Gen3 operation, indicates the start of a block in the receive direction. |
rxdataskip0 |
Output |
For Gen3 operation. Allows the PCS to instruct the RX interface to ignore the RX data interface for one clock cycle. The following encodings are defined:
|
rxelecidle0 |
Input |
Receive electrical idle <n>. When asserted, indicates detection of an electrical idle. |
rxpolarity0 |
Output |
Receive polarity <n>. This signal instructs the PHY layer to invert the polarity of the 8B/10B receiver decoding block. |
rxstatus0[2:0] |
Input |
Receive status <n>. This signal encodes receive status, including error codes for the receive data stream and receiver detection. |
rxsynchd0[1:0] |
Input |
For Gen3 operation, specifies the receive block type. The following encodings are defined:
|
rxvalid0 |
Input |
Receive valid <n>. This signal indicates symbol lock and valid data on rxdata <n> and rxdatak <n>. |
phystatus0 |
Input |
PHY status <n>. This signal communicates completion of several PHY requests. |
powerdown0[1:0] |
Output |
Power down <n>. This signal requests the PHY to change its power state to the specified state (P0, P0s, P1, or P2). |
currentcoeff0[17:0] | Output |
For Gen3, specifies the coefficients to be used by the transmitter. The 18 bits specify the following coefficients:
|
currentrxpreset0[2:0] | Output |
For Gen3 designs, specifies the current preset. |
simu_mode_pipe |
Input |
When set to 1, the PIPE interface is in simulation mode. |
sim_pipe_rate[1:0] | Output |
The 2‑bit encodings have the following meanings:
|
sim_pipe_pclk_in | Input |
This clock is used for PIPE simulation only, and is derived from the refclk. It is the PIPE interface clock used for PIPE mode simulation. |
sim_pipe_pclk_out | Output |
TX datapath clock to the BFM PHY. pclk_out is derived from refclk and provides the source synchronous clock for TX data from the PHY. |
sim_pipe_clk250_out | Output |
Used to generate pclk. |
sim_pipe_clk500_out | Output |
Used to generate pclk. |
sim_pipe_ltssmstate0[4:0] | Input and Output |
LTSSM state: The LTSSM state machine encoding defines the following states:
|
rxfreqlocked0 | Input |
When asserted indicates that the pclk_in used for PIPE simulation is valid. |
eidleinfersel0[2:0] | Output |
Electrical idle entry inference mechanism selection. The following encodings are defined:
|