5.5. GTS Interlaken Link and Miscellaneous Signals
Signal Name | Width (Bits) | I/O Direction | Available In | Description |
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tx_pin | Number of lanes | Output | Interlaken mode | Each bit represents the differential pair on a TX Interlaken lane. |
rx_pin | Number of lanes | Input | Interlaken mode | Each bit represents the differential pair on a RX Interlaken lane. |
tx_pin_n | Number of lanes | Output | Interlaken mode | For the NRZ loopback example design, tx_pin_n drives data to rx_pin_n. |
rx_pin_n | Number of lanes | Input | Interlaken mode | For the NRZ loopback example design, rx_pin_n receives data from tx_pin_n. |
Signal Name 4 | Width (Bits) | I/O Direction | Available In | Description |
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tx_lanes_aligned | 1 | Output | Interlaken mode | Indicates whether all of the transmitter lanes are aligned and are ready to send traffic. |
itx_overflow | 1 | Output | Interlaken mode | An error flag indicating that the Transmit buffer is currently overflowing. This signal is asserted for the duration of the overflow condition. It is asserted in the first clock cycle in which the overflow occurs, and remains asserted until the Transmit buffer pointers indicate that no overflow condition exists. |
itx_underflow | 1 | Output | Interlaken mode | An error flag indicating that the Transmit buffer is currently underflowed. In normal operation, this signal may be asserted temporarily immediately after the Interlaken IP core comes out of reset. |
Signal Name 5 | Width (Bits) | I/O Direction | Available In | Description |
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rx_lanes_aligned | 1 | Output | Interlaken mode | Indicates whether all of the receiver lanes are aligned and are ready to receive traffic. |
sync_locked | Number of lanes | Output | Interlaken mode | Receive lane has locked on the remote transmitter meta Frame. These signals are level signals: all bits are expected to stay high unless a problem occurs on the serial line. |
word_locked | Number of lanes | Output | Interlaken mode | Receive lane has identified the 67-bit word boundaries in the serial stream. These signals are level signals: all bits are expected to stay high unless a problem occurs on the serial line. |
crc24_err | 1 | Output | Interlaken mode | A CRC24 error flag covering both control word and data word. You can use this signal to count the number of CRC24 errors. This signal is asserted as a single cycle wide pulse. |
crc32_err | Number of lanes | Output | Interlaken mode | An error flag indicating diagnostic CRC32 failures per lane. This signal is asserted as a single cycle wide pulse only for NRZ mode. |
rg_overflow | 1 | Output | Interlaken mode | An error flag indicating that the Reassembly FIFO is currently overflowed. The Reassembly FIFO is the receiver FIFO that feeds directly to the user data interface. |
sop_cntr_inc | 1 | Output | Interlaken mode | A pulse indicating that the IP core receiver user data interface received a start-of- packet (SOP). You can use this signal to increment a count of SOPs the application observes on the receive interface. |
eop_cntr_inc | 1 | Output | Interlaken mode | A pulse indicating that the IP core receiver user data interface received an end-of-packet (EOP). You can use this signal to increment a count of EOPs the application observes on the receive interface. |
sop_cntr_inc1 | 1 | Output | Interlaken mode | A pulse indicating that the IP core receiver user data interface received a start-of- packet (SOP) on second segment chunk. You can use this signal to increment a count of SOPs the application observes on the receive interface. This signal is only available in muti-segment mode of IP core variations. |
eop_cntr_inc1 | 1 | Output | Interlaken mode | A pulse indicating that the IP core receiver user data interface received an end-of-packet (EOP) on second segment chunk. You can use this signal to increment a count of EOPs the application observes on the receive interface. This signal is only available in muti-segment mode of IP core variations. |
rxfifo_fill_level | RXFIFO_ADDR_WIDTH | Output | Interlaken mode | The fill level of Reassembly FIFO, in uits of 64-bit words. The width of this signal is the value of the RXFIFO_ADDR_WIDTH parameter, which is 12 by default. You can use the signal to monitor when the RX assembly FIFO is empty. |
Signal Name | Width (Bits) | I/O Direction | Available In | Description |
---|---|---|---|---|
burst_max_in | 4 | Input | Interlaken mode | Encodes the BurstMax parameter for the IP core. The actual value of the BurstMax parameter must be a multiple of 64 bytes. While traffic is present, this input signal should remain static. However, when no traffic is present, you can modify the value of the burst_max_in signal to modify the BurstMax value of the IP core. The IP core supports the following valid values for this signal:
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burst_short_in | 4 | Input | Interlaken mode | Encodes the BurstShort parameter for the IP core. The IP core supports the following valid value for this parameter:
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burst_min_in | 4 | Input | Interlaken mode | Encodes the BurstMin parameter for the IP core. The IP core supports the following valid values for this signal:
Intel® recommends that you modify the value of this input signal only when no traffic is present on the TX user data interface. You do not need to reset the IP core.
Note: The burst_max_in value is ignored in the Interleaved mode.
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Signal Name | Width (Bits) | I/O Direction | Available In | Description |
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itx_eccstatus | 2 | Output | Interlaken mode | Indicates the TX ECC status.
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irx_eccstatus | 2 | Output | Interlaken mode | Indicates the RX ECC status.
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4 Synchronous with tx_usr_clk.
5 Synchronous with rx_usr_clk.