Visible to Intel only — GUID: nik1411172628435
Ixiasoft
Visible to Intel only — GUID: nik1411172628435
Ixiasoft
3.2.4.4. 100GbE IP Core RX Client Interface Examples
Example on RX Client Interface Without Preamble Pass-Through
In the figure, dout_last_data is asserted in the second cycle, indicating the end of a packet. The dout_d signal returns to 0 (5’h1c = 5’b11100). The dout_c and dout_d busses are set to 1b’1 and 8’h07, respectively, to indicate idling. In the fourth cycle, dout_first_data is asserted and a short packet begins. This packet terminates successfully in the final cycle. Note that the first packet has a CRC error (dout_fcs_error = 1 and fcs_valid = 1).
The dout_first_data signal marks the first word of data. The first byte of data is always the most significant byte of the word. There are 5 legal starting positions for the 100GbE IP core and 2 legal starting positions for the 40GbE IP core. The dout_last_data signal marks the last data byte before the FCS (CRC). It can occur at any byte position.
The dout_runt_last_data signal indicates that the packet ending in this word is less than the minimum legal length of 64 bytes from first data to the last FCS byte inclusive. Runt frames of eight or fewer bytes cannot be legally represented in CGMII and trigger a decoding error rather than this flag.
The dout_fcs_error and dout_fcs_valid signals indicate the result of the CRC checking logic. dout_fcs_valid = 1 and dout_fcs_error = 1 indicate a corrupted frame. Note that the CRC checking network works correctly on runt frames of 40–63 bytes. Runt frames of less than 40 bytes may be incorrectly determined to have a proper CRC.
The dout_payload signal marks words that contain frame data payload. Words that contain data payload might also contain Idle or sequence control information, or preamble/frame delimiters. However, if the word contains any frame data, the dout_payload bit that corresponds to that word has the value of 1.
The dout_valid signal exists for clock rate compensation. This signal is almost always asserted. When dout_valid is deasserted all other dout signals should be ignored for one clock cycle.
Example on RX Client Interface With Preamble Pass-Through
In the figure, the IP core is in preamble pass-through mode, and places the preamble sequence on the data bus dout_d. The dout_first_data signal marks the first word of data, including the full preamble sequence, beginning with the Start byte. The data in each packet begins with the Start byte (0x55), six-byte preamble (0x555555555555), and SFD (0xD5), and must align with one of the legal starting positions. The IP core asserts the dout_c signal high for the Start byte, and holds dout_c low for the remainder of the preamble, which is considered to be data. The dout_c signal is the only signal that distinguishes any part of the preamble sequence from data. The second and third packets in the example each begin in the first word of dout_d, with the preamble sequence. However, they could each legally begin at the start of any other word of dout_d; the start of each word is a legal starting position.