Visible to Intel only — GUID: zir1583945622225
Ixiasoft
Visible to Intel only — GUID: zir1583945622225
Ixiasoft
5.12. eCPRI IP Sink Interface
Signal Name | Width | Direction | Description |
---|---|---|---|
avst_sink_valid | 1 | Input | Avalon® sink valid from client logic to eCPRI. The user is required to continuously assert avst_sink_valid between the assertions of avst_sink_sop and avst_sink_eop. The only exception to this rule is when the avst_sink_ready signal deasserts. In this case, the user is required to deassert avst_sink_valid for three cycles of READY_LATENCY. |
avst_sink_data | DATA_WIDTH 9 | Input | Avalon® sink write data from RRH PHY to eCPRI |
avst_sink_sop | 1 | Input | Avalon® sink start of packet (SOP) from RRH PHY to eCPRI. Indicate the beginning of packet. |
avst_sink_eop | 1 | Input | Avalon® sink end of packet (EOP) from RRH PHY to eCPRI. Indicate the end of packet. |
avst_sink_empty | LOG2(DATA_WIDTH9/8) | Input | Avalon® sink empty from RRH PHY to eCPRI. Indicates the number of symbols that are empty, that is, do not represent valid data. |
avst_sink_ready | 1 | Output | Avalon® sink ready driven from eCPRI. Indicates eCPRI can accept data. |
avst_sink_error | 1 | Input | Avalon® sink error from RRH PHY to eCPRI. A bit mask to mark errors affecting the data being transferred in the current cycle. |
Sideband | |||
sink_pkt_size | 16 | Input | Packet size in bytes for the data packet from client logic to eCPRI IP. The packet size must not include data on sideband signal interface. This port is available only when the Streaming mode is enabled in the eCPRI IP. Ensure that you send the data packet with the correct size. If the packet size (sink_pkt_size) does not match the packet size of the whole SOP and EOP, the Avalon® streaming interface error to MAC is asserted. This sets eCPRI TX error register as well. |
sink_pkt_checksum | 16 | Input | Checksum for data packet from client logic PHY to eCPRI IP. This signal is used for the UDP checksum. Intel® recommends that you provide the correct signal because the eCPRI IP does not check for this signal. |
sink_pc_id | 32 | Input | Physical channel ID of the eCPRI message. For message type 3, the physical channel is 32-bit wide. For other message types, it is 16-bit wide and the 16 bit MSB is ignored. Valid on SOP assertion and stable until EOP assertion. |
sink_seq_id | 32 | Input | Sequence ID of eCPRI message. For message type 3, the physical channel is 32-bit wide. For other message types, it is 16-bit wide and the 16 bit MSB is ignored. Valid on SOP assertion and stable until EOP assertion. |
sink_rtc_id | 16 | Input | Real time control ID of eCPRI message. Valid on SOP assertion and stable until EOP assertion. |
sink_concatenation | 1 | Input |
Concatenation indication on the eCPRI message:
|
sink_msg_type | 8 | Input | Indicate message type of the eCPRI message. Valid range is 0-7 and 64-255 for eCPRI v1.2 specification. Valid on SOP assertion and stable until EOP assertion. |
sink_mem_acc_id | 8 | Input | Indicate remote memory access id of the eCPRI message type 4: Valid on SOP assertion and stable until EOP assertion. |
sink_op_type | 8 | Input |
Indicate operation of the eCPRI message type 4:
|
sink_element_id | 16 | Input | Indicates element id of the eCPRI message type 4. Valid on SOP assertion and stable until EOP assertion. |
sink_address | 48 | Input | Indicates memory address of the eCPRI message type 4. Valid on SOP assertion and stable until EOP assertion. |
sink_length | 16 | Input | Indicates memory access length of the eCPRI message type 4. Valid on SOP assertion and stable until EOP assertion. |
sink_reset_id | 16 | Input | Indicates reset ID of the eCPRI message type 6. Valid on SOP assertion and stable until EOP assertion. |
sink_reset_op | 8 | Input |
Indicates reset operation type of the eCPRI message type 6:
|
sink_event_id | 8 | Input | Indicate event ID of the eCPRI message type 7. Valid on SOP assertion and stable until EOP assertion. |
sink_event_type | 8 | Input | Indicates event type of the eCPRI message type 7. Valid on SOP assertion and stable until EOP assertion. |