Visible to Intel only — GUID: vvu1662990164268
Ixiasoft
4.3.1.1. NOP(0x0)
4.3.1.2. get_hssi_profile for E-Tile
4.3.1.3. get_hssi_profile for F-Tile
4.3.1.4. set_hssi_profile for E-Tile
4.3.1.5. set_hssi_profile for F-Tile
4.3.1.6. read_MAC_statistic
4.3.1.7. get_mtu
4.3.1.8. set_csr for E-Tile
4.3.1.9. set_csr for F-Tile
4.3.1.10. get_csr for E-Tile
4.3.1.11. get_csr for F-Tile
4.3.1.12. enable_loopback for E-Tile
4.3.1.13. enable_loopback for F-Tile
4.3.1.14. disable_loopback for E-Tile
4.3.1.15. disable_loopback for F-Tile
4.3.1.16. Reset MAC Statistics
4.3.1.17. set_mtu for F-Tile
4.3.1.18. Ncsi_get_link_status
4.3.1.19. Reserved
4.3.1.20. firmware_version (0xFF)
6.1. Driving Multiple Ports with the Same Clock
6.2. Clock Connections for MAC Asynchronous Client FIFO
6.3. F-Tile Clock Connections for PTP Synchronous and Asynchronous cases
6.4. Clock Connections for SyncE Operation on E-Tile
6.5. Clock Connections for SyncE Operation on F-Tile
6.6. F-Tile PMA and FEC Direct PHY IP Clock Output
7.1.1. Device Feature Header Lo
7.1.2. Device Feature Header Hi
7.1.3. Feature GUID_L
7.1.4. Feature GUID_H
7.1.5. Feature CSR ADDR
7.1.6. Feature CSR Size Group
7.1.7. Version
7.1.8. Feature List
7.1.9. Interface Attribute Port X Parameters
7.1.10. HSSI Command/Status
7.1.11. HSSI Control/Address
7.1.12. HSSI Read Data
7.1.13. HSSI Write Data
7.1.14. HSSI Ethernet Port X Status
7.1.15. Priority Flow Control
7.1.16. Priority Flow Control TX Queue Statistics
7.1.17. Priority Flow Control RX Queue Statistics
7.1.18. Priority Flow Control TX Queue Threshold
7.1.19. Priority Flow Control RX Queue Threshold
7.1.20. F-Tile DR Controller Status
Visible to Intel only — GUID: vvu1662990164268
Ixiasoft
4.3.1.3. get_hssi_profile for F-Tile
This SAL command is used to poll the DR CSR Ready for New Trigger. The DR ready for trigger status is reflected in HSSI Command/Status CSR bit 3 following the write/read CSR sequence to HSSI Command/Status CSR as shown in the following table. This get_hssi_profile SAL command is executed in HW and not through SAL NIOS firmware to avoid extra latency introduced in the DR sequence.
SAL command | Write CSR | Read CSR (polling) | CSR | Values |
---|---|---|---|---|
get_hssi_profile | HSSI Command/Status [0:0] = 1 (read command) HSSI Command/Status [1:1] = 0 (write command) HSSI Command/Status [2:2] = 0 (reset ACK_TRANS) HSSI Command/Status [3:3] = 0 (not busy) |
HSSI Command/Status [0:0] = 1 (read command) HSSI Command/Status [1:1] = 0 (write command) HSSI Command/Status [2:2] = 1 (transfer completed) HSSI Command/Status [3:3] = 0 (not ready) or 1 (ready) |
dyn_rcfg_dr_trigger_reg | [1:1] - Ready for trigger 0 = not ready 1 = ready |
get_hssi_profile | HSSI Write Data[31:24] = 1 | HSSI Read Data[31:0] | dyn_rcfg_dr_tx_fully_reset_ack_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 2 | HSSI Read Data[31:0] | dyn_rcfg_dr_tx_fully_reset_out_reset_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 3 | HSSI Read Data[31:0] | dyn_rcfg_dr_tx_reset_initial_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 4 | HSSI Read Data[31:0] | dyn_rcfg_dr_tx_src_alarm_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 5 | HSSI Read Data[31:0] | dyn_rcfg_dr_rx_fully_reset_ack_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 6 | HSSI Read Data[31:0] | dyn_rcfg_dr_rx_fully_reset_out_reset_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 7 | HSSI Read Data[31:0] | dyn_rcfg_dr_rx_reset_initial_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 8 | HSSI Read Data[31:0] | dyn_rcfg_dr_rx_src_alarm_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = 9 | HSSI Read Data[31:0] | dyn_rcfg_local_error_stat_ctrl_reg | Values |
get_hssi_profile | HSSI Write Data[31:24] = A | HSSI Read Data[31:0] | dyn_rcfg_local_rx_src_alarm_reg | Values |