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4.3.8.1. eCPRI Message Type 0- IQ Data Transfer
4.3.8.2. eCPRI Message Type 1- Bit Sequence Transfer
4.3.8.3. eCPRI Message Type 2- Real Time Control Data
4.3.8.4. eCPRI Message Type 3- Generic Data Transfer
4.3.8.5. eCPRI Message Type 4- Remote Memory Access
4.3.8.6. eCPRI Message Type 5- One-Way Delay Measurement
4.3.8.7. eCPRI Message Type 6- Remote Reset
4.3.8.8. eCPRI Message Type 7- Event Indication
4.3.8.9. eCPRI Message Type 64- 255 Vendor Specific
5.1. Clock Signals
5.2. Power, Reset, and Firewalls Signals
5.3. TX Time of Day Interface
5.4. RX Time of Day Interface
5.5. Interrupt
5.6. Configuration Avalon-MM Interface
5.7. Ethernet MAC Source Interface
5.8. Ethernet MAC Sink Interface
5.9. External ST Source Interface
5.10. External ST Sink Interface
5.11. eCPRI IP Source Interface
5.12. eCPRI IP Sink Interface
5.13. Miscellaneous Interface Signals
5.14. IWF Type 0 eCPRI Interface
5.15. IWF Type 0 CPRI MAC Interface
5.15.1. CPRI 32-bit IQ Data TX Interface
5.15.2. CPRI 64-bit IQ Data TX Interface
5.15.3. CPRI 32-bit Ctrl_AxC TX Interface
5.15.4. CPRI 64-bit Ctrl_AxC TX Interface
5.15.5. CPRI 32-bit Vendor Specific TX Interface
5.15.6. CPRI 64-bit Vendor Specific TX Interface
5.15.7. CPRI 32-bit Real-time Vendor Specific TX Interface
5.15.8. CPRI 64-bit Real-time Vendor Specific TX Interface
5.15.9. CPRI Gigabit Media Independent Interface (GMII)
5.15.10. CPRI IP L1 Control and Status Interface
6.1. eCPRI Version Register
6.2. eCPRI Scratch Register
6.3. eCPRI Common Control Register
6.4. eCPRI Message 5 Control Register
6.5. eCPRI TX Error Message Register
6.6. eCPRI RX Error Message Register
6.7. eCPRI Error Mask Message Register
6.8. eCPRI Error Log Message Register
6.9. eCPRI Error Message 5 Compensation Value 0 Register
6.10. eCPRI Error Message 5 Compensation Value 1 Register
6.11. eCPRI Transport Delay 0 Register
6.12. eCPRI Transport Delay 1 Register
6.13. eCPRI Transport Delay 2 Register
6.14. Ethernet Frame Scratch Register
6.15. Source MAC Address <i> Register, where i= 0, 1
6.16. Destination MAC n Address <i> Register, where n= 0, 1, 2, 3, 4, 5, 6, 7 and i= 0, 1
6.17. VLAN Tag Register <i>, where i= 0, 1, 2, 3, 4, 5, 6, 7
6.18. Ethertype Register
6.19. IPv4 Dw0 Register
6.20. IPv4 Dw1 Register
6.21. IPv4 Dw2 Register
6.22. IPv4 Source Address Register
6.23. IPv4 Destination Address Register
6.24. UDP Dw0 Register
6.25. UDP Port Register
6.26. MAC Packet Type Enable Register
6.27. RX Error Register
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5.15.10. CPRI IP L1 Control and Status Interface
Signal Name | Width (Bits) | I/O Direction | Description |
---|---|---|---|
TX Interface | |||
cpri_nego_bitrate_in[N] | 6 | Input | CPRI line bit rate to be used in next attempt to achieve frame synchronization, encoded according to the following valid values:
Note: IWF uses this information to determine the active interface (either 32-bit or 64-bit).
|
cpri_state_startup_seq[N] | 6 | Input | Indicates the state of the CPRI start-up sequence state machine. This signal has the following valid values:
Note: Drive clk_csr with the same clock source as CPRI's reconfig_clk.
|
cpri_state_l1_synch[N] | 3 | Input |
State B condition indicator. Indicates the state of the CPRI receiver L1 synchronization state machine. This signal has the following valid values:
|
cpri_local_lof[N] | 1 | Input | The CPRI IP notifies the loss of frame detection to IWF block. In this case, the state_l1_synch signal indicates the L1 synchronization state machine is in state XACQ1 or XACQ2. |
cpri_local_los[N] | 1 | Input | The CPRI IP notifies the loss of frame detection to IWF block. The CPRI IP asserts this flag if it detects excessive 8B/10B or 64B/66B errors. |
cpri_sdi_assert[N] | 1 | Output | Indicates that the master service access point (SAP) is not available. Possible causes for this situation are equipment error or that the connected slave IP core is forwarding an SDI request it detected to the current RE CPRI master IP core through a direct connection. |
cpri_local_rai[N] | 1 | Input | Indicates that either the cpri_local_lof or the cpri_local_los signal is high; clears when both of those two signals are low. Logical OR of two output signals cpri_local_lof and cpri_local_los. |
cpri_reset_assert[N] | 1 | Output | Reset request from the application or from an RE slave to the current RE CPRI master IP core through a direct connection. |
cpri_remote_lof[N] | 1 | Input | Indicates LOF received in Z.130.0 control byte from remote CPRI link partner. In this case the IP core also asserts the remote_lof bit in the FLSAR register at offset 0x2C. |
cpri_remote_los[N] | 1 | Input | Indicates LOS received in Z.130.0 control byte from remote CPRI link partner. In this case the IP core also asserts the remote_los bit in the FLSAR register at offset 0x2C. |
cpri_sdi_req[N] | 1 | Input | Indicates remote SAP defect indication received in Z.130.0 control byte from remote CPRI link master. If the current CPRI IP core is an RE slave in a multi-hop configuration, you should connect this output signal directly to the cpri_sdi_assert input signal of the downstream RE master. |
cpri_remote_rai[N] | 1 | Input | Asserts when either cpri_remote_lof or cpri_remote_los is asserted, and clears when both cpri_remote_lof and z130_remote_los have the value of 0. In this case the IP core also asserts the rai_detected bit in the FLSAR register at offset 0x2C. |
cpri_reset_req[N] | 1 | Input | If the current IP core is a CPRI link slave, indicates the IP core received a reset request in the Z.130.0 control byte from the remote CPRI link master. If the current IP core is a CPRI link master, indicates the IP core received a reset acknowledgement in the Z.130.0 control byte from the remote CPRI link slave. |