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2.1. Installation and Licensing
2.2. Generating aCPRI Intel® FPGA IP
2.3. CPRI Intel® FPGA IP Generated Files
2.4. CPRI Intel® FPGA IP Parameters
2.5. Integrating the CPRI IP into your Design: Required External Blocks
2.6. Simulating Intel FPGA IP Cores
2.7. Running the CPRI IP Design Example
2.8. CPRI Design Example Clocks
2.9. About the Testbench
2.10. Compiling the Full Design and Programming the FPGA
2.5.1. Adding the Transceiver TX PLL IP Core
2.5.2. Adding the Reset Controller
2.5.3. Adding the Transceiver Reconfiguration Controller
2.5.4. Adding the Off-Chip Clean-Up PLL
2.5.5. Adding and Connecting the Single-Trip Delay Calibration Blocks
2.5.6. CPRI IP Transceiver PLL Calibration
2.5.7. Reference and System PLL Clock for your IP Design
3.1. Interfaces Overview
3.2. CPRI Intel® FPGA IP Clocking Structure
3.3. CPRI Intel® FPGA IP Core Reset Requirements
3.4. Start-Up Sequence Following Reset
3.5. AUX Interface
3.6. Direct IQ Interface
3.7. Ctrl_AxC Interface
3.8. Direct Vendor Specific Access Interface
3.9. Real-Time Vendor Specific Interface
3.10. Direct HDLC Serial Interface
3.11. Direct L1 Control and Status Interface
3.12. L1 Debug Interface
3.13. Media Independent Interface (MII) to External Ethernet Block
3.14. Gigabit Media Independent Interface (GMII) to External Ethernet Block
3.15. CPU Interface to CPRI Intel® FPGA IP Registers
3.16. Auto-Rate Negotiation
3.17. Extended Delay Measurement
3.18. Deterministic Latency and Delay Measurement and Calibration
3.19. CPRI Intel® FPGA IP Transceiver and Transceiver Management Interfaces
3.20. Testing Features
3.19.1. CPRI Link
3.19.2. Main Transceiver Clock and Reset Signals
3.19.3. Arria V, Arria V GZ, Cyclone V, and Stratix V Transceiver Reconfiguration Interface
3.19.4. Arria® 10, Stratix® 10, and Agilex® 7 Transceiver Reconfiguration Interface
3.19.5. RS-FEC Interface
3.19.6. Interface to the External Reset Controller
3.19.7. Interface to the External PLL
3.19.8. Transceiver Debug Interface
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3.19.5. RS-FEC Interface
This interface is available when you generate IP core variation for Stratix® 10 device with 24.3 Gbps CPRI line bit rate.
Signal Name | Direction | Description |
---|---|---|
fec_align_status | Output | Indicates alignment of the data in the RS-FEC block. |
fec_syn_restarted | Output | Indicates when data in RS-FEC block is not aligned. |
fec_corrected_cw_inc | Output | Asserts high when FEC corrects the error detected. |
fec_uncorrected_cw_inc | Output | Asserts high when FEC detects an uncorrectable error. |
fec_restart_sync | Input | Synchronous active-high reset signal for RS-FEC. You can use this signal only when fec_mode is high, which do not support for CPRI FEC mode. Drive this signal low for not using. |
fec_bypass_error_correction | Input | Synchronous active-high signal to bypass only RS-FEC block. |
fec_bypass | Input | Synchronous active-high signal to bypass RS-FEC block and PN-5280 scrambler/descrambler. |
fec_parallellpbken | Input | When this signal is logic high, the internal logic skips PMA and performs a parallel loopback after RS-FEC. |
lat_bitslip [21:0] | Output | Indicates latency introduced by RX bitslip logic in soft PCS. |