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2.1. Installation and Licensing
2.2. Generating CPRI Intel® FPGA IP Core
2.3. CPRI Intel® FPGA IP File Structure
2.4. CPRI Intel® FPGA IP Core Parameters
2.5. Integrating Your Intel® FPGA IP Core in Your Design: Required External Blocks
2.6. Simulating Intel FPGA IP Cores
2.7. Understanding the Testbench
2.8. Running the Design Example
2.9. 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. 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 Core 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. Intel® Arria® 10, Intel® Stratix® 10, and Intel® Agilex™ 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
5.1. INTR Register
5.2. L1_STATUS Register
5.3. L1_CONFIG Register
5.4. BIT_RATE_CONFIG Register
5.5. PROT_VER Register
5.6. TX_SCR Register
5.7. RX_SCR Register
5.8. CM_CONFIG Register
5.9. CM_STATUS Register
5.10. START_UP_SEQ Register
5.11. START_UP_TIMER Register
5.12. FLSAR Register
5.13. CTRL_INDEX Register
5.14. TX_CTRL Register
5.15. RX_CTRL Register
5.16. RX_ERR Register
5.17. RX_BFN Register
5.18. LOOPBACK Register
5.19. TX_DELAY Register
5.20. RX_DELAY Register
5.21. TX_EX_DELAY Register
5.22. RX_EX_DELAY Register
5.23. ROUND_TRIP_DELAY Register
5.24. XCVR_BITSLIP Register
5.25. DELAY_CAL_STD_CTRL1 Register
5.26. DELAY_CAL_STD_CTRL2 Register
5.27. DELAY_CAL_STD_CTRL3 Register
5.28. DELAY_CAL_STD_CTRL4 Register
5.29. DELAY_CAL_STD_CTRL5 Register
5.30. DELAY_CAL_STD_STATUS Register
5.31. DELAY_CAL_RTD Register
5.32. XCVR_TX_FIFO_DELAY Register
5.33. XCVR_RX_FIFO_DELAY Register
5.34. IP_INFO Register
5.35. DEBUG_STATUS Register
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1.1. CPRI Intel® FPGA IP Core Supported Features
The CPRI Intel® FPGA IP core offers the following features:
- Compliant with the Common Public Radio Interface (CPRI) Specification v7.0 (2015-10-09) Interface Specification available on the CPRI Industry Initiative website (www.cpri.info).
- Supports radio equipment controller (REC) and radio equipment (RE) module configurations.
- Configurable CPRI communication line bit rate (to 0.6144, 1.2288, 2.4576, 3.0720, 4.9152, 6.144, 8.11008, 9.8304, 10.1376, 12.16512 or 24.33024 Gbps) using Intel® FPGA on-chip high-speed transceivers.
- CPRI line bit rate auto-rate negotiation support.
- CPRI Intel® FPGA IP core variations that target an Intel® Stratix® 10 and Intel® Agilex™ device with 24.33024 Gbps line rate includes a Reed-Solomon Forward Error Correction (RS-FEC) block. This block corrects the errors on receiver side.
- Configurable and run-time programmable synchronization mode: master port or slave port on a CPRI link.
- Scrambling and descrambling at 8.11008, 10.1376, 12.16512 and 24.33024 Gbps.
- Optional scrambling and descrambling at 4.9152, 6.1440, and 9.8304 Gbps.
- Transmitter (Tx) and receiver (Rx) deterministic latency and delay measurement and calibration.
Note: Compliant with the CPRI Specification requirements R-19, R-20, R-20A, R-21, and R-21A.
- Optional support for single-trip delay calibration.
- Optional round-trip delay calibration.
- L1 link status and alarm (Z.130.0) control and status monitoring.
- Access to all Vendor Specific data.
- Diagnostic parallel reverse loopback paths.
- Diagnostic serial and parallel forward loopback paths.
- Diagnostic stand-alone slave testing mode.
- Register access interface to external or on-chip processor, using the Intel® Avalon® Memory-Mapped (Avalon-MM) interconnect specification.
- Optional auxiliary (AUX) interface for full access to raw CPRI frame. Provides direct access to full radioframe, synchronizes the frame position with timing references, and enables routing application support from slave to master ports to implement daisy-chain topologies.
- Optional choice of IEEE 802.3 100BASE-X compliant 10/100 Mbps MII or 1000BASE-X compliant 1Gbps GMII for Ethernet frame access.
- Optional direct I/Q access interface enables integration of all user-defined air standard I/Q mapping schemes.
- Optional external I/Q mapper and demapper modules with reference design support.
- Optional external I/Q compression and decompression modules with reference design support.
- Optional vendor specific data access interfaces provide direct access to Vendor Specific (VS), Control AxC (Ctrl_AxC), and Real-time Vendor Specific (RTVS) subchannels.
- Optional HDLC serial interface provides direct access to slow control and management subchannels.
- Optional L1 inband interface provides direct access to Z.130.0 link status and alarm control word.