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1. About LL Ethernet 10G MAC
2. Getting Started
3. LL Ethernet 10G MAC Intel® FPGA IP Design Examples
4. Functional Description
5. Configuration Registers
6. Interface Signals
7. Low Latency Ethernet 10G MAC Intel® FPGA IP User Guide Archives
8. Document Revision History for the Low Latency Ethernet 10G MAC Intel® FPGA IP User Guide
2.1. Introduction to Intel® FPGA IP Cores
2.2. Installing and Licensing Intel® FPGA IP Cores
2.3. Specifying the IP Core Parameters and Options ( Quartus® Prime Pro Edition)
2.4. IP Core Generation Output ( Quartus® Prime Pro Edition)
2.5. Files Generated for Intel IP Cores (Legacy Parameter Editor)
2.6. Simulating Intel® FPGA IP Cores
2.7. Creating a Signal Tap Debug File to Match Your Design Hierarchy
2.8. Parameter Settings for the Low Latency Ethernet 10G MAC Intel® FPGA IP Core
2.9. Upgrading the Low Latency Ethernet 10G MAC Intel® FPGA IP Core
2.10. Design Considerations for the Low Latency Ethernet 10G MAC Intel® FPGA IP Core
5.1. Register Map
5.2. Register Access Definition
5.3. Primary MAC Address
5.4. MAC Reset Control Register
5.5. TX Configuration and Status Registers
5.6. Flow Control Registers
5.7. Unidirectional Control Registers
5.8. RX Configuration and Status Registers
5.9. Timestamp Registers
5.10. ECC Registers
5.11. Statistics Registers
6.1. Clock and Reset Signals
6.2. Speed Selection Signal
6.3. Error Correction Signals
6.4. Unidirectional Signals
6.5. Avalon® Memory-Mapped Interface Programming Signals
6.6. Avalon® Streaming Data Interfaces
6.7. Avalon® Streaming Flow Control Signals
6.8. Avalon® Streaming Status Interface
6.9. PHY-side Interfaces
6.10. IEEE 1588v2 Interfaces
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2.10.1.1. Migration—32-bit Datapath on Avalon® Streaming Interface
Follow these steps to implement 32-bit datapath on the Avalon® streaming and Avalon® memory-mapped interfaces.
- Instantiate the LL Ethernet 10G MAC Intel® FPGA IP core in your design. If you are using a PHY with 64-bit SDR XGMII interface, turn on the Use legacy Ethernet 10G MAC XGMII Interface option.
- Modify your user logic to accommodate 32-bit datapaths on Avalon® streaming TX and RX data interfaces.
- Ensure that tx_312_5_clk and rx_312_5_clk are connected to 312.5 MHz clock sources. Intel recommends that you use the same clock source for these clock signals.
- Update the register offsets to the offsets of the LL Ethernet 10G MAC Intel® FPGA IP core. The configuration registers of the LL Ethernet 10G MAC Intel® FPGA IP core allow access to new features such as error correction and detection on memory blocks.
- If you turn on the Use legacy Ethernet 10G MAC XGMII Interface option, add a 156.25 MHz clock source for tx_156_25_clk and rx_156_25_clk. This 156.25 MHz clock source must be rise-to-rise synchronous to the 312.5 MHz clock source.
- Ensure that csr_clk is within 125 MHz to 156.25 MHz. Otherwise, some statistic counters may not be accurate.