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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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6.9.5. MII TX Signals
The signals below are present in the 10M/100M/1G/10G, 10M/100M/1G/2.5G, and 10M/100M/1G/2.5G/10G operating modes.
Note: For 10M/100M/1G/2.5G and 10M/100M/1G/2.5G/10G variants, only tx_clkena signal is available.
Signal | Direction | Width | Description |
---|---|---|---|
tx_clkena | In | 1 | Clock enable from the PHY IP. This clock effectively divides gmii_tx_clk to 25 MHz for 100 Mbps and 2.5 MHz for 10 Mbps. For 10M/100M/1G/2.5G/10G and 10M/100M/1G/2.5G variants, this clock effectively divides gmii16b_tx_clk to 6.25 Mhz for 100 Mbps and 0.625 MHz for 10 Mbps. |
tx_clkena_half_rate | In | 1 | Clock enable from the PHY IP. This clock effectively divides gmii_tx_clk to 12.5 MHz for 100 Mbps and 1.25 MHz for 10 Mbps. |
mii_tx_d[] | Out | 4 | TX data bus. |
mii_tx_en | Out | 1 | When asserted, indicates the TX data is valid. |
mii_tx_err | Out | 1 | When asserted, indicates the TX data contains error. |