F-Tile Low Latency Ethernet 10G MAC Intel® FPGA IP Design Example User Guide

Download PDF
ID 720987
Date 7/08/2024
Public

A newer version of this document is available. Customers should click here to go to the newest version.

Document Table of Contents
Document Table of Contents x
1. About the F-Tile Low Latency Ethernet 10G MAC Intel® FPGA IP Design Example User Guide 2. Quick Start Guide 3. 10M/100M/1G/2.5G/5G/10G (USXGMII) Ethernet Design Example 4. Interface Signals Description 5. Configuration Registers Description 6. F-Tile Low Latency Ethernet 10G MAC Intel FPGA IP Design Example User Guide Archives 7. Document Revision History for the F-Tile Low Latency Ethernet 10G MAC Intel® FPGA IP Design Example User Guide
2. Quick Start Guide x
2.1. Directory Structure 2.2. Generating the Design 2.3. Compiling and Simulating the Design 2.4. Compiling and Testing the Design in Hardware 2.5. Signal Tap Debugging
2.2. Generating the Design x
2.2.1. Procedure 2.2.2. Design Example Parameters
2.3. Compiling and Simulating the Design x
2.3.1. Procedure 2.3.2. Testbench
2.4. Compiling and Testing the Design in Hardware x
2.4.1. Procedure 2.4.2. Hardware Setup
2.5. Signal Tap Debugging x
2.5.1. Signal Tap Debug Signals
3. 10M/100M/1G/2.5G/5G/10G (USXGMII) Ethernet Design Example x
3.1. Features 3.2. Hardware and Software Requirements 3.3. Functional Description 3.4. Simulation 3.5. Hardware Testing 3.6. Interface Signals 3.7. Configuration Registers
3.3. Functional Description x
3.3.1. Design Components 3.3.2. Clocking Scheme 3.3.3. Reset Scheme
3.3.3. Reset Scheme x
3.3.3.1. Reset Sequence
3.3.3.1. Reset Sequence x
3.3.3.1.1. Run-time Reset Sequence—TX 3.3.3.1.2. Run-time Reset Sequence—RX 3.3.3.1.3. Run-time Reset Sequence—TX + RX
3.4. Simulation x
3.4.1. Test Case—Design Example with the IEEE 1588v2 Feature 3.4.2. Test Case—Design Example without the IEEE 1588v2 Feature
3.5. Hardware Testing x
3.5.1. Test Procedure 3.5.2. Design Constraints
4. Interface Signals Description x
4.1. Clock and Reset Interface Signals 4.2. Avalon® Memory-Mapped Interface Signals 4.3. Avalon® Streaming Interface Signals 4.4. PHY Interface Signals 4.5. Status Interface 4.6. IEEE 1588v2 Timestamp Interface Signals 4.7. Packet Classifier Interface Signals 4.8. TOD Interface Signals
5. Configuration Registers Description x
5.1. Register Access Definition 5.2. Low Latency Ethernet 10G MAC 5.3. PHY 5.4. TOD
5.3. PHY x
5.3.1. 1G/2.5G/5G/10G Multirate PHY
1. About the F-Tile Low Latency Ethernet 10G MAC Intel® FPGA IP Design Example User Guide
2. Quick Start Guide
3. 10M/100M/1G/2.5G/5G/10G (USXGMII) Ethernet Design Example
4. Interface Signals Description
5. Configuration Registers Description
6. F-Tile Low Latency Ethernet 10G MAC Intel FPGA IP Design Example User Guide Archives
7. Document Revision History for the F-Tile Low Latency Ethernet 10G MAC Intel® FPGA IP Design Example User Guide

4.6. IEEE 1588v2 Timestamp Interface Signals

Table 16.  IEEE 1588v2 Timestamp Interface Signals
Signal Direction Width Description
tx_egress_timestamp_96b_valid Out [NUM_CHANNELS] When asserted, this signal qualifies the timestamp, tx_egress_timestamp_96b_data[], and the fingerprint, tx_egress_timestamp_96b_fingerprint[], of the TX frame.
tx_egress_timestamp_96b_data Out [NUM_CHANNELS][96] Carries the 96-bit egress timestamp in the following format:
  • Bits 48 to 95: 48-bit seconds field
  • Bits 16 to 47: 32-bit nanoseconds field
  • Bits 0 to 15: 16-bit fractional nanoseconds field
tx_egress_timestamp_96b_fingerprint Out [NUM_CHANNELS][TSTAMP_FP_WIDTH]

Specifies the fingerprint of the TX frame that the 96-bit timestamp is for.
tx_egress_timestamp_64b_valid Out [NUM_CHANNELS] When asserted, this signal qualifies the timestamp, tx_egress_timestamp_64b_data[], and the fingerprint, tx_egress_timestamp_64b_fingerprint[], of the TX frame.
tx_egress_timestamp_64b_data Out [NUM_CHANNELS][64] Carries the 64-bit egress timestamp in the following format:
  • Bits 16 to 63: 48-bit nanoseconds field
  • Bits 0 to 15: 16-bit fractional nanoseconds field
tx_egress_timestamp_64b_fingerprint Out [NUM_CHANNELS][TSTAMP_FP_WIDTH]

Specifies the fingerprint of the TX frame that the 64-bit timestamp is for.
rx_egress_timestamp_96b_valid Out [NUM_CHANNELS] When asserted, this signal qualifies the timestamp, rx_ingress_timestamp_96b_data[]. The MAC IP asserts this signal in the same clock cycle it asserts avalon_st_rx_startofpacket.
rx_egress_timestamp_96b_data Out [NUM_CHANNELS][96] Carries the 96-bit ingress timestamp in the following format:
  • Bits 48 to 95: 48-bit seconds field
  • Bits 16 to 47: 32-bit nanoseconds field
  • Bits 0 to 15: 16-bit fractional nanoseconds field
rx_egress_timestamp_64b_valid Out [NUM_CHANNELS] When asserted, this signal qualifies the timestamp, rx_ingress_timestamp_64b_data[]. The MAC IP asserts this signal in the same clock cycle it asserts avalon_st_rx_startofpacket.
rx_egress_timestamp_64b_data Out [NUM_CHANNELS][64] Carries the 64-bit ingress timestamp in the following format:
  • Bits 16 to 63: 48-bit nanoseconds field
  • Bits 0 to 15: 16-bit fractional nanoseconds field
Level Two Title