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1. Overview
2. Getting Started
3. F-Tile Ethernet Intel® FPGA Hard IP Parameters
4. Functional Description
5. Clocks
6. Resets
7. Interface Overview
8. Configuration Registers
9. Supported Modules and IPs
10. Supported Tools
11. F-Tile Ethernet Intel® FPGA Hard IP User Guide Archives
12. Document Revision History for F-Tile Ethernet Intel® FPGA Hard IP User Guide
4.4.1. Features
4.4.2. PTP Timestamp Accuracy
PTP Timestamp Accuracy in Basic Mode
PTP Timestamp Accuracy in Advanced Mode
4.4.3. PTP Client Flow
4.4.4. RX Virtual Lane Offset Calculation for No FEC Variants
4.4.5. Virtual Lane Order and Offset Values
4.4.6. UI Adjustment
4.4.7. Reference Time Interval
4.4.8. Minimum and Maximum Reference Time (TAM) Interval for UI Measurement (Hardware)
4.4.9. UI Value and PMA Delay
4.4.10. Routing Delay Adjustment for Advanced Timestamp Accuracy Mode
5.1. Clock Connections in Single Instance Operation
5.2. Clock Connections in Multiple Instance Operation
5.3. Clock Connections in MAC Asynchronous FIFO Operation
5.4. Clock Connections in PTP-Based Synchronous and Asynchronous Operation
5.5. Clock Connections in Synchronous Ethernet Operation
5.6. Custom Cadence
7.1. Status Interface
7.2. TX MAC Avalon ST Client Interface
7.3. RX MAC Avalon ST Aligned Client Interface
7.4. TX MAC Segmented Client Interface
7.5. RX MAC Segmented Client Interface
7.6. MAC Flow Control Interface
7.7. PCS Mode TX Interface
7.8. PCS Mode RX Interface
7.9. FlexE and OTN Mode TX Interface
7.10. FlexE and OTN Mode RX Interface
7.11. Custom Rate Interface
7.12. Deterministic Latency Interface
7.13. 32-bit Soft CWBIN Counters
7.14. Reconfiguration Interfaces
7.15. Precision Time Protocol Interface
7.2.1. TX MAC Avalon ST Client Interface with Disabled Preamble Passthrough
7.2.2. TX MAC Avalon ST Client Interface with Enabled Preamble Passthrough
7.2.3. Using MAC Avalon ST skip_crc Signal to Control Source Address, PAD, and CRC Insertion
7.2.4. Using MAC Avalon ST i_tx_error Signal to Mark Packets Invalid
7.4.1. TX MAC Segmented Client Interface with Disabled Preamble Passthrough
7.4.2. TX MAC Segmented Client Interface with Enabled Preamble Passthrough
7.4.3. Using MAC Segmented skip_crc Signal to Control Source Address, PAD, and CRC Insertion
7.4.4. Using MAC Segmented i_tx_mac_error to Mark Packets Invalid
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4.4.2. PTP Timestamp Accuracy
The IP core supports two timestamps accuracy modes, Basic and Advanced. In advanced mode, additional logic generates the high accuracy PTP timestamps.
PTP Timestamp Accuracy in Basic Mode
When you select Basic in the Timestamp accuracy mode under PTP tab in the parameter editor for F-Tile Ethernet Intel® FPGA Hard IP core, TX and RX data paths of multiple Ethernet IP instances share a single TOD clock output.
- The time-of-day (TOD) module can be shared across multiple IP instances of different data rates
- The F-Tile Ethernet Intel® FPGA Hard IP instance 1 and instance 2, shown below, can be located on different F-tiles
- Any 390.625 MHz frequency clock source can drive the TOD clock
Figure 14. TOD Clock and TOD Connections in Basic Accuracy ModeThe figure displays recommended TOD clock connection. The TOD clock source should be 390.625 MHz.
PTP Timestamp Accuracy in Advanced Mode
When you select Advanced in the Timestamp accuracy mode under PTP tab in the parameter editor, the IP core requires a single Master TOD module and dedicated TOD Synchronizer and TOD modules for both, TX and RX PTP instances.
Figure 15. TOD Clock and TOD Connections in Advanced Accuracy ModeThe figure displays recommended TOD clock connection.
Ethernet Data Rate | PTP Timestamp Accuracy | |
---|---|---|
Basic Mode | Advanced Mode | |
10GE | ± 3ns | ± 1.5ns |
25GE | ± 3ns | ± 1.5ns |
50GE | ± 8ns | ± 1.5ns |
100GE | ± 8ns | ± 1.5ns |
200GE | ± 8ns | ± 8ns |
400GE | ± 8ns | ± 8ns |