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1. About the Low Latency 40G for ASIC Proto Ethernet Intel® FPGA IP
2. Low Latency 40G for ASIC Proto Ethernet IP Core Parameters
3. Getting Started
4. Functional Description
5. Reset
6. Interfaces and Signal Descriptions
7. Control, Status, and Statistics Register Descriptions
8. Debugging the Link
9. Ethernet Toolkit Overview
10. Low Latency 40G for ASIC Proto Ethernet Intel® FPGA IP User Guide Archives
11. Low Latency 40G for ASIC Proto Ethernet Intel® FPGA IP Revision History
3.1. Installing and Licensing Intel® FPGA IP Cores
3.2. Specifying the Low Latency 40G for ASIC Proto Ethernet IP Core Parameters and Options
3.3. Simulating the IP Core
3.4. Generated File Structure
3.5. Integrating Your IP Core in Your Design
3.6. Low Latency 40G for ASIC Proto Ethernet IP Core Testbench
3.7. Compiling the Full Design and Programming the FPGA
6.1. TX MAC Interface to User Logic
6.2. RX MAC Interface to User Logic
6.3. TX PCS Interface to User Logic
6.4. RX PCS Interface to User Logic
6.5. Transceivers Signals
6.6. Transceiver Reconfiguration Signals
6.7. Avalon® Memory-Mapped Management Interface
6.8. Miscellaneous Status and Debug Signals
6.9. Reset Signals
6.10. Clocks
6.11. Flow Control Interface
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4.1.4.1. TX Pause/PFC Flow Control Transmission
An XON/XOFF request triggers the IP core to transmit a Pause or PFC flow control frame on the Ethernet link. You can control XON/XOFF requests using the TX flow control registers or the pause_insert_tx0 and pause_insert_tx1 input signals.
You can specify whether the IP core accepts XON/XOFF requests in 1-bit or 2-bit format by updating the TX Flow Control CSR XON/XOFF Request register field. By default, the IP core assumes 1-bit requests.