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2.1.1. Directory Structure
2.1.2. Generating the Design
2.1.3. Simulating the E-tile Ethernet IP for Intel Agilex FPGA Design Example Testbench
2.1.4. Compiling the Compilation-Only Project
2.1.5. Compiling and Configuring the Design Example in Hardware
2.1.6. Testing the E-tile Ethernet IP for Intel Agilex FPGA Hardware Design Example
2.2.1.1. Non-PTP 10GE/25GE MAC+PCS with Optional RS-FEC Simulation Design Example
2.2.1.2. PTP 10GE/25GE MAC+PCS with Optional RS-FEC Simulation Design Example
2.2.1.3. 10GE/25GE PCS Only, OTN, or FlexE with Optional RS-FEC Simulation Design Example
2.2.1.4. 10GE/25GE Custom PCS with Optional RS-FEC Simulation Design Example
2.3.1. Simulation Design Examples
2.3.2. Hardware Design Examples
2.3.3. 100GE MAC+PCS with Optional RS-FEC Design Example Interface Signals
2.3.4. 100GE PCS with Optional RS-FEC Design Example Interface Signals
2.3.5. 100GE MAC+PCS with Optional RS-FEC Design Example Registers
2.3.6. 100GE PCS with Optional RS-FEC Design Example Registers
2.3.1.1. Non-PTP E-tile Ethernet IP for Intel Agilex FPGA 100GE MAC+PCS with Optional RS-FEC Simulation Design Example
2.3.1.2. E-tile Ethernet IP for Intel Agilex FPGA 100GE MAC+PCS with Optional RS-FEC and PTP Simulation Design Example
2.3.1.3. E-tile Ethernet IP for Intel Agilex FPGA 100GE PCS Only with Optional RS-FEC Simulation Design Example
2.3.1.4. E-tile Ethernet IP for Intel Agilex FPGA 100GE OTN with Optional RS-FEC Simulation Design Example
2.3.1.5. E-tile Ethernet IP for Intel Agilex FPGA 100GE FlexE with Optional RS-FEC Simulation Design Example
3.1.1. Hardware and Software Requirements
3.1.2. Generating the Design
3.1.3. Directory Structure
3.1.4. Simulating the Design Example Testbench
3.1.5. Compiling the Compilation-Only Project
3.1.6. Compiling and Configuring the Design Example in Hardware
3.1.7. Testing the E-tile CPRI PHY Intel® FPGA IP Hardware Design Example
4.1. Quick Start Guide
4.2. 10G/25G Ethernet Dynamic Reconfiguration Design Examples
4.3. 25G Ethernet to CPRI Dynamic Reconfiguration Design Example
4.4. CPRI Dynamic Reconfiguration Design Examples
4.5. 100G Ethernet Dynamic Reconfiguration Design Example
4.6. Document Revision History for the E-tile Dynamic Reconfiguration Design Example
4.5.1. Functional Description
4.5.2. Testing the 100G Ethernet Dynamic Reconfiguration Hardware Design Example
4.5.3. Simulation Design Examples
4.5.4. 100GE DR Hardware Design Examples
4.5.5. 100G Ethernet Dynamic Reconfiguration Design Example Interface Signals
4.5.6. 100G Ethernet Dynamic Reconfiguration Examples Registers
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4.1.3.3. Performing the Link Initialization
The link initialization is part of the default simulation test. You should perform link initialization before each simulation test. The default HEX file provided for the simulation contains this step.
Follow these steps to perform link initialization:
- Wait for PIO_OUT[0] (o_ehip_ready) goes high.
- Enable PMA loopback.
- Wait for PIO_OUT[3:0] = 0xF (o_tx_ptp_ready, o_sl_rx_pcs_ready, o_sl_rx_block_lock, and o_ehip_ready asserted).
- Continuously send packets to the clock data recover (CDR) receiver (RX) deskew training and wait until PIO_OUT[4] (o_rx_ptp_ready goes high.
- Clear Ethernet statistic counters.
- Enable the packet generator to start sending packets of data. Check the transmitter (TX) packet count statistic counter to confirm all packets are sent.
- Check that the packet generator received all expected packets. Confirm the checker_pass status and wait for PIO_OUT[3:0] = 0xF (checker_pass, o_sl_rx_pcs_ready, o_sl_rx_block_lock, and o_ehip_ready asserted).
- Disable the packet generator to stop sending packets.