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2.1.1. Directory Structure
2.1.2. Generating the Design
2.1.3. Simulating the E-Tile Hard IP for Ethernet Intel FPGA IP 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 Hard IP for Ethernet Intel FPGA IP 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 Hard IP for Ethernet Intel FPGA IP 100GE MAC+PCS with Optional RS-FEC Simulation Design Example
2.3.1.2. E-Tile Hard IP for Ethernet Intel FPGA IP 100GE MAC+PCS with Optional RS-FEC and PTP Simulation Design Example
2.3.1.3. E-Tile Hard IP for Ethernet Intel FPGA IP 100GE PCS Only with Optional RS-FEC Simulation Design Example
2.3.1.4. E-Tile Hard IP for Ethernet Intel FPGA IP 100GE OTN with Optional RS-FEC Simulation Design Example
2.3.1.5. E-Tile Hard IP for Ethernet Intel FPGA IP 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. CPRI Dynamic Reconfiguration Design Examples
4.4. 25G Ethernet to CPRI Dynamic Reconfiguration Design Example
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
4.5.7. Steps to Enable FEC
4.5.8. Steps to Disable FEC
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4.2.3.1. 10GE/25GE MAC+PCS with RS-FEC and PTP Hardware Dynamic Reconfiguration Design Example Components
The 10GE/25GE hardware dynamic reconfiguration design example includes the following components:
- E-Tile Hard IP for Ethernet Intel FPGA IP core.
- Client logic that coordinates the programming of the IP core and packet generation.
- Time-of-day (ToD) module to provide a continuous flow of current time-of-day information to the IP core.
- PIO block to store RX and TX PTP timestamp for accuracy calculation and to send PTP 2-step timestamp request.
- Avalon® -MM address decoder to decode reconfiguration address space for MAC, transceiver, and RS-FEC modules during reconfiguration accesses.
- Nios® II System that communicates with the Nios® II Software Build Tools (SBT) for Eclipse. You communicate with the client logic and E-Tile Hard IP for Ethernet Intel FPGA IP through the tool.
- Triple-Speed Ethernet Intel FPGA IP .
- IO PLL to provide datapath clocks 62.5 MHz and 125 MHz as required by the Triple-Speed Ethernet Intel FPGA IP.
- E-tile CPRI PHY EFIFO to handle the clock-crossing between the Triple-Speed Ethernet Intel FPGA IP and Native PHY's PMA.
- ToD master module to provide a continuous flow of current time-of-day information to Triple-Speed Ethernet Intel FPGA IP.
- Ethernet 1GE packet generator and monitor for Triple-Speed Ethernet Intel FPGA IP packet generation and monitoring.
By default, the hardware test run uses the internal serial loopback mode. The following sample outputs illustrate a successful hardware test run for a 25GE, MAC+PCS, RS-FEC, with PTP IP core variation. The hardware test uses this user control GUI to switch to any supported mode.
CPU is alive!
Dynamic Reconfiguration Hardware Test
By default, the starting mode is 25G_PTP_FEC.
Please choose one of Dynamic reconfiguration:
0) 25G_PTP_FEC -> 25G_PTP_noFEC -> 10G_PTP -> 25G_PTP_noFEC -> 25G_PTP_FEC -> 10G_PTP -> 25G_PTP_FEC
-> 1G_PTP -> 10G_PTP -> 1G_PTP -> 25G_PTP_noFEC -> 1G_PTP -> 25G_PTP_FEC
1) 25G_PTP_FEC -> 25G_PTP_noFEC
2) 25G_PTP_noFEC -> 25G_PTP_FEC
3) 25G_PTP_FEC -> 10G_PTP
4) 10G_PTP -> 25G_PTP_FEC
5) 25G_PTP_noFEC -> 10G_PTP
6) 10G_PTP -> 25G_PTP_noFEC
7) 25G_PTP_FEC -> 1G_PTP
8) 1G_PTP -> 25G_PTP_FEC
9) 10G_PTP -> 1G_PTP
a) 1G_PTP -> 10G_PTP
b) 25G_PTP_noFEC -> 1G_PTP
c) 1G_PTP -> 25G_PTP_noFEC
Terminate test
If you terminate test halfway, you must reload the .sof file before retrigger the hardware test.
Enter a Valid Selection (0,1,3,7,d):