Serial Lite III Streaming Intel® FPGA IP User Guide

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ID 683330
Date 5/26/2023
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Document Table of Contents
Document Table of Contents x
1. Serial Lite III Streaming Intel® FPGA IP Quick Reference 2. About the Serial Lite III Streaming Intel® FPGA IP 3. Getting Started 4. Serial Lite III Streaming IP Core Design Examples 5. Serial Lite III Streaming Intel® FPGA IP Functional Description 6. Serial Lite III Streaming Intel® FPGA IP Clocking Guidelines 7. Serial Lite III Streaming Intel® FPGA IP Configuration and Status Registers 8. Serial Lite III Streaming Intel® FPGA IP Debugging Guidelines 9. Serial Lite III Streaming Intel® FPGA IP User Guide Archives 10. Document Revision History for the Serial Lite III Streaming Intel® FPGA IP User Guide
2. About the Serial Lite III Streaming Intel® FPGA IP x
2.1. Serial Lite III Streaming Intel® FPGA IP Protocol 2.2. Serial Lite III Streaming Intel® FPGA IP Protocol Operating Modes 2.3. Performance and Resource Utilization
2.2. Serial Lite III Streaming Intel® FPGA IP Protocol Operating Modes x
2.2.1. Continuous Mode 2.2.2. Burst Mode
3. Getting Started x
3.1. Installing and Licensing Intel® FPGA IP Cores 3.2. Intel® FPGA IP Evaluation Mode 3.3. Specifying IP Core Parameters and Options 3.4. Serial Lite III Streaming Intel® FPGA IP Parameters 3.5. Transceiver Reconfiguration Controller for Stratix® V and Arria® V GZ Designs 3.6. IP Generation Output ( Intel® Quartus® Prime Pro Edition) 3.7. IP Core Generation Output ( Intel® Quartus® Prime Standard Edition) 3.8. Simulating
3.2. Intel® FPGA IP Evaluation Mode x
3.2.1. Intel® FPGA IP Evaluation Mode Timeout Behavior
3.3. Specifying IP Core Parameters and Options x
3.3.1. Serial Lite III Streaming Intel® FPGA IP Parameter Editor 3.3.2. Intel® Arria® 10 and Intel® Cyclone® 10 GX Designs
3.4. Serial Lite III Streaming Intel® FPGA IP Parameters x
3.4.1. Parameters 3.4.2. Parameter Settings for Intel® Stratix® 10 Devices 3.4.3. Parameter Settings for Intel® Arria® 10 and Intel® Cyclone® 10 GX Devices 3.4.4. Parameter Settings for Stratix V and Arria V GZ Devices
3.8. Simulating x
3.8.1. Simulating Intel® FPGA IP Cores 3.8.2. Simulation Parameters 3.8.3. Simulating and Verifying the Design
4. Serial Lite III Streaming IP Core Design Examples x
4.1. Serial Lite III Streaming IP Core Design Example for Intel® Stratix® 10 Devices 4.2. Serial Lite III Streaming IP Core Design Example for Intel® Arria® 10 and Intel® Cyclone® 10 GX Devices 4.3. Serial Lite III Streaming IP Design Examples for Stratix® V Devices
5. Serial Lite III Streaming Intel® FPGA IP Functional Description x
5.1. IP Architecture 5.2. Transmission Overheads and Lane Rate Calculations 5.3. Reset 5.4. Link-Up Sequence 5.5. Error Detection, Reporting, and Recovering Mechanism 5.6. CRC-32 Error Injection 5.7. FIFO ECC Protection 5.8. User Data Interface Waveforms 5.9. Signals 5.10. Accessing Configuration and Status Registers
5.1. IP Architecture x
5.1.1. Serial Lite III Streaming Source Core 5.1.2. Serial Lite III Streaming Sink Core 5.1.3. Serial Lite III Streaming IP Core Duplex Core 5.1.4. Interlaken PHY IP Duplex Core or Native PHY IP Duplex Core - Interlaken Mode or PCS Gearbox Mode 5.1.5. Intel® Stratix® 10, Intel® Arria® 10, Intel® Cyclone® 10 GX, Stratix® V, and Arria® V GZ Variations
5.1.1. Serial Lite III Streaming Source Core x
5.1.1.1. Source Application Module 5.1.1.2. Source Adaptation Module 5.1.1.3. Interlaken PHY IP TX Core or Native PHY IP TX Core - Interlaken Mode 5.1.1.4. Source Clock Generator
5.1.2. Serial Lite III Streaming Sink Core x
5.1.2.1. Sink Application Module 5.1.2.2. Sink Adaptation Module 5.1.2.3. Lane Alignment Module 5.1.2.4. Interlaken PHY IP RX Core or Native PHY IP RX Core - Interlaken Mode 5.1.2.5. Sink Clock Generator
5.9. Signals x
5.9.1. Serial Lite III Streaming Intel® FPGA IP Interface Signals 5.9.2. Signals for Intel® Stratix® 10 Devices 5.9.3. Signals for Intel® Arria® 10 and Intel® Cyclone® 10 GX Devices 5.9.4. Signals for Stratix® V and Arria® V GZ Devices
6. Serial Lite III Streaming Intel® FPGA IP Clocking Guidelines x
6.1. Standard Clocking Mode 6.2. Advanced Clocking Mode 6.3. Standard Clocking Mode vs Advanced Clocking Mode 6.4. Clocking Implementation Guidelines 6.5. Core Latency
6.1. Standard Clocking Mode x
6.1.1. Standard Clocking Mode in Serial Lite III Streaming Intel® FPGA IP Core ( Intel® Stratix® 10 Devices) 6.1.2. Standard Clocking Mode in Intel® Arria® 10, Intel® Cyclone® 10 GX, Stratix® V, and Arria® V Devices
6.2. Advanced Clocking Mode x
6.2.1. Advanced Clocking Mode Structure for Serial Lite III Streaming Intel FPGA IP Core ( Intel® Stratix® 10 Devices) 6.2.2. Advanced Clocking Mode Structure For Intel® Arria® 10, Intel® Cyclone® 10 GX, Stratix® V, and Arria® V Devices
6.4. Clocking Implementation Guidelines x
6.4.1. Choosing TX PLL Type
7. Serial Lite III Streaming Intel® FPGA IP Configuration and Status Registers x
7.1. Register Map 7.2. Configuration and Status Registers
8. Serial Lite III Streaming Intel® FPGA IP Debugging Guidelines x
8.1. Creating a Signal Tap Debug File to Match Your Design Hierarchy 8.2. Serial Lite III Streaming Intel® FPGA IP Link Debugging
8.2. Serial Lite III Streaming Intel® FPGA IP Link Debugging x
8.2.1. Source Core Link Debugging 8.2.2. Sink Core Link Debugging
1. Serial Lite III Streaming Intel® FPGA IP Quick Reference
2. About the Serial Lite III Streaming Intel® FPGA IP
3. Getting Started
4. Serial Lite III Streaming IP Core Design Examples
5. Serial Lite III Streaming Intel® FPGA IP Functional Description
6. Serial Lite III Streaming Intel® FPGA IP Clocking Guidelines
7. Serial Lite III Streaming Intel® FPGA IP Configuration and Status Registers
8. Serial Lite III Streaming Intel® FPGA IP Debugging Guidelines
9. Serial Lite III Streaming Intel® FPGA IP User Guide Archives
10. Document Revision History for the Serial Lite III Streaming Intel® FPGA IP User Guide

3.8.1. Simulating Intel® FPGA IP Cores

The Intel® Quartus® Prime software supports IP core RTL simulation in specific EDA simulators. IP generation optionally creates simulation files, including the functional simulation model, any testbench (or example design), and vendor-specific simulator setup scripts for each IP core. You can use the functional simulation model and any testbench or example design for simulation. IP generation output may also include scripts to compile and run any testbench. The scripts list all models or libraries you require to simulate your IP core.

The Intel® Quartus® Prime software provides integration with many simulators and supports multiple simulation flows, including your own scripted and custom simulation flows. Whichever flow you choose, IP core simulation involves the following steps:

  1. Generate IP HDL, testbench (or example design), and simulator setup script files.
  2. Set up your simulator environment and any simulation scripts.
  3. Compile simulation model libraries.
  4. Run your simulator.
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