Visible to Intel only — GUID: oco1557106853236
Ixiasoft
1. Introduction to the Intel® Agilex™ Device Design Guidelines
2. System Specification
3. Device Selection
4. Security Considerations
5. Design Entry
6. Board and Software Considerations
7. Design Implementation, Analysis, Optimization, and Verification
8. Debugging
9. Embedded Software Design Guidelines for Intel® Agilex™ SoC FPGAs
5.1.1. Firewall Planning
5.1.2. Boot And Configuration Considerations
5.1.3. HPS Clocking and Reset Design Considerations
5.1.4. Reset Configuration
5.1.5. HPS Pin Multiplexing Design Considerations
5.1.6. HPS I/O Settings: Constraints and Drive Strengths
5.1.7. Design Guidelines for HPS Interfaces
5.1.8. Interfacing between the FPGA and HPS
5.1.9. Implementing the Intel® Agilex™ HPS Component
7.1. Selecting a Synthesis Tool
7.2. Device Resource Utilization Reports
7.3. Intel® Quartus® Prime Messages
7.4. Timing Constraints and Analysis
7.5. Area and Timing Optimization
7.6. Preserving Performance and Reducing Compilation Time
7.7. Designing with Intel® Hyperflex™
7.8. Simulation
7.9. Power Analysis
7.10. Power Optimization
7.11. Design Implementation, Analysis, Optimization, and Verification Revision History
9.1. Overview
9.2. Golden Hardware Reference Design (GHRD)
9.3. Define Software Requirements
9.4. Define Software Architecture
9.5. Selecting Software Tools
9.6. Choosing the Bootloader Software
9.7. Selecting an Operating System for Your Application
9.8. Assembling Your Software Development Platform for Linux*
9.9. Assembling your Software Development Platform for Partner OS or RTOS
9.10. Driver Considerations
9.11. Boot And Configuration Considerations
9.12. System Reset Considerations
9.13. Flash Considerations
9.14. Develop Application
9.15. Test and Validate
9.16. Embedded Software Design Guidelines Revision History
Visible to Intel only — GUID: oco1557106853236
Ixiasoft
6.1.7.1. Decoupling Capacitors
Number | Done? | Checklist Item |
---|---|---|
1 | Use the PDN tool to plan your power distribution netlist and decoupling capacitors. |
Board decoupling is important for improving overall power supply integrity while ensuring the rated device performance.
Intel® Agilex™ devices include on-die and on package decoupling capacitors to provide high-frequency decoupling. These low-inductance capacitors suppress power noise for excellent power integrity performance, and reduce the number of external PCB decoupling capacitors, saving board space, reducing cost, and greatly simplifying PCB design.