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1. Agilex™ 7 M-Series General-Purpose I/O Overview
2. Agilex™ 7 M-Series GPIO-B Banks
3. Agilex™ 7 M-Series HPS I/O Banks
4. Agilex™ 7 M-Series SDM I/O Banks
5. Agilex™ 7 M-Series I/O Troubleshooting Guidelines
6. GPIO Intel® FPGA IP
7. Programmable I/O Features Description
8. Documentation Related to the Agilex™ 7 General-Purpose I/O User Guide: M-Series
9. Document Revision History for the Agilex™ 7 General-Purpose I/O User Guide: M-Series
2.5.1. I/O Standard Placement Restrictions for True Differential I/Os
2.5.2. Placement Restrictions for True Differential and Single-Ended I/O Standards in the Same or Adjacent GPIO-B Bank
2.5.3. VREF Sources and Input Standards Grouping
2.5.4. GPIO-B Pin Restrictions for External Memory Interfaces
2.5.5. RZQ Pin Requirement
2.5.6. I/O Standards Implementation Based on VCCIO_PIO Voltages
2.5.7. I/O Standard Selection and I/O Bank Supply Compatibility Check
2.5.8. Simultaneous Switching Noise
2.5.9. HPS Shared I/O Requirements
2.5.10. Clocking Requirements
2.5.11. SDM Shared I/O Requirements
2.5.12. Unused Pins
2.5.13. VCCIO_PIO Supply for Unused GPIO-B Banks
2.5.14. GPIO-B Pins During Power Sequencing
2.5.15. Drive Strength Requirement for GPIO-B Input Pins
2.5.16. Maximum DC Current Restrictions
2.5.17. 1.05 V, 1.1 V, or 1.2 V I/O Interface Voltage Level Compatibility
2.5.18. Connection to True Differential Signaling Input Buffers During Device Reconfiguration
2.5.19. LVSTL700 I/O Standards Differential Pin Pair Requirements
2.5.20. Implementing a Pseudo Open Drain
2.5.21. Allowed Duration for Using RT OCT
2.5.22. Single-Ended Strobe Signal Differential Pin Pair Restriction
6.1. Release Information for GPIO Intel® FPGA IP
6.2. Generating the GPIO Intel® FPGA IP
6.3. GPIO Intel® FPGA IP Parameter Settings
6.4. GPIO Intel® FPGA IP Interface Signals
6.5. GPIO Intel® FPGA IP Architecture
6.6. Verifying Resource Utilization and Design Performance
6.7. GPIO Intel® FPGA IP Timing
6.8. GPIO Intel® FPGA IP Design Examples
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7.4. Continuous Time Linear Equalization
Each supported receiver uses a programmable equalization circuit that boosts the high-frequency gain of the incoming signal to compensate for the low-pass characteristics of the physical medium.
You can set this feature to automatically tune the receiver equalization settings based on the frequency content of the incoming signals. Through the automatic tuning, you can obtain the optimal CTLE settings.
The M-Series FPGAs support a one-time receiver CTLE calibration. If you enable this feature, the calibration finds a stable receiver equalizer setting. Once found, the feature locks the equalizer value to the stable setting.