Agilex™ 7 General-Purpose I/O User Guide: M-Series

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ID 772138
Date 7/08/2024
Public
Document Table of Contents
Document Table of Contents x
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. Agilex™ 7 General-Purpose I/O User Guide: M-Series Archives 10. Document Revision History for the Agilex™ 7 General-Purpose I/O User Guide: M-Series
1. Agilex™ 7 M-Series General-Purpose I/O Overview x
1.1. Package Selection and I/O Vertical Migration Support 1.2. Types of I/O Banks
2. Agilex™ 7 M-Series GPIO-B Banks x
2.1. GPIO-B Bank Overview 2.2. GPIO-B Features 2.3. GPIO-B Implementation Guide 2.4. GPIO-B Termination 2.5. GPIO-B Design Guidelines 2.6. GPIO-B Simulation
2.1. GPIO-B Bank Overview x
2.1.1. GPIO-B Bank Structure 2.1.2. GPIO-B Buffers and Registers
2.2. GPIO-B Features x
Power Pins for the GPIO-B Buffers GPIO-B Buffer Features 2.2.1. Supported I/O Standards for GPIO-B Banks 2.2.2. GPIO-B Buffer Behavior 2.2.3. Programmable I/O Element Features for the GPIO-B Bank
2.2.3. Programmable I/O Element Features for the GPIO-B Bank x
2.2.3.1. Guidelines: Programmable Output Slew Rate Control 2.2.3.2. Guidelines: Programmable Pull-Up Resistor 2.2.3.3. Guidelines: Programmable De-Emphasis 2.2.3.4. Guidelines: Programmable Receiver Equalization Calibration
2.3. GPIO-B Implementation Guide x
2.3.1. I/O Assignments with the Quartus® Prime Assignment Editor 2.3.2. Assigning Pin I/O Standards in the Quartus® Prime Pin Planner
2.3.1. I/O Assignments with the Quartus® Prime Assignment Editor x
2.3.1.1. Assigning Pin I/O Standards in the Quartus® Prime Assignment Editor 2.3.1.2. Assigning Programmable IOE Features in the Quartus® Prime Assignment Editor 2.3.1.3. GPIO-B Programmable IOE Features Assignment Names and Settings
2.4. GPIO-B Termination x
2.4.1. Single-Ended I/O Termination in M-Series Devices 2.4.2. True Differential Signaling I/O Termination in M-Series Devices
2.4.1. Single-Ended I/O Termination in M-Series Devices x
2.4.1.1. Single-Ended I/O Standards On-Chip Termination 2.4.1.2. OCT Calibration Block 2.4.1.3. Single-Ended I/O Standards External Termination 2.4.1.4. Single-Ended I/O Termination Implementation Guide
2.4.1.1. Single-Ended I/O Standards On-Chip Termination x
2.4.1.1.1. RS OCT 2.4.1.1.2. RT OCT 2.4.1.1.3. Dynamic OCT
2.4.1.4. Single-Ended I/O Termination Implementation Guide x
2.4.1.4.1. Configuring OCT Using the Assignment Editor 2.4.1.4.2. OCT Features Assignment Names and Settings
2.4.2. True Differential Signaling I/O Termination in M-Series Devices x
2.4.2.1. True Differential Signaling I/O Standard On-Chip Termination 2.4.2.2. True Differential Signaling I/O Standard External Termination
2.4.2.1. True Differential Signaling I/O Standard On-Chip Termination x
2.4.2.1.1. Configuring Differential Input RD OCT Using the Assignment Editor 2.4.2.1.2. Guidelines: Differential Input RD OCT
2.5. GPIO-B Design Guidelines x
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 2.5.23. Implementing SLVS-400 Standard at 1.1 V VCCIO_PIO Sub-bank
2.6. GPIO-B Simulation x
2.6.1. IBIS Models—GPIO-B Support 2.6.2. IBIS-AMI Models 2.6.3. HSPICE* Models 2.6.4. Net Length Reports
3. Agilex™ 7 M-Series HPS I/O Banks x
3.1. HPS I/O Bank Overview 3.2. HPS I/O Features 3.3. HPS I/O Implementation Guide 3.4. HPS I/O Design Guidelines 3.5. HPS I/O Simulation
3.2. HPS I/O Features x
3.2.1. Supported I/O Standards for HPS I/O Banks 3.2.2. Programmable I/O Element Features for the HPS I/O Bank 3.2.3. HPS I/O Buffer Behavior
3.3. HPS I/O Implementation Guide x
3.3.1. Configuring Open Drain Feature for the HPS I/O 3.3.2. I/O Assignments with the Quartus® Prime Assignment Editor 3.3.3. Assigning Pin I/O Standards in the Quartus® Prime Pin Planner
3.3.2. I/O Assignments with the Quartus® Prime Assignment Editor x
3.3.2.1. Assigning Programmable IOE Features in the Quartus® Prime Assignment Editor 3.3.2.2. HPS I/O Programmable IOE Features Assignment Names and Settings
3.4. HPS I/O Design Guidelines x
3.4.1. HPS I/O Pins During Power Sequencing 3.4.2. HPS Shared I/O Requirements
3.5. HPS I/O Simulation x
3.5.1. IBIS Models—HPS I/O Support 3.5.2. Net Length Reports
4. Agilex™ 7 M-Series SDM I/O Banks x
4.1. SDM I/O Bank Overview 4.2. SDM I/O Features 4.3. SDM I/O Design Guidelines 4.4. SDM I/O Simulation
4.2. SDM I/O Features x
4.2.1. Supported I/O Standards for SDM I/O Banks 4.2.2. SDM I/O Buffer Behavior 4.2.3. I/O Standards and Features for Configuration Pins
4.3. SDM I/O Design Guidelines x
4.3.1. SDM I/O Pins During Power Sequencing 4.3.2. Avalon® Streaming Interface Dedicated Configuration Pins
4.4. SDM I/O Simulation x
4.4.1. IBIS Models—SDM I/O Support 4.4.2. Net Length Reports
6. GPIO Intel® FPGA IP x
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
6.2. Generating the GPIO Intel® FPGA IP x
6.2.1. Intel® FPGA IP Generation Output
6.3. GPIO Intel® FPGA IP Parameter Settings x
6.3.1. Guideline: Swap datain_h and datain_l Ports in Migrated IP
6.4. GPIO Intel® FPGA IP Interface Signals x
6.4.1. Shared Signals 6.4.2. Data Bit-Order for Data Interface 6.4.3. Input and Output Bus High and Low Bits 6.4.4. Data Interface Signals and Corresponding Clocks
6.5. GPIO Intel® FPGA IP Architecture x
6.5.1. GPIO Intel® FPGA IP Data Paths 6.5.2. Register Packing
6.5.1. GPIO Intel® FPGA IP Data Paths x
6.5.1.1. Input Path 6.5.1.2. Output and Output Enable Paths
6.7. GPIO Intel® FPGA IP Timing x
6.7.1. Timing Components 6.7.2. Delay Elements 6.7.3. Timing Analysis 6.7.4. Timing Closure Guidelines
6.7.3. Timing Analysis x
6.7.3.1. Single Data Rate Input Register 6.7.3.2. DDIO Input Register 6.7.3.3. Single Data Rate Output Register 6.7.3.4. DDIO Output Register
6.8. GPIO Intel® FPGA IP Design Examples x
6.8.1. GPIO Intel® FPGA IP Synthesizable Quartus® Prime Design Example 6.8.2. GPIO Intel® FPGA IP Simulation Design Example
7. Programmable I/O Features Description x
7.1. Programmable Pre-Emphasis 7.2. Programmable De-Emphasis 7.3. Programmable Differential Output Voltage 7.4. Continuous Time Linear Equalization 7.5. Decision Feedback Equalization
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. Agilex™ 7 General-Purpose I/O User Guide: M-Series Archives
10. Document Revision History for the Agilex™ 7 General-Purpose I/O User Guide: M-Series

2.2. GPIO-B Features

The I/O bank within the GPIO-B interface supports various differential and single-ended I/O standards to cater to different types of interfacing requirements.
  • Single-ended LVCMOS for general purpose I/O interfacing.
  • Single-ended and pseudo-differential voltage-referenced I/O standards for general purpose and external memory interfacing. The differential voltage-referenced output pins are not true differential output pins. The differential voltage-referenced I/O standards use two single-ended output pins with one of the output pins inverted.
  • True differential I/O buffer pairs using the True Differential Signaling and SLVS-400 I/O standards. The True Differential Signaling I/O standard is compatible with the LVDS, RSDS, Mini-LVDS, and LVPECL I/O standards. One true differential buffer pair forms a true differential channel.

Power Pins for the GPIO-B Buffers

The VCCIO_PIO and VCCPT pins power the I/O buffers located in the I/O bank within the GPIO-B interface.

GPIO-B Buffer Features

  • Single-ended non-voltage referenced and voltage-referenced I/O standards
  • Differential voltage-referenced I/O standards
  • True differential transmitters and receivers
  • Serializer/deserializer (SERDES)
  • Programmable slew rate
  • Programmable weak pull-up resistor
  • Programmable differential output voltage (VOD) for true differential output buffers
  • Programmable receiver equalization calibration
  • On-chip series termination (RS OCT)
  • On-chip parallel termination (RT OCT)
  • On-chip differential termination (RD OCT)
  • Dynamic on-chip parallel termination
  • Internally generated VREF
  • Programmable pre-emphasis for true differential output buffer
  • Programmable de-emphasis

Section Content
Supported I/O Standards for GPIO-B Banks
GPIO-B Buffer Behavior
Programmable I/O Element Features for the GPIO-B Bank

Level Two Title