Embedded Memory User Guide: Agilex™ 3 FPGAs and SoCs

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ID 849316
Date 5/22/2025
Public
Document Table of Contents
Document Table of Contents x
1. Agilex™ 3 Embedded Memory Overview 2. Agilex™ 3 Embedded Memory Architecture and Features 3. Agilex™ 3 Embedded Memory Design Considerations 4. Agilex™ 3 Embedded Memory IP References 5. Agilex™ 3 Embedded Memory Debugging 6. Document Revision History for the Embedded Memory User Guide: Agilex™ 3 FPGAs and SoCs
1. Agilex™ 3 Embedded Memory Overview x
1.1. Agilex™ 3 Embedded Memory Features 1.2. Agilex™ 3 Embedded Memory Block Signals
2. Agilex™ 3 Embedded Memory Architecture and Features x
2.1. Byte Enable in Agilex™ 3 Embedded Memory Blocks 2.2. Address Hold Support 2.3. Asynchronous Clear and Synchronous Clear 2.4. Memory Blocks Error Correction Code Support 2.5. Agilex™ 3 Embedded Memory Clocking Modes 2.6. Agilex™ 3 Embedded Memory Configurations 2.7. Force-to-Zero 2.8. Coherent Read Memory 2.9. Freeze Logic 2.10. True Dual Port Dual Clock Emulator 2.11. Initial Value of Read and Write Address Registers 2.12. Automatic Timing/Power Optimization in M20K Blocks
2.1. Byte Enable in Agilex™ 3 Embedded Memory Blocks x
2.1.1. Byte Enable Controls 2.1.2. Data Byte Output 2.1.3. Byte Enable Behavior
2.4. Memory Blocks Error Correction Code Support x
2.4.1. Error Correction Code Truth Table 2.4.2. Parity Bit 2.4.3. ECC Parity Flip 2.4.4. ECC Read-During-Write Behavior
2.5. Agilex™ 3 Embedded Memory Clocking Modes x
2.5.1. Single Clock Mode 2.5.2. Read/Write Clock Mode 2.5.3. Input/Output Clock Mode 2.5.4. Asynchronous/Synchronous Clears in Clocking Modes 2.5.5. Output Read Data in Simultaneous Read/Write 2.5.6. Independent Clock Enables in Clocking Modes
2.6. Agilex™ 3 Embedded Memory Configurations x
2.6.1. Mixed-Width Port Configurations
2.8. Coherent Read Memory x
2.8.1. Forwarding Logic
2.10. True Dual Port Dual Clock Emulator x
2.10.1. True Dual-Port Mixed Port Read During Write New Data Emulation
3. Agilex™ 3 Embedded Memory Design Considerations x
3.1. Consider the Memory Block Selection 3.2. Consider the Concurrent Write Behavior 3.3. Read-During-Write 3.4. Consider Power-Up State and Memory Initialization 3.5. Reduce Power Consumption 3.6. Avoid Providing Non-Deterministic Input 3.7. Avoid Changing Clock Signals and Other Control Signals Simultaneously 3.8. Advanced Settings in Quartus® Prime Software for Memory 3.9. Consider the Memory Depth Setting 3.10. Consider Registering the Memory Output
3.3. Read-During-Write x
3.3.1. Customize Read-During-Write Behavior
3.3.1. Customize Read-During-Write Behavior x
3.3.1.1. Same-Port Read-During-Write Mode 3.3.1.2. Mixed-Port Read-During-Write Mode 3.3.1.3. Read-During-Write Data Output and Memory Location Behaviors
4. Agilex™ 3 Embedded Memory IP References x
4.1. On-Chip Memory RAM and ROM IPs 4.2. FIFO Intel® FPGA IP 4.3. Shift Register (RAM-based) IP
4.1. On-Chip Memory RAM and ROM IPs x
4.1.1. Release Information for RAM and ROM IPs 4.1.2. Features 4.1.3. Implementation Guide 4.1.4. Parameters and Interface Signals
4.1.2. Features x
4.1.2.1. On-Chip Memory RAM and ROM IPs
4.1.3. Implementation Guide x
4.1.3.1. Instantiating IP Cores using the Quartus® Prime Parameter Editor 4.1.3.2. Changing Parameter Settings Manually
4.1.4. Parameters and Interface Signals x
4.1.4.1. RAM: 1-PORT FPGA IP Parameters 4.1.4.2. RAM: 2-PORT FPGA IP Parameters 4.1.4.3. RAM: 4-PORT FPGA IP Parameters 4.1.4.4. ROM: 1-PORT FPGA IP Parameters 4.1.4.5. ROM: 2-PORT FPGA IP Parameters 4.1.4.6. RAM and ROM Manual Parameter Settings 4.1.4.7. RAM and ROM Interface Signals
4.2. FIFO Intel® FPGA IP x
4.2.1. Release Information for FIFO Intel® FPGA IP 4.2.2. Features 4.2.3. Implementation Guide 4.2.4. Parameters and Interface Signals 4.2.5. Design Considerations
4.2.3. Implementation Guide x
4.2.3.1. Instantiating IP Cores using Quartus® Prime Pro Edition Parameter Editor 4.2.3.2. Manual IP Instantiation through HDL
4.2.3.2. Manual IP Instantiation through HDL x
4.2.3.2.1. Verilog HDL Prototype 4.2.3.2.2. VHDL Component Declaration 4.2.3.2.3. VHDL LIBRARY-USE Declaration 4.2.3.2.4. HDL Code from Parameterizable Macros Template 4.2.3.2.5. Coding Example for Manual Instantiation 4.2.3.2.6. Instantiation Template
4.2.4. Parameters and Interface Signals x
4.2.4.1. FIFO Signals 4.2.4.2. FIFO Parameter Settings 4.2.4.3. FIFO Intel® FPGA IP Parameters
4.2.5. Design Considerations x
4.2.5.1. FIFO Functional Timing Requirements 4.2.5.2. SCFIFO ALMOST_EMPTY Functional Timing 4.2.5.3. FIFO Output Status Flag and Latency 4.2.5.4. FIFO Metastability Protection and Related Options 4.2.5.5. FIFO Synchronous Clear and Asynchronous Clear Effect 4.2.5.6. SCFIFO and DCFIFO Show-Ahead Mode 4.2.5.7. Different Input and Output Width 4.2.5.8. DCFIFO Timing Constraint Setting 4.2.5.9. Gray-Code Counter Transfer at the Clock Domain Crossing 4.2.5.10. Guidelines for Embedded Memory ECC Feature 4.2.5.11. Reset Scheme
4.2.5.5. FIFO Synchronous Clear and Asynchronous Clear Effect x
4.2.5.5.1. Recovery and Removal Timing Violation Warnings when Compiling a DCFIFO
4.2.5.8. DCFIFO Timing Constraint Setting x
4.2.5.8.1. Embedded Timing Constraint 4.2.5.8.2. User Configurable Timing Constraint
4.2.5.8.2. User Configurable Timing Constraint x
4.2.5.8.2.1. SDC Commands
4.3. Shift Register (RAM-based) IP x
4.3.1. Release Information for Shift Register (RAM-based) IP 4.3.2. Features 4.3.3. Implementation Guide 4.3.4. Parameters and Interface Signals
4.3.3. Implementation Guide x
4.3.3.1. Instantiating IP Cores using Quartus® Prime Pro Edition Parameter Editor
4.3.4. Parameters and Interface Signals x
4.3.4.1. Shift Register (RAM-based) IP Parameter Settings 4.3.4.2. Shift Register Ports and Parameters Setting
1. Agilex™ 3 Embedded Memory Overview
2. Agilex™ 3 Embedded Memory Architecture and Features
3. Agilex™ 3 Embedded Memory Design Considerations
4. Agilex™ 3 Embedded Memory IP References
5. Agilex™ 3 Embedded Memory Debugging
6. Document Revision History for the Embedded Memory User Guide: Agilex™ 3 FPGAs and SoCs

4. Agilex™ 3 Embedded Memory IP References

You can access the features of the Agilex™ 3 embedded memory using the on-chip memory IPs in the Quartus® Prime software.
The on-chip memory IPs include:
  • RAM: 1-PORT FPGA IP—instantiates the single-port RAM
  • RAM: 2-PORT FPGA IP—instantiates the dual-port and bidirectional-port RAM
  • RAM: 4-PORT FPGA IP—instantiates the quad-port RAM
  • ROM: 1-PORT FPGA IP—instantiates the single-port ROM
  • ROM: 2-PORT FPGA IP—instantiates the dual-port and bidirectional-port ROM
  • FIFO Intel® FPGA IP—instantiates the FIFO (First-In-First-Out) IP
  • Shift Register (RAM-based) FPGA IP—instantiates the Shift Register (RAM-based) IP

You can also infer memory functions from HDL code. The Quartus® Prime Synthesis recognizes certain HDL code structures and automatically infers the appropriate IP or map directly to the device atoms.

However, if you want to use some of the advanced memory features in the Altera FPGAs, consider using the IP directly so that you can customize the ports and parameters easily.


Section Content
On-Chip Memory RAM and ROM IPs
FIFO Intel FPGA IP
Shift Register (RAM-based) IP

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