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1. About the External Memory Interfaces Agilex™ 7 M-Series FPGA IP
2. Agilex™ 7 M-Series FPGA EMIF IP – Introduction
3. Agilex™ 7 M-Series FPGA EMIF IP – Product Architecture
4. Agilex™ 7 M-Series FPGA EMIF IP – End-User Signals
5. Agilex™ 7 M-Series FPGA EMIF IP – Simulating Memory IP
6. Agilex™ 7 M-Series FPGA EMIF IP – DDR4 Support
7. Agilex™ 7 M-Series FPGA EMIF IP – DDR5 Support
8. Agilex™ 7 M-Series FPGA EMIF IP – LPDDR5 Support
9. Agilex™ 7 M-Series FPGA EMIF IP – Timing Closure
10. Agilex™ 7 M-Series FPGA EMIF IP – Controller Optimization
11. Agilex™ 7 M-Series FPGA EMIF IP – Debugging
12. Document Revision History for External Memory Interfaces Agilex™ 7 M-Series FPGA IP User Guide
3.1.1. Agilex™ 7 M-Series EMIF Architecture: I/O Subsystem
3.1.2. Agilex™ 7 M-Series EMIF Architecture: I/O SSM
3.1.3. Agilex™ 7 M-Series EMIF Architecture: I/O Bank
3.1.4. Agilex™ 7 M-Series EMIF Architecture: I/O Lane
3.1.5. Agilex™ 7 M-Series EMIF Architecture: Input DQS Clock Tree
3.1.6. Agilex™ 7 M-Series EMIF Architecture: PHY Clock Tree
3.1.7. Agilex™ 7 M-Series EMIF Architecture: PLL Reference Clock Networks
3.1.8. Agilex™ 7 M-Series EMIF Architecture: Clock Phase Alignment
3.1.9. User Clock in Different Core Access Modes
4.1.1. ref_clk for External Memory Interfaces (EMIF) IP
4.1.2. core_init_n for External Memory Interfaces (EMIF) IP
4.1.3. usr_async_clk for External Memory Interfaces (EMIF) IP
4.1.4. usr_clk for External Memory Interfaces (EMIF) IP
4.1.5. usr_rst_n for External Memory Interfaces (EMIF) IP
4.1.6. s0_axi4 for External Memory Interfaces (EMIF) IP
4.1.7. mem for External Memory Interfaces (EMIF) IP
4.1.8. oct for External Memory Interfaces (EMIF) IP
4.2.1. ref_clk for External Memory Interfaces (EMIF) IP
4.2.2. core_init_n for External Memory Interfaces (EMIF) IP
4.2.3. usr_async_clk for External Memory Interfaces (EMIF) IP
4.2.4. usr_clk for External Memory Interfaces (EMIF) IP
4.2.5. usr_rst_n for External Memory Interfaces (EMIF) IP
4.2.6. s0_axi4 for External Memory Interfaces (EMIF) IP
4.2.7. mem for External Memory Interfaces (EMIF) IP
4.2.8. i3c for External Memory Interfaces (EMIF) IP
4.2.9. mem_lbd for External Memory Interfaces (EMIF) IP
4.2.10. mem_lbs for External Memory Interfaces (EMIF) IP
4.2.11. oct for External Memory Interfaces (EMIF) IP
4.3.1. ref_clk for External Memory Interfaces (EMIF) IP
4.3.2. core_init_n for External Memory Interfaces (EMIF) IP
4.3.3. usr_async_clk for External Memory Interfaces (EMIF) IP
4.3.4. usr_clk for External Memory Interfaces (EMIF) IP
4.3.5. usr_rst_n for External Memory Interfaces (EMIF) IP
4.3.6. s0_axi4 for External Memory Interfaces (EMIF) IP
4.3.7. mem for External Memory Interfaces (EMIF) IP
4.3.8. oct for External Memory Interfaces (EMIF) IP
6.2.4.1. Address and Command Pin Placement for DDR4
6.2.4.2. DDR4 Data Width Mapping
6.2.4.3. General Guidelines - DDR4
6.2.4.4. x4 DIMM Implementation
6.2.4.5. Specific Pin Connection Requirements
6.2.4.6. Command and Address Signals
6.2.4.7. Clock Signals
6.2.4.8. Data, Data Strobes, DM/DBI, and Optional ECC Signals
6.3.5.1. Single Rank x 8 Discrete (Component) Topology
6.3.5.2. Single Rank x 16 Discrete (Component) Topology
6.3.5.3. ADDR/CMD Reference Voltage/RESET Signal Routing Guidelines for Single Rank x 8 and Single Rank x 16 Discrete (Component) Topologies
6.3.5.4. Skew Matching Guidelines for DDR4 Discrete Configurations
6.3.5.5. Power Delivery Recommendations for DDR4 Discrete Configurations
6.3.5.6. Agilex™ 7 M-Series EMIF Pin Swapping Guidelines
7.3.1. PCB Stack-up and Design Considerations
7.3.2. General Design Considerations
7.3.3. DDR Differential Signals Routing
7.3.4. Ground Plane and Return Path
7.3.5. RDIMM, UDIMM, and SODIMM Break-in Layout Guidelines
7.3.6. DRAM Break-in Layout Guidelines
7.3.7. DDR5 PCB Layout Guidelines
7.3.8. DDR5 Simulation Strategy
7.3.7.1. DDR5 Discrete Component/Memory Down Topology: up to 40-Bit Interface (1 Rank x8 or x16, 2 Rank x8 or x16)
7.3.7.2. Routing Guidelines for DDR5 Memory Down: 1 Rank or 2 Rank (x8 bit or x16 bit) Configurations
7.3.7.3. Routing Guidelines for DDR5 RDIMM, UDIMM, and SODIMM Configurations
7.3.7.4. Example of a DDR5 layout on an Altera FPGA Platform Board
11.1. Interface Configuration Performance Issues
11.2. Functional Issue Evaluation
11.3. Timing Issue Characteristics
11.4. Verifying Memory IP Using the Signal Tap Logic Analyzer
11.5. Debugging with the External Memory Interface Debug Toolkit
11.6. Generating Traffic with the Test Engine IP
11.7. Guidelines for Developing HDL for Traffic Generator
11.8. Guidelines for Traffic Generator Status Check
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6.2.1. Agilex™ 7 M-Series FPGA EMIF IP Interface Pins
Any I/O banks that do not support transceiver operations in Agilex™ 7 M-Series FPGAs support external memory interfaces. However, DQS (data strobe or data clock) and DQ (data) pins are listed in the device pin tables and are fixed at specific locations in the device. You must adhere to these pin locations to optimize routing, minimize skew, and maximize margins. Always check the pin table for the actual locations of the DQS and DQ pins.
Note: Maximum interface width varies from device to device depending on the number of I/O pins and DQS or DQ groups available. Achievable interface width also depends on the number of address and command pins that the design requires. To ensure adequate PLL, clock, and device routing resources are available, you should always test fit any IP in the Quartus® Prime software before PCB sign-off.
Note: The greater the number of banks, the greater the skew, hence Altera recommends that you always generate a test project of your desired configuration and confirm that it meets timing.