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1. About the External Memory Interfaces Intel Agilex® 7 M-Series FPGA IP
2. Intel Agilex® 7 M-Series FPGA EMIF IP – Introduction
3. Intel Agilex® 7 M-Series FPGA EMIF IP – Product Architecture
4. Intel Agilex® 7 M-Series FPGA EMIF IP – End-User Signals
5. Intel Agilex® 7 M-Series FPGA EMIF IP – Simulating Memory IP
6. Intel Agilex 7 M-Series FPGA EMIF IP – DDR4 Support
7. Intel Agilex® 7 M-Series FPGA EMIF IP – DDR5 Support
8. Intel Agilex 7 M-Series FPGA EMIF IP – LPDDR5 Support
9. Intel Agilex® 7 M-Series FPGA EMIF IP – Timing Closure
10. Intel Agilex® 7 M-Series FPGA EMIF IP – Controller Optimization
11. Intel Agilex® 7 M-Series FPGA EMIF IP – Debugging
12. Document Revision History for External Memory Interfaces Intel Agilex® 7 M-Series FPGA IP User Guide
3.1.1. Intel Agilex® 7 M-Series EMIF Architecture: I/O Subsystem
3.1.2. Intel Agilex® 7 M-Series EMIF Architecture: I/O SSM
3.1.3. Intel Agilex® 7 M-Series EMIF Architecture: I/O Bank
3.1.4. Intel Agilex® 7 M-Series EMIF Architecture: I/O Lane
3.1.5. Intel Agilex® 7 M-Series EMIF Architecture: Input DQS Clock Tree
3.1.6. Intel Agilex® 7 M-Series EMIF Architecture: PHY Clock Tree
3.1.7. Intel Agilex® 7 M-Series EMIF Architecture: PLL Reference Clock Networks
3.1.8. Intel Agilex® 7 M-Series EMIF Architecture: Clock Phase Alignment
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
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. Intel Agilex® 7 M-Series EMIF Pin Swapping Guidelines
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8.2.3. Pin Guidelines for Intel Agilex® 7 M-Series FPGA EMIF IP
The Intel Agilex® 7 M-Series FPGA contains I/O banks on the top and bottom edges of the device, which can be used by external memory interfaces.
Intel Agilex® 7 M-Series FPGA I/O banks contain 96 I/O pins. Each bank is divided into two sub-banks with 48 I/O pins in each. Sub-banks are further divided into four I/O lanes, where each I/O lane is a group of twelve I/O ports.
The I/O bank, I/O lane, and pairing pin for every physical I/O pin can be uniquely identified by the following naming convention in the device pin table:
- The I/O pins in a bank are represented as P#X#Y#, where:
- P# represents the pin number in a bank. It ranges from P0 to P95, for 96 pins in a bank.
- X# represents the bank number on a given edge of the device. X0 is the farthest bank from the zipper.
- Y# represents the top or bottom edge of the device. Y0 and Y1 refer to the I/O banks on the bottom and top edge, respectively.
- Because an IO96 bank comprises two IO48 sub-banks, all pins with P# value less than 48 (P# <48) belong to the same I/O sub-bank. All other pins belong to the second IO48 sub-bank.
- The Index Within I/O Bank value falls within one of the following ranges: 0 to 11, 12 to 23, 24 to 35, or 36 to 47, and represents one of I/O lanes 0, 1, 2, or 3, respectively.
- To determine whether I/O banks are adjacent, you can refer to the sub-bank-ordering figures for your device family in the Architecture: I/O Bank topic. In general, you can assume that I/O banks are adjacent within an I/O edge, unless the I/O bank is not bonded out on the package (indicated by the presence of the " - " symbol in the I/O table), or if the I/O bank does not contain 96 pins, indicating that it is only partially bonded out. If an I/O bank is not fully bonded out in a particular device, it cannot be included within the span of sub-banks for a larger external memory interface. In all cases, you should use the Intel® Quartus® Prime software to verify that your usage can be implemented.
- The pairing pin for an I/O pin is in the same I/O bank. You can identify the pairing pin by adding 1 to its Index Within I/O Bank number (if it is an even number), or by subtracting 1 from its Index Within I/O Bank number (if it is an odd number).