External Memory Interfaces Intel® Agilex™ FPGA IP User Guide

ID 683216
Date 11/03/2022
Public

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3.1.3. Intel® Agilex™ EMIF Architecture: I/O Bank

Each I/O row contains up to four I/O banks; the exact number of banks depends on device size and pin package.

Each I/O bank consists of two sub-banks, and each sub-bank contains the following components:

  • Hard memory controller
  • Sequencer components
  • I/O PLL and PHY clock trees
  • DLL
  • Input DQS clock trees
  • 48 pins, organized into four I/O lanes of 12 pins each

A single I/O sub-bank contains all the hardware needed to build an external memory interface. You can make a wider interface by connecting multiple adjacent sub-banks together.

Figure 5. I/O Bank Architecture in Intel® Agilex™ Devices


Within an I/O bank, the top sub-bank is placed near the edge of the die, and the bottom sub-bank is placed near the FPGA core.

There are interconnects between the sub-banks which chain the sub-banks into a row. The following figures show how I/O lanes in various sub-banks are chained together to form the top and bottom I/O rows in various Intel® Agilex™ device variants. These figures represent the top view of the silicon die that corresponds to a reverse view of the device package.

Figure 6. Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGF012 and AGF014, package R24A/R24B
Figure 7. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGF012 and AGF014, package R24A/R24B
Figure 10. Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGF022 and AGF027 devices, package R25A

On the top I/O row in AGF022 and AGF027 package R25A , an EMIF interface cannot span across Bank 3A and Bank 3F, because the two I/O banks are not adjacent to each other.

Figure 11. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGF022 and AGF027 devices, package R25A
Figure 12.  Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGI022 and AGI027 devices, package R29A

Bank 3E, Bank 3F, I/O Lane 0 in Top Sub-bank 3B and I/O Lane 0 in Top Sub-bank 3C are not bonded.

Figure 13. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGI022 and AGI027 devices, package R29A

Bank 2A, Bank 2D, I/O Lane 3 in Bottom Sub-bank 2B and I/O Lane 3 in Bottom Sub-bank 2C are not bonded.

Figure 14. Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGI022 and AGI027 devices, package R31B

Bank 3E, Bank 3F, I/O Lane 0 in Top Sub-bank 3B and I/O Lane 0 in Top Sub-bank 3C are not bonded.

Figure 15. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGI022 and AGI027 devices, package R31B

Bank 2A, Bank 2B, I/O Lane 3 and I/O Lane 2 in Bottom Sub-bank 2E are not bonded.

Figure 16. Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGF022 and AGF027 devices, package R31C

Bank 3E, Bank 3F, I/O Lane 0 in Top Sub-bank 3B and I/O Lane 0 in Top Sub-bank 3C are not bonded.

Figure 17. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGF022 and AGF027 devices, package R31C

Bank 2A, Bank 2B, I/O Lane 3 and I/O Lane 2 in Bottom Sub-bank 2E are not bonded

Figure 18. Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGF022 and AGF027 devices, package R24C
Figure 19. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGF022 and AGF027 devices, package R24C
Figure 20. Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGF019 and AGF023, package R25A
Figure 21. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGF019 and AGF023, package R25A
Figure 22. Sub-Bank Ordering in Top I/O Row in Intel® Agilex™ AGF006 and AGF008, package R16A
Figure 23. Sub-Bank Ordering in Bottom I/O Row in Intel® Agilex™ AGF006 and AGF008, package R16A
Figure 24. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGF006 and AGF008, package R24C
Figure 25. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGF006 and AGF008, package R24C
Figure 26. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGF012 and AGF014, package R24C
Figure 27. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGF012 and AGF014, package R24C
Figure 28. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGF019 and AGF023, package R24C
Figure 29. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGF019 and AGF023, package R24C
Figure 30. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGI019 and AGI023, package R31B
Figure 31. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGI019 and AGI023, package R31B
Figure 32. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGI019 and AGI023, package R18A
Figure 33. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGI019 and AGI023, package R18A
Figure 34. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGI035 and AGI040, package R39A
Figure 35. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGI035 and AGI040, package R39A
Figure 36. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGF019 and AGF023, package R31C
Figure 37. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGF019 and AGF023, package R31C
Figure 38. Sub-Bank Ordering in Top I/O Row in Intel Agilex AGI027, package R29B

Bank 3E, Bank 3F, I/O Lane 0 in Top Sub-bank 3B and I/O Lane 0 in Top Sub-bank 3C are not bonded.

Figure 39. Sub-Bank Ordering in Bottom I/O Row in Intel Agilex AGI027, package R29B

Bank 2A, Bank 2D, I/O Lane 3 in Bottom Sub-bank 2B and I/O Lane 3 in Bottom Sub-bank 2C are not bonded.

The two sub-banks within an I/O bank are adjacent to each other when there is at least one I/O lane in each sub-bank that is bonded out and available for EMIF use. The blue line in the above figures shows the connectivity between the sub-banks.

For example, in the top row in Intel® Agilex™ AGF012 and AGF014 devices (Figure 6):

  • The top sub-bank in 3A is adjacent to the bottom sub-bank in 3A and the bottom sub-bank in 3B.
  • The top sub-bank in 3B is adjacent to the bottom sub-bank in 3B and the top sub-bank in 3C.
    • The top sub-bank in 3B is adjacent to the top sub-bank in 3C even though there is a zipper block between the two sub-banks.
  • The top sub-bank in 3B is not adjacent to the bottom sub-bank in 3A.

When an interface must occupy multiple sub-banks, ensure that those sub-banks are adjacent to one another. You can identify where a pin is located within an I/O bank based on its Index within I/O Bank value in the device pinout file.

Zipper Block

The zipper is a block that performs necessary routing adjustments where routing wires cross the zipper.

I/O Sub-Bank Usage

The pins in an I/O bank can serve as address and command pins, data pins, or clock and strobe pins for an external memory interface. You can implement a narrow interface, DDR4 x8 interface, with only a single I/O sub-bank. A wider interface of up to 72 bits can be implemented by configuring multiple adjacent sub-banks in a multi-bank interface.

Note: A given sub-bank cannot be shared between multiple EMIFs.
Note: For DDR4 hard PHY-only configurations, you can implement a minimum of x16 interface width up to a maximum of x72 interface width.

Every sub-bank includes a hard memory controller which you can configure for DDR4. In a multi-bank interface, only the controller of one sub-bank is active; controllers in the remaining sub-banks are turned off to conserve power.

To use a multi-bank Intel® Agilex™ EMIF interface, you must observe the following rules:

  • Designate one sub-bank as the address and command bank.
  • The address and command sub-bank must contain all the address and command pins.
  • The locations of individual address and command pins within the address and command sub-bank must adhere to the pin map defined in the pin table— regardless of whether you use the hard memory controller or not. You can find the pin tables at the following location: https://www.intel.com/content/www/us/en/programmable/support/literature/lit-dp.html.
  • If you do use the hard memory controller, the address and command sub-bank contains the active hard controller.

All the sub-banks are capable of functioning as the address and command bank. For interfaces that span multiple sub-banks, the Intel® Quartus® Prime software requires that the address and command bank be placed in the center-most bank of the interface. The only exception to this rule is for the Hardened Processor Subsystem External Memory Interface.