Supported Flash Devices for Arria® 10 SoC Device - Supported flash devices for Arria® 10 SoC devices. The Arria® 10 SoC device serves and supports as a boot source and for mass data storage for listed devices. Supported flash devices for Arria® 10 SoC devices. The Arria® 10 SoC device serves and supports as a boot source and for mass data storage for listed devices. Product Pages {"title":"Supported Flash Devices for Arria® 10 SoC Device"} Overview Arria® 10 SoCs support the following flash devices both as a boot source and for mass data storage: Quad serial peripheral interface (QSPI) flash NAND flash Secure Digital (SD), Secure Digital High Capacity (SDHC), Secure Digital eXtended Capacity (SDXC), MultiMediaCard (MMC), or Extended MMC (eMMC) flash When choosing a flash device to incorporate with SoCs, it is important to consider the following: Will the device work with the FPGA device BootROM? The hard processor system (HPS) can only boot from flash devices supported in the BootROM. Is the device verified to work and supported by software, such as the U-Boot and Linux*? For supported devices, provides the U-Boot and Linux software. For other devices, this software must be developed by the user. Is the device supported with the HPS Flash Programmer? The HPS Flash Programmer enables writing to flash using a JTAG connection. This is primarily intended for programming the initial pre-loader or bootloader image. If the device is not supported by the HPS Programmer, other flash programming methods may be used, such as using the HPS to program flash. For example, the flash programming capabilities of U-Boot can be used. Based on the criteria above, the following categories of flash devices are identified: Tested and Supported Flash Devices - These devices meet the criteria listed above. These devices receive regression testing with FPGA tools and their use is fully supported by FPGA Technical Support. Known to Work Flash Devices - These devices are not explicitly supported in the FPGA tools, but have been known to work with SoCs. Many of these devices are programmed using U-Boot as an alternate programming method, but source changes to U-Boot might have to be made by users in order to configure a specific device. Incompatible Flash Devices - These devices will not work on SoCs. The following sections present the support level for various flash devices for Arria 10 SoCs. Overview QSPI Flash Devices The quad SPI flash devices have the following advantages: Reliability: they typically support a minimum of 100,000 erase cycles per sector and a minimum of 20 years data retention. As a result, their management is simpler, with no need for error correction and bad block management. Low pin count requirement: a quad SPI flash device typically requires six pins, but it can be used with as few as four pins. High bandwidth A quad SPI flash device typically has smaller storage capacity than other flash devices. They are therefore mostly used as a boot source and not for mass storage. Up to four quad SPI flash chip selects can be used with Arria® 10 SoCs. The device will boot from quad SPI flash connected to the chip select zero. The current list of tested and supported devices is presented below. Note that the device list applies only to the HPS QSPI controller, and does not apply for FPGA configuration. QSPI Flash Devices Part Number Manufacturer Capacity Voltage Support Category Notes MT25QU01GBBB8E12-0SIT Micron 1 Gb 1.8 V Tested and Supported Available on Arria® 10 SoC Development Kit MT25QU01GBBA8E12-0SIT Micron 1 Gb 1.8 V Known to Work MT25QU01GBBB8ESF-0SIT Micron 1 Gb 1.8 V Known to Work MT25QU02GCBB8E12-0SIT Micron 2 Gb 1.8 V Known to Work U-Boot modifications needed MT25QU512ABB8E12-0SIT Micron 512 Mb 1.8 V Known to Work N25Q512A83G1240F Micron 512 Mb 3.3 V Known to Work MT25QL512ABA8ESF-0SIT Micron 512 Mb 3.3 V Known to Work MT25QL512ABB8ESF-0SIT Micron 512 Mb 3.3 V Known to Work MT25QU512ABB8ESF-0SIT Micron 512 Mb 1.8 V Known to Work MX66U51235FMI-10G (EOL, use MX25U51245GMI00 instead) Macronix 512 Mb 1.8 V Known to Work U-Boot modifications needed MX66L51235FMI-10G Macronix 512 Mb 3.3 V Known to Work Programmed with U-Boot MX66L1G45GMI-10G Macronix 1 Gb 3.3 V Known to Work Programmed with modified U-Boot S25FS512SDSBHV210 Cypress 512 Mb 1.8 V Known to Work S25FL512SAGMFI01 Cypress 512 Mb 3.3 V Known to Work S70FL01GSAGMFI011 Cypress 1 Gb 3.3 V Known to Work Two chip selects. HPS Flash Programmer and BootROM use only CS0 S70FS01GS Cypress 1 Gb 1.8 V Incompatible Does not support RDSR instruction GD25LB512ME GigaDevice 512 Mb 1.8 V Known to Work GD25LT512ME GigaDevice 512 Mb 1.8 V Known to Work GD55LB01GE GigaDevice 1 Gb 1.8 V Known to Work GD55LT01GE GigaDevice 1 Gb 1.8 V Known to Work GD55LB02GE GigaDevice 2 Gb 1.8 V Known to Work NAND Flash Devices The main advantage of the NAND flash devices is large storage capacity. The disadvantages of NAND flash devices include: A high pin count requirement (a minimum of 15 pins are required) More difficult to manage, as individual bit reliability is lower compared to quad SPI flash, error correction, and bad block management are required Lower maximum bandwidth as compared to quad SPI flash devices The NAND flash devices are typically used for mass data storage, but they can also be used as a boot source. The NAND flash devices to be used with Arria® 10 SoC must satisfy at least the following requirements: ONFI 1.0 compatibility x8 interface for boot devices, x16 supported for general data storage Single-level cell (SLC) or multi-level cell (MLC) Only one ce# and rb# pin pair is available for the boot source. Up to three additional pairs are available for mass storage. Page size: 512 bytes, 2 KB, 4 KB or 8 KB Pages per block: 32, 64, 128, 256, 384, or 512 Error correction code (ECC) sector size can be programmed to 512 bytes (for 4, 8, or 16 bit correction) or 1,024 bytes (for 24 bit correction) The current list of tested and supported devices is presented below: NAND Flash Devices Part Number Manufacturer Capacity Voltage Support Category Notes MT29F1G08ABBEAH4:E Micron 1 Gb 1.8 V Known to Work Available on Arria® 10 SoC Development Kit MT29F2G08ABBEAH4-IT:E Micron 2 Gb 1.8 V Known to Work MT29F4G08ABBEAH4-IT:E Micron 4 Gb 1.8 V Known to Work MT29F4G08ABBDAH4-IT:D Micron 4 Gb 1.8 V Known to Work MT29F8G08ABBCAH4-IT:C Micron 8 Gb 1.8 V Known to Work MX30UF1G18AC-TI Macronix 1 Gb 1.8 V Known to Work MX30UF2G18AC-TI Macronix 2 Gb 1.8 V Known to Work Programmed with U-Boot MX30UF4G18AB-TI Macronix 4 Gb 1.8 V Known to Work S34MS01G200TFI90 Cypress 1 Gb 1.8 V Known to Work Programmed with U-Boot S34MS02G200TFI00 Cypress 2 Gb 1.8 V Known to Work S34MS04G200TFI00 Cypress 4 Gb 1.8 V Known to Work SD/SDHC/SDXC/MMC/eMMC Flash Devices The SD/SDHC/SDXC/MMC cards have the following advantages: Large storage capacities Internal error correction, bad block management, and wear leveling Inexpensive Some of the disadvantages of SD/SDHC/SDXC/MMC are: Typically less reliable than quad SPI (although higher reliability industrial versions are available) They require a socket, which makes them more vulnerable mechanically The eMMC flash devices have the following advantages over SD/SDHC/SDXC/MMC flash devices: Improved reliability Smaller, not removable (soldered down) package The SD/SDHC/SDXC/MMC/eMMC flash devices conform to a strict standard, which exposes a relatively simple and uniform interface. Because of this, there is no need to perform complete validation with each supported device. Any device complying with the supported standards will work. Arria® 10 SoCs are compatible with the following devices: SD/SDHC/SDXC (including eSD) - version 3.0 compliant MMC - version 4.41 compliant eMMC - version 4.5 compliant SD/SDHC/SDXC/MMC/eMMC Flash Devices Related Links Device Configuration - Support Center Configuration Support Center Configuration Features Configuration via Protocol FPGA Support Resources Related Links - 2026-03-10