Visible to Intel only — GUID: dpq1681435302219
Ixiasoft
1.1. Pins Status for Agilex™ 7 M-Series Devices
1.2. Agilex™ 7 M-Series FPGA Core Pins
1.3. Agilex™ 7 M-Series HBM2E Pins
1.4. Agilex™ 7 M-Series F-Tile Pins
1.5. Agilex™ 7 M-Series R-Tile Pins
1.6. Agilex™ 7 M-Series Hard Processor System (HPS) Pins
1.7. Agilex™ 7 M-Series Power Supply Sharing Guidelines
1.8. Notes to Agilex™ 7 M-Series Device Family Pin Connection Guidelines
1.9. Document Revision History for the Agilex™ 7 Device Family Pin Connection Guidelines: M-Series
1.2.1. Clock and PLL Pins
1.2.2. Dedicated Configuration/JTAG Pins
1.2.3. Optional/Dual-Purpose Configuration Pins
1.2.4. Differential I/O Pins
1.2.5. External Memory Interface Pins
1.2.6. Voltage Sensor and Voltage Reference Pins
1.2.7. Remote Temperature Sensing Diode Pins
1.2.8. Reference Pins
1.2.9. No Connect and DNU Pins
1.2.10. Power Supply Pins
1.2.11. Secure Device Manager (SDM) Pins
1.2.12. Secure Device Manager (SDM) Optional Signal Pins
1.6.1. HPS Supply Pins
1.6.2. HPS Oscillator Clock Input Pin
1.6.3. HPS JTAG Pins
1.6.4. HPS GPIO Pins
1.6.5. HPS SDMMC Pins
1.6.6. HPS NAND Pins
1.6.7. HPS USB Pins
1.6.8. HPS EMAC Pins
1.6.9. HPS I2C_EMAC and MDIO Pins
1.6.10. HPS I2C Pins
1.6.11. HPS SPI Pins
1.6.12. HPS UART Pins
1.6.13. HPS Trace Pins
1.7.1. Example 1— Agilex™ 7 M-Series Devices with R-Tile, F-Tile and HBM2E Using DDR4
1.7.2. Example 2— Agilex™ 7 M-Series Devices with R-Tile, F-Tile and HBM2E Using DDR5
1.7.3. Example 3— Agilex™ 7 M-Series Devices with R-Tile and F-Tile, Without HBM2E Using DDR4
1.7.4. Example 4— Agilex™ 7 M-Series Devices with F-Tile only and HBM2E Using DDR4
1.7.5. Example 5— Agilex™ 7 M-Series Devices with F-Tile only and HBM2E Using DDR5
1.7.6. Example 6— Agilex™ 7 M-Series Devices with F-Tile only and Without HBM2E Using DDR5
Visible to Intel only — GUID: dpq1681435302219
Ixiasoft
1.2.2. Dedicated Configuration/JTAG Pins
Note: Altera recommends that you create an Quartus® Prime design, enter your device I/O assignments, and compile the design. The Quartus® Prime software will check your pin connections according to I/O assignment and placement rules. The rules differ from one device to another based on device density, package, I/O assignments, voltage assignments, and other factors that are not fully described in this document or the device user guides.
| Pin Name | Pin Functions | Pin Description | Connection Guidelines |
|---|---|---|---|
| TCK | Input | Dedicated JTAG test clock input pin located in the Secure Device Manager (SDM) bank. This pin can also be used to access the HPS JTAG chain. For more information, refer to the HPS JTAG Pins. This pin supports the 1.8-V single-ended I/O standard. This pin has an internal 20-kΩ pull-down resistor. JTAG clock speed is 33 MHz for JTAG split mode. In the JTAG split mode, the SDM JTAG mode is independent of the HPS JTAG. JTAG clock speed is 22 MHz for JTAG daisy-chain mode. In the JTAG daisy-chain mode, the HPS DAP TAP is daisy chained with the SDM mTAP. |
Connect this pin through a 1-kΩ pull-down resistor to GND. If you plan to use the attestation and/or Black Key Provisioning (BKP) security features, do not connect this pin to GND. Connect this pin to the VCCIO_SDM supply using a 10-kΩ pull-up resistor. |
| TMS | Input | Dedicated JTAG test mode select input pin located in the SDM bank. This pin can also be used to access the HPS JTAG chain. For more information, refer to the HPS JTAG Pins. This pin supports the 1.8-V single-ended I/O standard. This pin has an internal 20-kΩ pull-up resistor. |
Connect this pin to a 1-kΩ – 10-kΩ pull-up resistor to the VCCIO_SDM supply. If the JTAG interface is not used, connect the TMS pin to the VCCIO_SDM supply using a 1-kΩ resistor. |
| TDO | Output | Dedicated JTAG test data output pin located in the SDM bank. This pin can also be used to access the HPS JTAG chain. For more information, refer to the HPS JTAG Pins. This pin supports the 1.8-V single-ended I/O standard. |
If the JTAG interface is not used, leave the TDO pin unconnected. |
| TDI | Input | Dedicated JTAG test data input pin located in the SDM bank. This pin can also be used to access the HPS JTAG chain. For more information, refer to the HPS JTAG Pins. This pin supports the 1.8-V single-ended I/O standard. This pin has an internal 20-kΩ pull-up resistor. |
Connect this pin to a 1-kΩ – 10-kΩ pull-up resistor to the VCCIO_SDM supply. If the JTAG interface is not used, connect the TDI pin to the VCCIO_SDM supply using a 1-kΩ resistor. |
| nSTATUS | Output | Configuration status pin. This pin is used for synchronization with the configuration host driving nCONFIG and to report errors. This pin supports the 1.8-V single-ended I/O standard. This pin has an internal 20-kΩ pull-up resistor. The drive strength is 8 mA.
Attention: Ensure that during power up, no external component drives the nSTATUS signal low.
|
When you are using the Avalon® streaming configuration scheme, connect this pin to the configuration host. For other configuration schemes, you can use this pin to monitor the configuration status. This pin must be pulled up through a 10-kΩ resistor to VCCIO_SDM for all configuration schemes. |
| nCONFIG | Input | The nCONFIG pin is used to clear the device and prepare for reconfiguration. This pin supports the 1.8-V single-ended I/O standard. This pin has an internal 20-kΩ pull-up resistor. |
When you use the Avalon® streaming configuration scheme, connect this pin to the configuration host. When you use other configuration schemes, pull this pin to VCCIO_SDM through an external 10-KΩ pull-up resistor. This pin can be used to restart configuration by driving it low and then high again. Ensure that you follow all the requirements for the nCONFIG operation as specified in the Agilex™ 7 Configuration User Guide and AN 886: Agilex™ 7 Device Design Guidelines . |
| OSC_CLK_1 | Input | Reference clock source for SDM PLL. This pin is used as the clock for device configuration and transceiver calibration. This pin supports the 1.8-V single-ended I/O standard. This pin has an internal 20-kΩ pull-down resistor. |
If you use transceivers, EMIF, and PHY Lite, you must provide an external clock to this pin. If you choose to use the external clock source for configuration and/or instantiate any transceivers in your design, you must provide a 25-MHz, 100-MHz, or 125-MHz free-running clock source to this pin and enable it in the Quartus® Prime software when you compile your design. If you are using the internal oscillator for configuration and do not instantiate any transceivers, EMIF, and PHY Lite in your design, leave this pin unconnected. |