Visible to Intel only — GUID: hwl1576084207549
Ixiasoft
Visible to Intel only — GUID: hwl1576084207549
Ixiasoft
2.4. Pin Description
Pin Name | Pin Type | Pin Description | Pin Connection | SDM_IO Pins |
---|---|---|---|---|
CVP_CONFDONE | Output | The CVP_CONFDONE pin indicates the device has received the complete bitstream during configuration via protocol (CvP) core image configuration. When used for this purpose, enable this pin using the Intel Quartus Prime software. |
Connect this output pin to an external logic device that monitors the CvP operation. The VCCIO_SDM power supply must meet the input voltage specification of the receiving side. | SDM_IO0 SDM_IO10 SDM_IO11 SDM_IO12 SDM_IO13 SDM_IO14 SDM_IO16 |
INIT_DONE | Output | The INIT_DONE pin indicates the device has enter user mode upon completion of configuration. To use INIT_DONE to indicate user mode entry, you must enable it in the Intel® Quartus® Prime software. When the INIT_DONE function is enabled, this pin drives high when configuration is completed and the device goes into user mode. |
Intel® recommends you to use SDM_IO0 or SDM_IO16 to implement the INIT_DONE function when available as it has an internal weak pull-down for the correct function of INIT_DONE during power up. If SDM_IO0 and SDM_IO16 are unavailable, the INIT_DONE function can also be implemented using any unused SDM_IO pins provided that an external 4.7–kΩ pull-down resistor is provided for the INIT_DONE signal. |
SDM_IO0 SDM_IO10 SDM_IO11 SDM_IO12 SDM_IO13 SDM_IO14 SDM_IO16 |
CONF_DONE | Output | The CONF_DONE pin indicates all configuration data has been received. | By default, Intel recommends using the SDM_IO16 pin to implement the CONF_DONE function. If SDM_IO16 is unavailable, the CONF_DONE function can also be implemented using any unused SDM_IO pins. Except for SDM_IO0 and SDM_IO16, other SDM_IO pins are required to connect to an external 4.7-kΩ pull-down resistor for the CONF_DONE signal. Connect the CONF_DONE pin to the external configuration controller when configuring using the Avalon-ST (AVST) interface. You have an option to monitor this signal with an external component if you are using the active serial (AS) x4 configuration scheme |
SDM_IO0 SDM_IO10 SDM_IO11 SDM_IO12 SDM_IO13 SDM_IO14 SDM_IO16 |
I_PIN_PERST_N_U[10,20]_P | Input | PCIe* Platform reset pin | In a PCIe* adapter card implementation, connect the PCIe nPERST signal from the PCIe edge connector to each P-tile transceiver bank I_PIN_PERST_N input. Use a level translator to fan out and change the 3.3V opendrain nPERST signal from the PCIe connector to the 1.8V I_PIN_PERST_N input of each P-tile transceiver that is used on the board. Provide a 1.8V pull-up resistor to the I_PIN_PERST_N input as the nPERST signal from the PCIe connector is an opendrain signal. You must pull up the 3.3V PCIe nPERST signal on the adapter card. For non-PCIe systems, connect the system's master reset signal to the I_PIN_PERST_N input pin. If the master reset is not 1.8V, use a level shifter to meet the 1.8V I_PIN_PERST_N input requirement. For open-drain master reset driving the I_PIN_PRST_N input, provide a 1.8V pull-up resistor. Ensure all power to the device as well as the PCIe clock is stable prior to releasing the reset to the I_PIN_PRST_N pin. This input pin does not have an internal pull-up resistor, you need to add an external 5kΩ – 10kΩ pull-up resistor if the voltage translator does not provide an active driver. If the tile is unused, tie to GND. |
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