ASUS PRIME H610M-A D4-CSM LGA 1700 (Intel 12th & 13th Gen) Micro-ATX Commercial Motherboard (PCIe 4.0, DDR4, 2xM.2 slots, 1Gb LAN, rear USB 3.2 Gen 2 ports, DP/HDMI/D-Sub, SPI-TPM header, ACCE) 578.94SR + 272.34SR ShippingAdd to cart SpecsReviews (10)Warranty & Returns...
ASUS PRIME H610M-A D4-CSM LGA 1700 (Intel 12th & 13th Gen) Micro-ATX Commercial Motherboard (PCIe 4.0, DDR4, 2xM.2 slots, 1Gb LAN, rear USB 3.2 Gen 2 ports, DP/HDMI/D-Sub, SPI-TPM header, ACCE) (10)(1) Write a Review Option: PRIME H610M-A D4-CSM PRIME H610M-A D4...
1 x S/PDIF Out header 1 x SPI TPM header (14-1pin) 1 x 20-3 pin System Panel header with Chassis intrude function 1 x Thunderbolt™ header Special Features ASUS 5X PROTECTION III - DIGI+ VRM - Enhanced DRAM Overcurrent Protection - ESD Guards - LANGuard - Overvoltage Protection...
——如下图所示,eSPI总线上接了Flash(Non-eSPI Slave),这并不是说Flash工作在eSPI协议上,只是eSPI总线和SPI总线复用了这些管脚信号(电气特性相同)。即:eSPI协议规范允许类似于Flash和TPM这类的SPI Slave和eSPI Slaves同享同一组时钟和数据引脚。eSPI Master可以使用专用的片选信号选中 Non-eSPI slave ,然后在eSPI...
现有的硬件使用CS0和CS1在一个SPI上连接一个FRAM和一个TPM模块。 在Jetson Nano上运行ok。 Xavier NX模块的问题是硬件控制芯片选择信号(CS0)的不同行为。 以下描述适用于FRAM, TPM是没有问题的,是两种配置。 SPI由“ioctl”函数控制,利用了“cs_change”选项。
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[AC_DEFINE([TCTI_SPI_HELPER],[1], [TCTI HELPER FOR SPI BASED ACCESS TO TPM2 DEVICE])]) AC_ARG_ENABLE([tcti-spi-lt2go], [AS_HELP_STRING([--disable-tcti-spi-lt2go], [don't build the tcti-spi-lt2go module])], [AS_IF([test "x$enable_tcti_spi_lt2go" = "xyes"], AC...
meta-tpm = "HEAD:d7db0a3bd1a8639df7570483f003ce00cbe274a2"meta-virtualization = "HEAD:38e6b3e2fe0219c773f4637a09221ca5d15bf6fc" Our uboot config setting. # default is:# UBOOT_CONFIG = "sd"## this fspi variant is for booting from SPI flashUBOOT_CONFIG = "fspi"IMXBOOT_TARGETS...
meta-tpm = "HEAD:d7db0a3bd1a8639df7570483f003ce00cbe274a2"meta-virtualization = "HEAD:38e6b3e2fe0219c773f4637a09221ca5d15bf6fc" Our uboot config setting. # default is:# UBOOT_CONFIG = "sd"## this fspi variant is for booting from SPI flashUBOOT_CONFIG = "fspi"IMXBOOT_TARGETS...
原文发表在我博客上:荔枝派nano的SPI-Flash系统编译创建全过程 前言 本文的目标是创建一个运行在SPI-Flash上的精简系统,附带填一些前人没有提及的坑。在开始之前,请先通读官方教程的即食部分(U-Boot)、Linux编译和SPI-Flash系统的创建部分的教程,并搭建好编译工具链。以下我假设你已经按照上面的教程下载好了U-Boot...