+Intel Minnowboard Max instructions:
+
+This uses as FSP as with Crown Bay, except it is for the Atom E3800 series.
+Download this and get the .fd file (BAYTRAIL_FSP_GOLD_003_16-SEP-2014.fd at
+the time of writing). Put it in the board directory:
+board/intel/minnowmax/fsp.bin
+
+Obtain the VGA RAM (Vga.dat at the time of writing) and put it into the same
+directory: board/intel/minnowmax/vga.bin
+
+You still need two more binary blobs. The first comes from the original
+firmware image available from:
+
+http://firmware.intel.com/sites/default/files/2014-WW42.4-MinnowBoardMax.73-64-bit.bin_Release.zip
+
+Unzip it:
+
+ $ unzip 2014-WW42.4-MinnowBoardMax.73-64-bit.bin_Release.zip
+
+Use ifdtool in the U-Boot tools directory to extract the images from that
+file, for example:
+
+ $ ./tools/ifdtool -x MNW2MAX1.X64.0073.R02.1409160934.bin
+
+This will provide the descriptor file - copy this into the correct place:
+
+ $ cp flashregion_0_flashdescriptor.bin board/intel/minnowmax/descriptor.bin
+
+Then do the same with the sample SPI image provided in the FSP (SPI.bin at
+the time of writing) to obtain the last image. Note that this will also
+produce a flash descriptor file, but it does not seem to work, probably
+because it is not designed for the Minnowmax. That is why you need to get
+the flash descriptor from the original firmware as above.
+
+ $ ./tools/ifdtool -x BayleyBay/SPI.bin
+ $ cp flashregion_2_intel_me.bin board/intel/minnowmax/me.bin
+
+Now you can build U-Boot and obtain u-boot.rom
+
+$ make minnowmax_defconfig
+$ make all
+
+Checksums are as follows (but note that newer versions will invalidate this):
+
+$ md5sum -b board/intel/minnowmax/*.bin
+ffda9a3b94df5b74323afb328d51e6b4 board/intel/minnowmax/descriptor.bin
+69f65b9a580246291d20d08cbef9d7c5 board/intel/minnowmax/fsp.bin
+894a97d371544ec21de9c3e8e1716c4b board/intel/minnowmax/me.bin
+a2588537da387da592a27219d56e9962 board/intel/minnowmax/vga.bin
+
+The ROM image is broken up into these parts:
+
+Offset Description Controlling config
+------------------------------------------------------------
+000000 descriptor.bin Hard-coded to 0 in ifdtool
+001000 me.bin Set by the descriptor
+500000 <spare>
+700000 u-boot-dtb.bin CONFIG_SYS_TEXT_BASE
+790000 vga.bin CONFIG_X86_OPTION_ROM_ADDR
+7c0000 fsp.bin CONFIG_FSP_ADDR
+7f8000 <spare> (depends on size of fsp.bin)
+7fe000 Environment CONFIG_ENV_OFFSET
+7ff800 U-Boot 16-bit boot CONFIG_SYS_X86_START16
+
+Overall ROM image size is controlled by CONFIG_ROM_SIZE.
+
+
+Intel Galileo instructions:
+
+Only one binary blob is needed for Remote Management Unit (RMU) within Intel
+Quark SoC. Not like FSP, U-Boot does not call into the binary. The binary is
+needed by the Quark SoC itself.
+
+You can get the binary blob from Quark Board Support Package from Intel website:
+
+* ./QuarkSocPkg/QuarkNorthCluster/Binary/QuarkMicrocode/RMU.bin
+
+Rename the file and put it to the board directory by:
+
+ $ cp RMU.bin board/intel/galileo/rmu.bin
+
+Now you can build U-Boot and obtain u-boot.rom
+
+$ make galileo_defconfig
+$ make all
+
+QEMU x86 target instructions:
+
+To build u-boot.rom for QEMU x86 targets, just simply run
+
+$ make qemu-x86_defconfig
+$ make all
+
+Note this default configuration will build a U-Boot for the QEMU x86 i440FX
+board. To build a U-Boot against QEMU x86 Q35 board, you can change the build
+configuration during the 'make menuconfig' process like below:
+
+Device Tree Control --->
+ ...
+ (qemu-x86_q35) Default Device Tree for DT control
+