Hempl/emBLOD

= Overview =

Normally, the boot sequence is:
 * the USB DFU bootloader at  (8KB), which checks if the user button is pressed and, if it isn't, runs:
 * the Hempl (miniPicoLisp) interpreter at

emBLOD is an embedded boot loader that replaces eLua at 0x80002000 and loads a modified version of the eLua interpreter code from a file on a FAT-formatted SD card into the start of the 32MB SDRAM then executes it there. It is fast to start up (a fraction of a second) and gets round the 120KB code size limit of the Mizar32 model C.

The downside is that when loaded into SDRAM instead of Flash, the Hempl interpreter runs at one sixth of the speed. However, if you need peripheral support on a Mizar32 model C, this is the only way to do it.

= Compiling emBLOD from source =

emBLOD is an open source code project hosted at

To fetch and build the source on Ubuntu you will need to install:

apt-get install git dfu-programmer

and the avr32 GCC cross-compiler, for which instructions are at the start of the compiling Hempl page.

The boot loader can be built from source as follows:

git clone https://github.com/cmp1084/emBLOD cd emBLOD make

which creates two versions of the same object file:  and. However,  requires a   file, so convert it:

avr32-objcopy -O ihex emblod.elf emblod.hex

then connect the Mizar32 to your PC over USB, reset or power-on the board while holding SW2 depressed and issue these commands on the PC:

dfu-programmer at32uc3a0128 erase dfu-programmer at32uc3a0128 flash emblod.hex dfu-programmer at32uc3a0128 start

If you have the serial port connected at 115200-8-N-1, you will see messages issued by emBLOD.

= Compiling Hempl for emBLOD =

You should already be familiar with compiling Hempl.

Use Hempl, and add

bootloader=emblod

to the  compilation command. This will create an ELF file, which you should convert to a BIN file using

avr32-objcopy -O binary *.elf autorun.bin

and copy  to the root of a FAT-formatted micro SD card for the Mizar32.