3. Compile OmpSs@FPGA programs

To compile an OmpSs@FPGA program you should follow the general OmpSs compilation procedure using the Mercurium compiler. More information is provided in the OmpSs User Guide (https://pm.bsc.es/ftp/ompss/doc/user-guide/compile-programs.html). The following sections detail the specific options of Mercurium to generate the binaries, bitstream and boot files.

The entire list of Mercurium options (for the FPGA phase) and AIT arguments are available here:

3.3. Binaries

There are two specific Mercurim front-ends for the FPGA devices:
  • fpgacxx for C++ applications.
  • fpgacc for C applications.

3.4. Bitstream

Note

Mercurium expects the Accelerator Integration Tool (AIT, formerly autoVivado) to be available on the PATH, if not the linker will fail. Moreover, AIT expects VivadoHLS and Vivado to be available in the PATH.

Warning

Sourcing the Vivado settings.sh file may break the cross-compilation toolchain. Instead, just add the directory of vivado binaries in the PATH.

To generate the bitstream, you should enable the bitstream generation in the Mercurium compiler (using the –bitstream-generation flag) and provide it the FPGA linker (aka AIT) flags with --Wf option. If the FPGA linker flags does not contain the -b (or --board) and -n (or --name) options, Mercurim will not launch AIT.

For example, to compile the dotproduct application, in debug mode, for the Zedboard, with a target frequency of 100Mhz, you can use the following command:

arm-linux-gnueabihf-fpgacc --debug --ompss --bitstream-generation \
  src/dotproduct.c -o dotproduct-d \
  --Wf,"--board=zedboard,--clock=100,--name=dotproduct,--hwruntime=som"

3.4.1. HW Instrumentation

You can use the --instrument (or --instrumentation) option of Merciurim to enable the HW instrumentation generation. The instrumentation can be generated and not used when running the application, but if you generate the bitstream without instrumentation support you will not be able to instrument the executions in the FPGA accelerators. Note that the application binary also has to be compiled with the --instrument (or --instrumentation) option.

For example, the previous compilation command with the instrumentation available will be:

arm-linux-gnueabihf-fpgacc --instrument --ompss --bitstream-generation \
  src/dotproduct.c -o dotproduct-d \
  --Wf,"--board=zedboard,--clock=100,--name=dotproduct,--hwruntime=som"

3.4.2. Shared memory port

By default, Mercurium generates an independent port to access the main memory for each task argument. Moreover, the bit-width of those ports equals to the argument data type width. This can result in a huge interconnection network when there are several task accelerators or they have several non-scalar arguments.

This behavior can be modified to generate unique shared port to access the main memory between all task arguments. This is achieved with the fpga_memory_port_width option of Merciurim which defines the desired bit-width of the shared port. The value must be a common multiple of the bit-widths for all task arguments. Also, values above 128 may require properly setting the alignment in FPGA allocator (see option fpga-aloc-align in nanox-fpga-help).

The usage of the Mercurium variable to generate a 128 bit port in the previous dotproduct command will be like:

arm-linux-gnueabihf-fpgacc --ompss --bitstream-generation \
  src/dotproduct.c -o dotproduct-d \
  --variable=fpga_memory_port_width:128 \
  --Wf,"--board=zedboard,--clock=100,--name=dotproduct,--hwruntime=som"

3.5. Boot Files

Some boards do not support loading the bitstream into the FPGA after the boot, therefore the boot files should be updated and the board rebooted. This step is not needed for the z7000 family of devices as the bitstream can be loaded after boot. AIT supports the generation of boot files for some boards but the step is disabled by default and should be enabled by hand.

First, you need to set the following environment variables:
  • PETALINUX_INSTALL. Petalinux installation directory.
  • PETALINUX_BUILD. Petalinux project directory. See Create boot files for ultrascale to have more information about how to setup a petalinux project build.

Then you can invoke AIT with the same options provided in --Wf and the following new options: --from_step=boot --to_step=boot. Also, you may directly add the --to_step=boot option in --Wf during the Mercurium launch.