| .. | ||
| src | ||
| backstep.par | ||
| canal.par | ||
| config.mk | ||
| dcavity.par | ||
| include_CLANG.mk | ||
| include_GCC.mk | ||
| include_ICC.mk | ||
| karman.par | ||
| Makefile | ||
| README.md | ||
| residual.plot | ||
C source skeleton
Build
- Configure the toolchain and additional options in
config.mk:
# Supported: GCC, CLANG, ICC
TAG ?= GCC
ENABLE_OPENMP ?= false
OPTIONS += -DARRAY_ALIGNMENT=64
#OPTIONS += -DVERBOSE
#OPTIONS += -DVERBOSE_AFFINITY
#OPTIONS += -DVERBOSE_DATASIZE
#OPTIONS += -DVERBOSE_TIMER
The verbosity options enable detailed output about solver, affinity settings, allocation sizes and timer resolution. For debugging you may want to set the VERBOSE option:
# Supported: GCC, CLANG, ICC
TAG ?= GCC
ENABLE_OPENMP ?= false
OPTIONS += -DARRAY_ALIGNMENT=64
OPTIONS += -DVERBOSE
#OPTIONS += -DVERBOSE_AFFINITY
#OPTIONS += -DVERBOSE_DATASIZE
#OPTIONS += -DVERBOSE_TIMER
`
2. Build with:
make
You can build multiple toolchains in the same directory, but notice that the Makefile is only acting on the one currently set.
Intermediate build results are located in the `<TOOLCHAIN>` directory.
To output the executed commands use:
make Q=
3. Clean up with:
make clean
to clean intermediate build results.
make distclean
to clean intermediate build results and binary.
4. (Optional) Generate assembler:
make asm
The assembler files will also be located in the `<TOOLCHAIN>` directory.
## Usage
You have to provide a parameter file describing the problem you want to solve:
./exe-CLANG dcavity.par
Examples are given in in dcavity (a lid driven cavity test case) and canal (simulating a empty canal).
You can plot the resulting velocity and pressure fields using gnuplot:
gnuplot vector.plot
and for the pressure:
gnuplot surface.plot