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Convert powerlaw to new reactions scheme #1205

Convert powerlaw to new reactions scheme

Convert powerlaw to new reactions scheme #1205

Workflow file for this run

name: burn_cell
on: [pull_request]
jobs:
burn_cell:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
with:
fetch-depth: 0
- name: Get AMReX
run: |
mkdir external
cd external
git clone https://github.com/AMReX-Codes/amrex.git
cd amrex
git checkout development
echo 'AMREX_HOME=$(GITHUB_WORKSPACE)/external/amrex' >> $GITHUB_ENV
echo $AMREX_HOME
if [[ -n "${AMREX_HOME}" ]]; then exit 1; fi
cd ../..
- name: Install dependencies
run: |
sudo apt-get update -y -qq
sudo apt-get -qq -y install curl cmake jq clang g++>=9.3.0
- name: Compile, burn_cell (VODE, subch_approx)
run: |
cd unit_test/burn_cell
make realclean
make NETWORK_DIR=subch_approx -j 4
- name: Run burn_cell (VODE, subch_approx)
run: |
cd unit_test/burn_cell
./main3d.gnu.ex inputs_subch_approx > test.out
- name: Compare to stored output (VODE, subch_approx)
run: |
cd unit_test/burn_cell
diff -I "^AMReX" -I "^reading in reaclib rates" test.out ci-benchmarks/subch_approx_unit_test.out
- name: Compile, burn_cell (VODE, ECSN)
run: |
cd unit_test/burn_cell
make realclean
make NETWORK_DIR=ECSN -j 4
- name: Run burn_cell (VODE, ECSN)
run: |
cd unit_test/burn_cell
./main3d.gnu.ex inputs_ecsn > test.out
- name: Compare to stored output (VODE, ECSN)
run: |
cd unit_test/burn_cell
diff -I "^AMReX" -I "^reading in reaclib rates" test.out ci-benchmarks/ecsn_unit_test.out
- name: Compile, burn_cell (VODE, ignition_chamulak)
run: |
cd unit_test/burn_cell
make realclean
make NETWORK_DIR=ignition_chamulak -j 4
- name: Run burn_cell (VODE, ignition_chamulak)
run: |
cd unit_test/burn_cell
./main3d.gnu.ex inputs_ignition_chamulak > test.out
- name: Compare to stored output (VODE, ignition_chamulak)
run: |
cd unit_test/burn_cell
diff -I "^AMReX" -I "^reading in reaclib rates" test.out ci-benchmarks/chamulak_VODE_unit_test.out
- name: Compile, burn_cell (ForwardEuler, triple_alpha_plus_cago)
run: |
cd unit_test/burn_cell
make realclean
make NETWORK_DIR=triple_alpha_plus_cago INTEGRATOR_DIR=ForwardEuler -j 4
- name: Run burn_cell (ForwardEuler, triple_alpha_plus_cago)
run: |
cd unit_test/burn_cell
./main3d.gnu.ex inputs_triple > test.out
- name: Compare to stored output (ForwardEuler, triple_alpha_plus_cago)
run: |
cd unit_test/burn_cell
diff -I "^AMReX" -I "^reading in reaclib rates" test.out ci-benchmarks/triple_alpha_plus_cago_FE_unit_test.out
- name: Compile, burn_cell (BackwardEuler, subch_approx)
run: |
cd unit_test/burn_cell
make realclean
make NETWORK_DIR=subch_approx INTEGRATOR_DIR=BackwardEuler -j 4
- name: Run burn_cell (BackwardEuler, subch_approx)
run: |
cd unit_test/burn_cell
./main3d.gnu.ex inputs_subch_approx > test.out
- name: Compare to stored output (BackwardEuler, subch_approx)
run: |
cd unit_test/burn_cell
diff -I "^AMReX" -I "^reading in reaclib rates" test.out ci-benchmarks/subch_approx_BE_unit_test.out
- name: Compile, burn_cell (QSS, aprox13)
run: |
cd unit_test/burn_cell
make realclean
make NETWORK_DIR=aprox13 INTEGRATOR_DIR=QSS -j 4
- name: Run burn_cell (QSS, aprox13)
run: |
cd unit_test/burn_cell
./main3d.gnu.ex inputs_aprox13 > test.out
- name: Compare to stored output (QSS, aprox13)
run: |
cd unit_test/burn_cell
diff -I "^AMReX" -I "^reading in reaclib rates" test.out ci-benchmarks/aprox13_QSS_unit_test.out
- name: Compile, burn_cell (RKC, aprox13)
run: |
cd unit_test/burn_cell
make realclean
make NETWORK_DIR=aprox13 INTEGRATOR_DIR=RKC -j 4
- name: Run burn_cell (RKC, aprox13)
run: |
cd unit_test/burn_cell
./main3d.gnu.ex inputs_aprox13 unit_test.temperature=1.e9 > test.out
- name: Compare to stored output (RKC, aprox13)
run: |
cd unit_test/burn_cell
diff -I "^AMReX" -I "^reading in reaclib rates" test.out ci-benchmarks/aprox13_RKC_unit_test.out