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cf86de6ea4
...
cd39e83550
@ -3,7 +3,7 @@ import re
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from enum import Enum
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class Stat(Enum):
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CPU = 'cpu'
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PLATFORM = 'platform'
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THREADS = 'threads'
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ITERATIONS = 'iterations'
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@ -18,20 +18,16 @@ class Stat(Enum):
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MATRIX_NNZ = 'matrix nnz'
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MATRIX_DENSITY = 'matrix density %'
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#POWER_BEFORE = 'power before'
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#POWER = 'power'
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#POWER_AFTER = 'power after'
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POWER_BEFORE = 'power before'
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POWER = 'power'
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POWER_AFTER = 'power after'
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TIME_S_OVERALL = 'time (sec) overall'
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TIME_S = 'time (sec)'
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TIME_S_1KI = 'time (sec) per 1k iterations'
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J = 'joules'
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J_1KI = 'joules per 1k iterations'
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J_D = 'Δ joules'
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J_D_1KI = 'Δ joules per 1k iterations'
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W = 'watts'
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W_1KI = 'watts per 1k iterations'
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W_D = 'Δ watts'
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W_D_1KI = 'Δ watts per 1k iterations'
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#DELTA_WATT = 'Δ watt'
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JOULES_OVERALL = 'joules overall'
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JOULES = 'joules'
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WATTS_OVERALL = 'wattage overall'
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WATTS = 'wattage'
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DELTA_WATT = 'Δ watt'
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TASK_CLK = 'task clock (msec)'
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PAGE_FAULTS = 'page faults'
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@ -70,7 +66,6 @@ class Cpu(Enum):
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#XEON = xeon_names
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ALTRA = 'Altra'
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EPYC_7313P = 'Epyc 7313P'
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XEON_4216 = 'Xeon 4216'
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names = {
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Cpu.ALTRA: {
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@ -7,33 +7,21 @@ if [[ $arch = aarch64 ]]; then
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iter=0
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function aarch64_power {
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sensors | awk '/CPU power:/ {print $3; exit}'
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((iter++))
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sleep 1s
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}
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if [[ "$baseline_time_s" -eq -1 ]]; then
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#"${@:2}" 1>/dev/null 2>&1 &
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"${@:2}" 1>&2 2>/dev/null &
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pid=$!
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while kill -0 $pid 2> /dev/null; do
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aarch64_power
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sleep 1s
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done
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wait
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else
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while [[ "$iter" -ne "$baseline_time_s" ]]; do
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aarch64_power
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((iter++))
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sleep 1s
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done
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fi
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baseline_time_s=-1
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while [[ "$iter" -ne "$baseline_time_s" ]]; do
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aarch64_power
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done
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elif [[ $arch = x86_64 ]]; then
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if [[ "$baseline_time_s" -eq -1 ]]; then
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#turbostat -s PkgWatt -i 1 2>/dev/null | awk -F: '/PkgWatt/ {getline; print $0}'
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#turbostat -s PkgWatt -i 1 | awk '/PkgWatt/ {getline; print $0}'
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turbostat -s PkgWatt ${@:2} 3>&2 2>&1 1>&3 | sed -n "/PkgWatt/{n;n;p}"
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turbostat -s PkgWatt ${@:2} | sed -n "/PkgWatt/{n;n;p}"
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else
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#turbostat -s PkgWatt -n "$baseline_time_s" -i 1 2>/dev/null | awk -F: '/PkgWatt/ {getline; print $0}'
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turbostat -s PkgWatt -n "$baseline_time_s" -i 1 2>/dev/null | sed -n "/PkgWatt/{n;n;p}"
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turbostat -s PkgWatt -n "$baseline_time_s" -i 1 | sed -n "/PkgWatt/{n;n;p}"
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fi
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else
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echo "Unrecognized arch!"
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@ -3,7 +3,7 @@
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FROM docker.io/amperecomputingai/pytorch:latest
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RUN apt-get update -y \
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&& apt-get install -y git vim wget htop \
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&& apt-get install -y git vim wget \
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&& rm -rf /var/lib/apt/lists/*
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RUN pip install scipy
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@ -1,7 +1,7 @@
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FROM --platform=linux/amd64 ubuntu:22.04
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RUN apt-get update -y \
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&& apt-get install -y python3 python3-pip git vim wget htop \
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&& apt-get install -y python3 python3-pip git vim wget \
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&& rm -rf /var/lib/apt/lists/*
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RUN pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/cpu
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RUN pip install scipy
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@ -1,7 +0,0 @@
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FROM --platform=linux/amd64 ubuntu:22.04
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RUN apt-get update -y \
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&& apt-get install -y python3 python3-pip git vim wget htop numactl \
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&& rm -rf /var/lib/apt/lists/*
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RUN pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/cpu
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RUN pip install scipy
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169
pytorch/run.py
169
pytorch/run.py
@ -13,7 +13,7 @@ parser.add_argument('matrix_file')
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parser.add_argument('iterations', type=int)
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parser.add_argument('baseline_time_s', type=int)
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parser.add_argument('baseline_delay_s', type=int)
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#parser.add_argument('--perf', action='store_true')
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parser.add_argument('--perf', action='store_true')
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parser.add_argument('--power', action='store_true')
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parser.add_argument('-d', '--debug', action='store_true')
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args = parser.parse_args()
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@ -21,22 +21,17 @@ args.cpu = Cpu[args.cpu.upper()]
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python = {
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Cpu.ALTRA: 'python3',
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Cpu.EPYC_7313P: 'python3.11',
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Cpu.XEON_4216: 'python3.11'
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Cpu.EPYC_7313P: 'python3.11'
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}
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program = {
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Cpu.ALTRA: [
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'apptainer', 'run', 'pytorch-altra.sif', '-c',
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'numactl --cpunodebind=0 --membind=0 '
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+ f'python spmv.py {args.matrix_file} {args.iterations}'],
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Cpu.EPYC_7313P: [
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'apptainer', 'run', 'pytorch-epyc_7313p.sif',
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'python3', 'spmv.py', f'{args.matrix_file}', f'{args.iterations}']
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}
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#program = {
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# Cpu.ALTRA: [
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# 'apptainer', 'run', 'pytorch-altra.sif', '-c',
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# 'numactl --cpunodebind=0 --membind=0 '
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# + f'python3 spmv.py {args.matrix_file} {args.iterations}'],
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# Cpu.EPYC_7313P: [
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# 'apptainer', 'run', 'pytorch-epyc_7313p.sif',
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# 'python3', 'spmv.py', f'{args.matrix_file}', f'{args.iterations}'],
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# Cpu.XEON_4216: [
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# 'apptainer', 'run', 'pytorch-altra.sif', '-c',
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# 'numactl --cpunodebind=0 --membind=0 '
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# + f'python3 spmv.py {args.matrix_file} {args.iterations}']
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#}
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perf = ['perf', 'stat']
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perf_args = {
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Cpu.ALTRA: [
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@ -47,24 +42,8 @@ perf_args = {
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['-M', 'l2_cache_miss_ratio,l2_tlb_miss_ratio,ll_cache_read_miss_ratio']]
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}
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def program(cpu: Cpu, matrix_file: str, iterations: int) -> list:
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if cpu == Cpu.ALTRA:
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return [
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'apptainer', 'run', 'pytorch-altra.sif', '-c',
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'numactl --cpunodebind=0 --membind=0 '
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+ f'python3 spmv.py {matrix_file} {iterations}']
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elif cpu == Cpu.EPYC_7313P:
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return [
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'apptainer', 'run', 'pytorch-epyc_7313p.sif',
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'python3', 'spmv.py', f'{matrix_file}', f'{iterations}']
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elif cpu == Cpu.XEON_4216:
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return [
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'apptainer', 'run', 'pytorch-xeon_4216.sif',
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'numactl', '--cpunodebind=0', '--membind=0',
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'python3', 'spmv.py', f'{matrix_file}', f'{iterations}']
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def baseline_power(cpu: Cpu, baseline_time_s: int) -> list:
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power_process = subprocess.Popen(['./power.sh', str(baseline_time_s)],
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power_process = subprocess.Popen([python[args.cpu], 'power.py', '-s', str(baseline_time_s)],
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stdout=subprocess.PIPE, stderr=subprocess.DEVNULL, text=True)
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return [float(x) for x in power_process.communicate()[0].strip().split('\n') if len(x) != 0]
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@ -73,129 +52,81 @@ def run_program(program: list[str]) -> tuple[dict, str]:
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print(program)
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process = subprocess.run(program,
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stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True)
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process.check_returncode()
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if args.debug:
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print(process.stdout)
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print(process.stderr)
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return (json.loads(process.stdout), process.stderr)
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def trapezoidal_rule(power: list[float], time_s: float) -> float:
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result = 0.0
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relevant_power = power[-int(time_s):]
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assert(time_s >= 2)
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assert(len(relevant_power) >= 2)
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assert(len(power) >= time_s)
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for pair in zip(relevant_power, relevant_power[1:]):
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result += 0.5 * (pair[0] + pair[1])
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result += (time_s % 1) * (power[-1])
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return result
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result = dict()
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result[Stat.CPU.name] = args.cpu.name
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result[Stat.ITERATIONS.name] = args.iterations
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program_result = run_program(program(args.cpu, args.matrix_file, args.iterations))
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program_result = run_program(program[args.cpu])
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result |= program_result[0]
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print(program_result[1], file=sys.stderr)
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result[Stat.TIME_S_1KI.name] = (
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(result[Stat.TIME_S.name] / result[Stat.ITERATIONS.name]) * 1000
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)
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result[Stat.TIME_S.name] = result[Stat.TIME_S_OVERALL.name] / result[Stat.ITERATIONS.name]
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if args.power:
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result[Stat.BASELINE_TIME_S.name] = args.baseline_time_s
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result[Stat.BASELINE_DELAY_S.name] = args.baseline_delay_s
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# Baseline
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time.sleep(args.baseline_delay_s)
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#result[Stat.POWER_BEFORE.name] = baseline_power(args.cpu, args.baseline_time_s)
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baseline_list = baseline_power(args.cpu, args.baseline_time_s)
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result[Stat.POWER_BEFORE.name] = baseline_power(args.cpu, args.baseline_time_s)
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if args.debug:
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print(baseline_list)
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assert(len(baseline_list) == args.baseline_time_s)
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print(result)
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# Power Collection
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power_process = subprocess.run(
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['./power.sh', '-1'] + program(args.cpu, args.matrix_file, args.iterations),
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stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True)
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power_process.check_returncode()
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run_program(program[args.cpu]) # Warmup
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#result[Stat.POWER.name] = [float(x) for x in power_process.communicate()[0].strip().split('\n')]
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power_list = [float(x)
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#for x in power_process.communicate()[0].strip().split('\n')]
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for x in power_process.stdout.strip().split('\n')]
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power_process_time_s = json.loads(power_process.stderr)[Stat.TIME_S.name]
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if args.debug:
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print(power_list)
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print(power_process_time_s)
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if args.cpu == Cpu.ALTRA:
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# Trapezoidal Rule across the last (s) power recordings.
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result[Stat.J.name] = trapezoidal_rule(
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power_list, power_process_time_s)
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elif args.cpu == Cpu.EPYC_7313P or args.cpu == Cpu.XEON_4216:
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result[Stat.J.name] = power_list[0] * power_process_time_s
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power_process = subprocess.Popen(
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[python[args.cpu], 'power.py'],
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stdout=subprocess.PIPE, stderr=subprocess.DEVNULL, text=True)
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result[Stat.W.name] = result[Stat.J.name] / power_process_time_s
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run_program(program[args.cpu])[0]
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power_process.send_signal(signal.SIGINT)
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if args.debug:
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print(result)
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result[Stat.POWER.name] = [float(x) for x in power_process.communicate()[0].strip().split('\n')]
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# Riemann Sum across the last (s) power recordings.
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from math import ceil
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result[Stat.JOULES.name] = (
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sum(result[Stat.POWER.name][-ceil(result[Stat.TIME_S_OVERALL.name]):-1])
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+ (result[Stat.POWER.name][-1] * (result[Stat.TIME_S_OVERALL.name] % 1)))
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elif args.cpu == Cpu.EPYC_7313P:
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power_process = subprocess.Popen(
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[python[args.cpu], 'power.py'] + program[args.cpu],
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stdout=subprocess.PIPE, stderr=subprocess.DEVNULL, text=True)
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result[Stat.POWER.name] = [float(x) for x in power_process.communicate()[0].strip().split('\n')]
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result[Stat.JOULES.name] = result[Stat.POWER.name][0] * result[Stat.TIME_S_OVERALL.name]
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if args.debug:
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print(result)
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#print(len(result['power']))
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#print(sum(result['power']) / len(result['power']))
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# Baseline
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time.sleep(args.baseline_delay_s)
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#result[Stat.POWER_AFTER.name] = baseline_power(args.cpu, args.baseline_time_s)
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baseline_list += baseline_power(args.cpu, args.baseline_time_s)
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result[Stat.POWER_AFTER.name] = baseline_power(args.cpu, args.baseline_time_s)
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if args.debug:
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print(baseline_list)
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assert(len(baseline_list) / 2 == args.baseline_time_s)
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print(result)
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baseline_joules = (
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trapezoidal_rule(
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baseline_list[:args.baseline_time_s],
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args.baseline_time_s) +
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trapezoidal_rule(
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baseline_list[args.baseline_time_s:],
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args.baseline_time_s)
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)
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baseline_wattage = baseline_joules / (args.baseline_time_s * 2)
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result[Stat.J_1KI.name] = (
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(result[Stat.J.name] / result[Stat.ITERATIONS.name]) * 1000
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)
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result[Stat.W_1KI.name] = (
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(result[Stat.W.name] / result[Stat.ITERATIONS.name]) * 1000
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)
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result[Stat.W_D.name] = result[Stat.W.name] - baseline_wattage
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result[Stat.J_D.name] = result[Stat.W_D.name] * power_process_time_s
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result[Stat.W_D_1KI.name] = (
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(result[Stat.W_D.name] / result[Stat.ITERATIONS.name]) * 1000
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)
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result[Stat.J_D_1KI.name] = (
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(result[Stat.W_D_1KI.name] / result[Stat.ITERATIONS.name]) * 1000
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)
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if args.perf:
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for perf_arg in perf_args[args.cpu]:
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output = run_program(perf + perf_arg + program[args.cpu])[1]
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print(output, file=sys.stderr)
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result = result | data_stat.parse_output(output, args.cpu)
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if args.debug:
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print(result)
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result = result | data_stat.derive_stats(result)
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if args.debug:
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print(result)
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print(json.dumps(result))
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#if args.perf:
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# for perf_arg in perf_args[args.cpu]:
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# output = run_program(perf + perf_arg + program[args.cpu])[1]
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# print(output, file=sys.stderr)
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# result = result | data_stat.parse_output(output, args.cpu)
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# if args.debug:
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# print(result)
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#
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# result = result | data_stat.derive_stats(result)
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#
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# if args.debug:
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# print(result)
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#arch = subprocess.run(['uname', '-m'], stdout=subprocess.PIPE, text=True).stdout.strip()
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#baseline = subprocess.run(
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@ -50,7 +50,7 @@ print(f"NNZ: {result[Stat.MATRIX_NNZ.name]}", file=sys.stderr)
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result[Stat.MATRIX_DENSITY.name] = matrix.values().shape[0] / (matrix.shape[0] * matrix.shape[1])
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print(f"Density: {result[Stat.MATRIX_DENSITY.name]}", file=sys.stderr)
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result[Stat.TIME_S.name] = end - start
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print(f"Time: {result[Stat.TIME_S.name]} seconds", file=sys.stderr)
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result[Stat.TIME_S_OVERALL.name] = end - start
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print(f"Time: {result[Stat.TIME_S_OVERALL.name]} seconds", file=sys.stderr)
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print(json.dumps(result))
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@ -1 +0,0 @@
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{"MATRIX_FILE": "as-caida", "MATRIX_SHAPE": [31379, 31379], "MATRIX_SIZE": 984641641, "MATRIX_NNZ": 106762, "MATRIX_DENSITY": 0.00010842726485909405, "TIME_S_T": 2.6111819744110107}
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