smyalygames/FiniteVolumeGPU_HIP
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base: smyalygames:main
Branches Tags
smyalygames:main smyalygames:build/rocm-upgrade smyalygames:fix/lumi smyalygames:implement-hip-python smyalygames:porting-to-hip
...
compare: smyalygames:aa21733806811f1d63de5e551645b0bafb0f9afe
Branches Tags
smyalygames:build/rocm-upgrade smyalygames:fix/lumi smyalygames:main smyalygames:implement-hip-python smyalygames:porting-to-hip

5 Commits
main ... aa21733806

Author SHA1 Message Date
Anthony Berg
aa21733806 fix: floating point number practically causing an infinite loop 2025-03-29 22:16:55 +01:00
Anthony Berg
5a27445de8 fix: deprecated modules on LUMI 
(cherry picked from commit 277a6b4a3c)
 2025-03-26 14:56:55 +01:00
Anthony Berg
cd69f69080 feat: add tqdm progress bar 2025-03-18 07:41:52 +01:00
Anthony Berg
9761ff4924 fix: touples not being assinged 2025-03-18 07:41:38 +01:00
Anthony Berg
5931cee93f build: update deps 2025-03-18 07:41:19 +01:00
6 changed files with 83 additions and 75 deletions
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100
GPUSimulators/Common.py
View File

@@ -35,6 +35,8 @@ import gc
import netCDF4
import json
from tqdm import trange
#import pycuda.compiler as cuda_compiler
#import pycuda.gpuarray
#import pycuda.driver as cuda
@@ -178,8 +180,8 @@ def runSimulation(simulator, simulator_args, outfile, save_times, save_var_names
profiling_data_sim_runner["end"]["t_sim_init"] = time.time()
#Start simulation loop
progress_printer = ProgressPrinter(save_times[-1], print_every=10)
for k in range(len(save_times)):
# progress_printer = ProgressPrinter(save_times[-1], print_every=10)
for k in trange(len(save_times)):
#Get target time and step size there
t_step = t_steps[k]
t_end = save_times[k]
@@ -211,9 +213,9 @@ def runSimulation(simulator, simulator_args, outfile, save_times, save_var_names
profiling_data_sim_runner["end"]["t_nc_write"] += time.time()
#Write progress to screen
print_string = progress_printer.getPrintString(t_end)
if (print_string):
logger.debug(print_string)
# print_string = progress_printer.getPrintString(t_end)
# if (print_string):
# logger.debug(print_string)
logger.debug("Simulated to t={:f} in {:d} timesteps (average dt={:f})".format(t_end, sim.simSteps(), sim.simTime() / sim.simSteps()))
@@ -433,58 +435,58 @@ class DataDumper(object):
class ProgressPrinter(object):
"""
Small helper class for
"""
def __init__(self, total_steps, print_every=5):
self.logger = logging.getLogger(__name__)
self.start = time.time()
self.total_steps = total_steps
self.print_every = print_every
self.next_print_time = self.print_every
self.last_step = 0
self.secs_per_iter = None
# class ProgressPrinter(object):
# """
# Small helper class for
# """
# def __init__(self, total_steps, print_every=5):
# self.logger = logging.getLogger(__name__)
# self.start = time.time()
# self.total_steps = total_steps
# self.print_every = print_every
# self.next_print_time = self.print_every
# self.last_step = 0
# self.secs_per_iter = None
def getPrintString(self, step):
elapsed = time.time() - self.start
if (elapsed > self.next_print_time):
dt = elapsed - (self.next_print_time - self.print_every)
dsteps = step - self.last_step
steps_remaining = self.total_steps - step
# def getPrintString(self, step):
# elapsed = time.time() - self.start
# if (elapsed > self.next_print_time):
# dt = elapsed - (self.next_print_time - self.print_every)
# dsteps = step - self.last_step
# steps_remaining = self.total_steps - step
if (dsteps == 0):
return
# if (dsteps == 0):
# return
self.last_step = step
self.next_print_time = elapsed + self.print_every
# self.last_step = step
# self.next_print_time = elapsed + self.print_every
if not self.secs_per_iter:
self.secs_per_iter = dt / dsteps
self.secs_per_iter = 0.2*self.secs_per_iter + 0.8*(dt / dsteps)
# if not self.secs_per_iter:
# self.secs_per_iter = dt / dsteps
# self.secs_per_iter = 0.2*self.secs_per_iter + 0.8*(dt / dsteps)
remaining_time = steps_remaining * self.secs_per_iter
# remaining_time = steps_remaining * self.secs_per_iter
return "{:s}. Total: {:s}, elapsed: {:s}, remaining: {:s}".format(
ProgressPrinter.progressBar(step, self.total_steps),
ProgressPrinter.timeString(elapsed + remaining_time),
ProgressPrinter.timeString(elapsed),
ProgressPrinter.timeString(remaining_time))
# return "{:s}. Total: {:s}, elapsed: {:s}, remaining: {:s}".format(
# ProgressPrinter.progressBar(step, self.total_steps),
# ProgressPrinter.timeString(elapsed + remaining_time),
# ProgressPrinter.timeString(elapsed),
# ProgressPrinter.timeString(remaining_time))
def timeString(seconds):
seconds = int(max(seconds, 1))
minutes, seconds = divmod(seconds, 60)
hours, minutes = divmod(minutes, 60)
periods = [('h', hours), ('m', minutes), ('s', seconds)]
time_string = ' '.join('{}{}'.format(value, name)
for name, value in periods
if value)
return time_string
# def timeString(seconds):
# seconds = int(max(seconds, 1))
# minutes, seconds = divmod(seconds, 60)
# hours, minutes = divmod(minutes, 60)
# periods = [('h', hours), ('m', minutes), ('s', seconds)]
# time_string = ' '.join('{}{}'.format(value, name)
# for name, value in periods
# if value)
# return time_string
def progressBar(step, total_steps, width=30):
progress = np.round(width * step / total_steps).astype(np.int32)
progressbar = "0% [" + "#"*(progress) + "="*(width-progress) + "] 100%"
return progressbar
# def progressBar(step, total_steps, width=30):
# progress = np.round(width * step / total_steps).astype(np.int32)
# progressbar = "0% [" + "#"*(progress) + "="*(width-progress) + "] 100%"
# return progressbar
"""

36
GPUSimulators/Simulator.py
View File

@@ -25,6 +25,7 @@ import numpy as np
import math
import logging
from enum import IntEnum
from tqdm import tqdm
#import pycuda.compiler as cuda_compiler
#import pycuda.gpuarray
@@ -156,7 +157,7 @@ class BaseSimulator(object):
self.num_substeps = num_substeps
#Handle autotuning block size
if (self.context.autotuner):
if self.context.autotuner:
peak_configuration = self.context.autotuner.get_peak_performance(self.__class__)
block_width = int(peak_configuration["block_width"])
block_height = int(peak_configuration["block_height"])
@@ -195,42 +196,45 @@ class BaseSimulator(object):
Requires that the step() function is implemented in the subclasses
"""
printer = Common.ProgressPrinter(t)
# printer = Common.ProgressPrinter(t)
t_start = self.simTime()
t_end = t_start + t
update_dt = True
if (dt is not None):
if dt is not None:
update_dt = False
self.dt = dt
while(self.simTime() < t_end):
for _ in tqdm(range(math.ceil(t_end / self.dt))):
# Update dt every 100 timesteps and cross your fingers it works
# for the next 100
if (update_dt and (self.simSteps() % 100 == 0)):
# TODO this is probably broken now after fixing the "infinite" loop
if update_dt and (self.simSteps() % 100 == 0):
self.dt = self.computeDt()*self.cfl_scale
# Compute timestep for "this" iteration (i.e., shorten last timestep)
current_dt = np.float32(min(self.dt, t_end-self.simTime()))
# Stop if end reached (should not happen)
if (current_dt <= 0.0):
if current_dt <= 0.0:
self.logger.warning("Timestep size {:d} is less than or equal to zero!".format(self.simSteps()))
break
# Step forward in time
self.step(current_dt)
#Print info
print_string = printer.getPrintString(self.simTime() - t_start)
if (print_string):
self.logger.info("%s: %s", self, print_string)
try:
self.check()
except AssertionError as e:
e.args += ("Step={:d}, time={:f}".format(self.simSteps(), self.simTime()),)
raise
# print_string = printer.getPrintString(self.simTime() - t_start)
# if (print_string):
# self.logger.info("%s: %s", self, print_string)
# try:
# self.check()
# except AssertionError as e:
# e.args += ("Step={:d}, time={:f}".format(self.simSteps(), self.simTime()),)
# raise
print("Done")
def step(self, dt):

10
Jobs/job_lumi.slrum
View File

@@ -19,18 +19,18 @@ Mydir=/project/project_4650000xx
Myapplication=${Mydir}/FiniteVolumeGPU_hip/mpiTesting.py
#modules
ml LUMI/23.03 partition/G
ml LUMI/24.03 partition/G
ml lumi-container-wrapper
ml cray-python/3.9.13.1
ml rocm/5.2.3
ml cray-python/3.11.7
ml rocm/6.2.2
ml craype-accel-amd-gfx90a
ml cray-mpich/8.1.27
ml cray-mpich/8.1.29
export PATH="/project/project_4650000xx/FiniteVolumeGPU_hip/MyCondaEnv/bin:$PATH"
#missing library
export LD_LIBRARY_PATH=/opt/cray/pe/mpich/8.1.27/ofi/cray/14.0/lib-abi-mpich:$LD_LIBRARY_PATH
export LD_LIBRARY_PATH=/opt/cray/pe/mpich/8.1.29/ofi/cray/17.0/lib-abi-mpich:$LD_LIBRARY_PATH
#Binding mask
bind_mask="0x${fe}000000000000,0x${fe}00000000000000,0x${fe}0000,0x${fe}000000,0x${fe},0x${fe}00,0x${fe}00000000,0x${fe}0000000000"

4
README.md
View File

@@ -5,13 +5,13 @@ This is a HIP version of the [FiniteVolume code](https://github.com/babrodtk/Fin
## Setup on LUMI-G
Here is a step-by-step guide on installing packages on LUMI-G
### Step 1: Install rocm-5.2.5 with Easybuild
### Step 1: Install rocm-5.4.6 with Easybuild
```
export EBU_USER_PREFIX=/project/project_xxxxxx/EasyBuild
ml LUMI/24.03 partition/G
ml EasyBuild-user
export PYTHONIOENCODING=utf-8
eb rocm-5.2.5.eb -r
eb rocm-5.4.6.eb -r
```
### Step 2: run conda-container

6
conda_environment_lumi.yml
View File

@@ -5,15 +5,17 @@ channels:
- conda-forge
dependencies:
- python=3.9.13
- python=3.11.7
- pip
- numpy
- mpi4py
- six
- pytools
- netcdf4
- scipy
- tqdm
- pip:
- hip-python==5.4.3.470.16
- hip-python==6.2.0.499.16
- -i https://test.pypi.org/simple/

2
mpiTesting.py
View File

@@ -178,7 +178,7 @@ def genSim(grid, **kwargs):
return sim
outfile, sim_runner_profiling_data, sim_profiling_data = Common.runSimulation(
(outfile, sim_runner_profiling_data, sim_profiling_data) = Common.runSimulation(
genSim, arguments, outfile, save_times, save_var_names, dt)
if(args.profile):