source: trunk/platforms/tsar_generic_xbar/scripts/run_simus.py @ 729

Last change on this file since 729 was 706, checked in by meunier, 11 years ago
  • Replaced vci_dspin_local_crossbar with a vci_local_crossbar in tsar_generic_xbar
  • Added the scripts/ directory in tsar_generic_xbar
  • Property svn:executable set to *
File size: 12.0 KB
Line 
1#!/usr/bin/python
2
3import subprocess
4import os
5import sys
6
7#TODO: recopier les fichiers d'entrees dans le script en fonction de l'appli selectionnee
8# Par exemple, tk14.O pour LU, img.raw pour ep_filter, etc.
9
10data_dir = 'data'
11log_init_name = 'log_init_'
12log_term_name = 'log_term_'
13
14
15nb_procs = [ 4 ]
16#nb_procs = [ 1, 4, 8, 16, 32, 64, 128, 256 ]
17rerun_stats = True
18use_omp = False
19
20#apps = [ 'histogram', 'mandel', 'filter', 'radix_ga', 'fft_ga', 'kmeans' ]
21#apps = [ 'histogram', 'mandel', 'filter', 'radix_ga', 'fft_ga' ]
22apps = [ 'filt_ga' ]
23
24
25all_apps = [ 'mandel', 'filter', 'filt_ga', 'histogram', 'kmeans', 'barnes', 'fmm', 'ocean', 'raytrace', 'radiosity', 'waters', 'watern', 'cholesky', 'lu', 'fft', 'radix', 'fft_ga', 'radix_ga', 'kmeans' ]
26splash2 = [ 'barnes', 'fmm', 'ocean', 'radiosity', 'raytrace', 'watern', 'waters', 'cholesky', 'lu', 'fft', 'radix' ]
27splash2_ga = [ 'radix_ga', 'fft_ga' ]
28
29
30config_name = os.path.join(os.path.dirname(os.path.realpath(__file__)), "config.py")
31if not os.path.isfile(config_name):
32   help_str = '''
33You should create a file named config.py in this directory with the following definitions:
34 - apps_dir:      path to almos-tsar-mipsel/apps directory
35 - almos_src_dir: path to almos source directory (for kernel and bootloader binaries)
36 - hdd_img_name:  path to the hdd image to use
37*** Stopping execution
38'''
39   print help_str
40   sys.exit()
41
42exec(file(config_name))
43
44top_path = os.path.join(os.path.dirname(os.path.realpath(__file__)), "..")
45
46splash2_dir    = os.path.join(apps_dir, 'splash2/codes')
47splash2_ga_dir = os.path.join(apps_dir, 'splash2_ga')
48
49scripts_path       = os.path.join(top_path, 'scripts')
50almos_path         = os.path.join(top_path, 'almos')
51arch_info_name     = os.path.join(almos_path, "arch-info-gen.info")
52arch_info_bib_name = os.path.join(almos_path, 'arch-info.bib')
53hdd_img_file_name  = os.path.join(almos_path, "hdd-img.bin")
54shrc_file_name     = os.path.join(almos_path, "shrc")
55hard_config_name   = os.path.join(almos_path, "hard_config.h")
56
57topcell_name = "top.cpp"
58
59
60splash_app_dir = {}
61splash_app_dir['barnes'] = 'apps/barnes'
62splash_app_dir['fmm'] = 'apps/fmm'
63splash_app_dir['ocean'] = 'apps/ocean/contiguous_partitions'
64splash_app_dir['raytrace'] = 'apps/raytrace'
65splash_app_dir['radiosity'] = 'apps/radiosity'
66#splash_app_dir['volrend'] = 'apps/volrend'
67splash_app_dir['watern'] = 'apps/water-nsquared'
68splash_app_dir['waters'] = 'apps/water-spatial'
69
70splash_app_dir['cholesky'] = 'kernels/cholesky'
71splash_app_dir['fft'] = 'kernels/fft'
72splash_app_dir['lu'] = 'kernels/lu/contiguous_blocks'
73splash_app_dir['radix'] = 'kernels/radix'
74
75splash_ga_app_dir = {}
76splash_ga_app_dir['radix_ga'] = 'apps/radix'
77splash_ga_app_dir['fft_ga'] = 'apps/fft'
78
79
80def get_x_y(nb_procs):
81   x = 1
82   y = 1
83   to_x = True
84   while (x * y * 4 < nb_procs):
85      if to_x:
86         x = x * 2
87      else:
88         y = y * 2
89      to_x = not to_x
90   return x, y
91
92
93
94def gen_hard_config(x, y, hard_config):
95   header = '''
96/* Generated from run_simus.py */
97
98#ifndef _HD_CONFIG_H
99#define _HD_CONFIG_H
100
101#define  X_SIZE              %(x)d
102#define  Y_SIZE              %(y)d
103#define  NB_CLUSTERS         %(nb_clus)d
104#define  NB_PROCS_MAX        4
105#define  NB_TASKS_MAX        8
106
107#define  NB_TIM_CHANNELS     32
108#define  NB_DMA_CHANNELS     1
109
110#define  NB_TTY_CHANNELS     4
111#define  NB_IOC_CHANNELS     1
112#define  NB_NIC_CHANNELS     0
113#define  NB_CMA_CHANNELS     0
114
115#define  USE_XICU            1
116#define  IOMMU_ACTIVE        0
117
118#define   IRQ_PER_PROCESSOR   1
119
120#endif //_HD_CONFIG_H
121''' % dict(x = x, y = y, nb_clus = x * y)
122   file = open(hard_config, 'w')
123   file.write(header)
124   file.close()
125
126
127def gen_arch_info(x, y, arch_info, arch_info_bib):
128   old_path = os.getcwd()
129   print "cd", scripts_path
130   os.chdir(scripts_path)
131   print "./gen_arch_info_large.sh", str(x), str(y), ">", arch_info
132   output = subprocess.Popen([ './gen_arch_info_large.sh', str(x), str(y) ], stdout = subprocess.PIPE).communicate()[0]
133   os.chdir(almos_path)
134   file = open(arch_info, 'w')
135   file.write(output)
136   file.close()
137   print "./info2bib -i", arch_info, "-o", arch_info_bib
138   subprocess.call([ './info2bib', '-i', arch_info, '-o', arch_info_bib ])
139   print "cd", old_path
140   os.chdir(old_path)
141   
142
143def gen_sym_links():
144   old_path = os.getcwd()
145   print "cd", almos_path
146   os.chdir(almos_path)
147
148   target = os.path.join(almos_src_dir, 'tools/soclib-bootloader/bootloader-tsar-mipsel.bin')
149   link_name = 'bootloader-tsar-mipsel.bin'
150   if not os.path.isfile(link_name):
151      print "ln -s", target, link_name
152      os.symlink(target, link_name)
153
154   target = os.path.join(almos_src_dir, 'kernel/obj.tsar/almix-tsar-mipsel.bin')
155   link_name = 'kernel-soclib.bin'
156   if not os.path.isfile(link_name):
157      print "ln -s", target, link_name
158      os.symlink(target, link_name)
159
160   target = hdd_img_name
161   link_name = 'hdd-img.bin'
162   if not os.path.isfile(link_name):
163      print "ln -s", target, link_name
164      os.symlink(target, link_name)
165
166   os.chdir(old_path)
167
168
169
170def compile_app(app_name, nprocs):
171
172   if app_name in splash2:
173      app_dir_name = os.path.join(splash2_dir, splash_app_dir[app_name])
174   elif app_name in splash2_ga:
175      app_dir_name = os.path.join(splash2_ga_dir, splash_ga_app_dir[app_name])
176   else:
177      app_dir_name = os.path.join(apps_dir, app_name)
178
179   old_path = os.getcwd()
180   print "cd", app_dir_name
181   os.chdir(app_dir_name)
182
183   # Compilation process is different in splash and other apps
184   if app_name in splash2:
185      print "make clean"
186      subprocess.call([ 'make', 'clean' ])
187
188      print "rm Makefile"
189      subprocess.call([ 'rm', 'Makefile' ])
190
191      print "ln -s Makefile.soclib Makefile"
192      subprocess.call([ 'ln', '-s', 'Makefile.soclib', 'Makefile' ])
193
194      print "make"
195      subprocess.call([ 'make' ])
196
197   elif app_name in splash2_ga:
198      print "make clean"
199      subprocess.call([ 'make', 'clean' ])
200
201      print "make"
202      subprocess.call([ 'make' ])
203
204   else:
205      print "make clean"
206      subprocess.call([ 'make', 'clean' ])
207 
208      print "make TARGET=tsar"
209      subprocess.call([ 'make', 'TARGET=tsar' ])
210   
211   # Creation/Modification du shrc de almos
212   if (app_name == "boot_only"):
213      shrc = "exec -p 0 /bin/boot_onl\n"
214   elif (app_name == "mandel"):
215      shrc = "exec -p 0 /bin/mandel -n%(nproc)d\n" % dict(nproc = nprocs)
216   elif (app_name == "filter"):
217      #shrc = "exec -p 0 /bin/filter /etc/imgs.raw 512 512\n"
218      shrc = "exec -p 0 /bin/filter -l1024 -c1024 -n%(nproc)d /etc/img.raw\n" % dict(nproc = nprocs)
219   elif (app_name == "filt_ga"):
220      shrc = "exec -p 0 /bin/filt_ga -n%(nproc)d -i /etc/img.raw\n" % dict(nproc = nprocs)
221   elif (app_name == "histogram"):
222      shrc = "exec -p 0 /bin/histogra -n%(nproc)d /etc/histo.bmp\n" % dict(nproc = nprocs)
223   elif (app_name == "kmeans"):
224      shrc = "exec -p 0 /bin/kmeans -n %(nproc)d -p %(npoints)d\n" % dict(nproc = nprocs, npoints = 10000) # default npoints = 100000
225   elif (app_name == "showimg"):
226      shrc = "exec -p 0 /bin/showimg -p1 -i /etc/lena.sgi -o /dev/fb0\n"
227   elif (app_name == "barnes"):
228      shrc = "exec -p 0 /bin/barnes -n%(nproc)d -b%(nbody)d\n" % dict(nproc = nprocs, nbody = 1024)
229   elif (app_name == "fmm"):
230      shrc = "exec -p 0 /bin/fmm -n%(nproc)d -p%(nparticles)d\n" % dict(nproc = nprocs, nparticles = 1024)
231   elif (app_name == "ocean"):
232      shrc = "exec -p 0 /bin/ocean -n%(nproc)d -m%(gridsize)d\n" % dict(nproc = nprocs, gridsize = 66)
233   elif (app_name == "radiosity"):
234      shrc = "exec -p 0 /bin/radiosit -n %(nproc)d -batch\n" % dict(nproc = nprocs)
235   elif (app_name == "raytrace"):
236      shrc = "exec -p 0 /bin/raytrace -n%(nproc)d /etc/tea.env\n" % dict(nproc = nprocs)
237   elif (app_name == "watern"):
238      shrc = "exec -p 0 /bin/watern -n%(nproc)d -m512\n" % dict(nproc = nprocs)
239   elif (app_name == "waters"):
240      shrc = "exec -p 0 /bin/waters -n%(nproc)d -m512\n" % dict(nproc = nprocs)
241   elif (app_name == "cholesky"):
242      shrc = "exec -p 0 /bin/cholesky -n%(nproc)d /etc/tk14.O\n" % dict(nproc = nprocs)
243   elif (app_name == "fft"):
244      shrc = "exec -p 0 /bin/fft -n%(nproc)d -m10\n" % dict(nproc = nprocs)
245   elif (app_name == "lu"):
246      shrc = "exec -p 0 /bin/lu -n%(nproc)d -m512\n" % dict(nproc = nprocs)
247   elif (app_name == "radix"):
248      shrc = "exec -p 0 /bin/radix -n%(nproc)d -k1024\n" % dict(nproc = nprocs) # test : 1024 ; simu : 65536
249   elif (app_name == "radix_ga"):
250      shrc = "exec -p 0 /bin/radix_ga -p%(nproc)d -n262144\n" % dict(nproc = nprocs) # p = proc, n = num_keys
251   elif (app_name == "fft_ga"):
252      shrc = "exec -p 0 /bin/fft_ga -P%(nproc)d -M16\n" % dict(nproc = nprocs)
253   else:
254      assert(False)
255   
256   file = open(shrc_file_name, 'w')
257   file.write(shrc)
258   file.close()
259
260   # Copie du binaire et du shrc dans l'image disque
261   print "mcopy -o -i", hdd_img_file_name, shrc_file_name, "::/etc/"
262   subprocess.call([ 'mcopy', '-o', '-i', hdd_img_file_name, shrc_file_name, '::/etc/' ])
263   print "mcopy -o -i", hdd_img_file_name, app_name, "::/bin/"
264   subprocess.call([ 'mcopy', '-o', '-i', hdd_img_file_name, app_name, '::/bin/' ])
265
266   print "cd", old_path
267   os.chdir(old_path)
268# end of compile_app
269
270
271print "mkdir -p", os.path.join(scripts_path, data_dir)
272subprocess.call([ 'mkdir', '-p', os.path.join(scripts_path, data_dir) ])
273
274gen_sym_links()
275
276for i in nb_procs:
277   x, y = get_x_y(i)
278   nthreads = min(4, x * y)
279   gen_hard_config(x, y, hard_config_name)
280   gen_arch_info(x, y, arch_info_name, arch_info_bib_name)
281
282   print "cd", top_path
283   os.chdir(top_path)
284   print "touch", topcell_name
285   subprocess.call([ 'touch', topcell_name ])
286   print "make"
287   subprocess.call([ 'make' ])
288   
289   for app in apps:
290      print "cd", top_path
291      os.chdir(top_path)
292
293      compile_app(app, i)
294
295      # Launch simulation
296      if use_omp:
297         print "./simul.x -THREADS", nthreads, ">", os.path.join(scripts_path, data_dir, app + '_' + log_init_name + str(i))
298         output = subprocess.Popen([ './simul.x', '-THREADS', str(nthreads) ], stdout = subprocess.PIPE).communicate()[0]
299      else:
300         print "./simul.x >", os.path.join(scripts_path, data_dir, app + '_' + log_init_name + str(i))
301         output = subprocess.Popen([ './simul.x' ], stdout = subprocess.PIPE).communicate()[0]
302
303
304      # Write simulation results to data directory
305      print "cd", scripts_path
306      os.chdir(scripts_path)
307      filename = os.path.join(data_dir, app + '_' + log_init_name + str(i))
308      file = open(filename, 'w')
309      file.write(output)
310      file.close()
311
312      filename = os.path.join(scripts_path, data_dir, app + '_' + log_term_name + str(i))
313      print "mv", os.path.join(top_path, 'term1'), filename
314      subprocess.call([ 'mv', os.path.join(top_path, 'term1'), filename ])
315
316      if rerun_stats:
317         start2_found = False
318         end_found = False
319         for line in open(filename):
320            if "[START2]" in line:
321               start2 = line.split()[-1]
322               start2_found = True
323            if "[END]" in line:
324               end = line.split()[-1]
325               end_found = True
326         assert(start2_found and end_found)
327         
328         print "cd", top_path
329         os.chdir(top_path)
330
331         # Relauching simulation with reset and dump of counters
332         if use_omp:
333            print "./simul.x -THREADS", nthreads, "--reset-counters %s --dump-counters %s >" % (start2, end), os.path.join(scripts_path, data_dir, app + '_' + log_init_name + str(i))
334            output = subprocess.Popen([ './simul.x', '-THREADS', str(nthreads), '--reset-counters', start2, '--dump-counters', end ], stdout = subprocess.PIPE).communicate()[0]
335         else:
336            print "./simul.x --reset-counters %s --dump-counters %s >" % (start2, end), os.path.join(scripts_path, data_dir, app + '_' + log_init_name + str(i))
337            output = subprocess.Popen([ './simul.x', '--reset-counters', start2, '--dump-counters', end ], stdout = subprocess.PIPE).communicate()[0]
338         
339         # Write simulation results (counters) to data directory
340         print "cd", scripts_path
341         os.chdir(scripts_path)
342         filename = os.path.join(data_dir, app + '_' + log_init_name + str(i))
343         file = open(filename, 'w')
344         file.write(output)
345         file.close()
346 
347
348## End of simulations
349
350
351
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