Add plot(..)
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2275ebcc77
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@ -164,6 +164,15 @@ graph_lower, graph_upper = get_graphing_bounds()
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print("graphing between {}, {}".format(graph_lower, graph_upper))
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def plot(filename, g=None):
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if args.no_plot:
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if g is not None:
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g.savefig(img_dir+filename)
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else:
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plt.savefig(img_dir+filename)
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plt.close()
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plt.show()
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def custom_hist(x_axis, *values, **kwargs):
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if "title" in kwargs:
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plt.title(kwargs["title"])
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@ -192,11 +201,8 @@ def show_specific_position(attacker, victim, slice):
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custom_hist(df_ax_vx_sx["time"], df_ax_vx_sx["clflush_miss_n"], df_ax_vx_sx["clflush_remote_hit"], title=f"A{attacker} V{victim} S{slice}")
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#tikzplotlib.save("fig-hist-good-A{}V{}S{}.tex".format(attacker,victim,slice))#, axis_width=r'0.175\textwidth', axis_height=r'0.25\textwidth')
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if args.no_plot:
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plt.savefig(img_dir+"specific-a{}v{}s{}.png".format(attacker, victim, slice))
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plt.close()
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else:
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plt.show()
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plot("specific-a{}v{}s{}.png".format(attacker, victim, slice))
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def show_grid(df, col, row, shown=["clflush_miss_n", "clflush_remote_hit", "clflush_local_hit_n", "clflush_shared_hit"]):
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# Color convention here :
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@ -231,12 +237,10 @@ df.loc[:, ("hash",)] = df["hash"].apply(dict_to_json)
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if not args.stats:
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custom_hist(df["time"], df["clflush_miss_n"], df["clflush_remote_hit"], title="miss v. hit")
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if args.no_plot:
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plt.savefig(img_dir+"miss_v_hit.png")
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plt.close()
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else:
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plt.show()
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plot("miss_v_hit.png")
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custom_hist(df["time"], df["clflush_miss_n"], df["clflush_remote_hit"], df["clflush_local_hit_n"], df["clflush_shared_hit"], title="miss v. hit")
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plot("miss_vall_hits.png")
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show_specific_position(0, 2, 0)
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@ -244,20 +248,13 @@ if not args.stats:
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df_main_core_0.loc[:, ("hash",)] = df["hash"].apply(dict_to_json)
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g = show_grid(df_main_core_0, "helper_core", "hash")
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if args.no_plot:
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g.savefig(img_dir+"helper_grid.png")
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plt.close()
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else:
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plt.show()
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plot("helper_grid.png", g=g)
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g = show_grid(df, "main_core", "hash")
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plot("main_grid.png", g=g)
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if args.no_plot:
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g.savefig(img_dir+"main_grid.png")
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plt.close()
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else:
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plt.show()
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g = show_grid(df, "main_core", "helper_core")
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plot("main_helper_grid.png", g=g)
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if not os.path.exists(args.path + ".stats.csv") or args.stats:
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@ -100,6 +100,15 @@ def remap_core(key):
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return remap
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def plot(filename, g=None):
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if args.no_plot:
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if g is not None:
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g.savefig(img_dir+filename)
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else:
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plt.savefig(img_dir+filename)
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plt.close()
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plt.show()
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stats["main_socket"] = stats["main_core"].apply(remap_core("socket"))
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stats["main_core_fixed"] = stats["main_core"].apply(remap_core("core"))
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stats["main_ht"] = stats["main_core"].apply(remap_core("hthread"))
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@ -119,13 +128,7 @@ print("Graphing from {} to {}".format(graph_lower_miss, graph_upper_miss))
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g_ = sns.FacetGrid(stats, col="main_core_fixed", row="slice_group")
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g_.map(sns.histplot, 'clflush_miss_n', bins=range(graph_lower_miss, graph_upper_miss), color="b", edgecolor="b", alpha=0.2)
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if args.no_plot:
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g_.savefig(img_dir+"medians0.png")
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plt.close()
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else:
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plt.show()
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plot("medians_miss_grid.png", g=g_)
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# also explains remote
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# shared needs some thinking as there is something weird happening there.
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@ -276,11 +279,7 @@ figure_median_I.tight_layout()
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# import tikzplotlib
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# tikzplotlib.save("fig-median-I.tex", axis_width=r'0.175\textwidth', axis_height=r'0.25\textwidth')
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if args.no_plot:
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plt.savefig(img_dir+"medians_miss.png")
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plt.close()
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else:
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plt.show()
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plot("medians_miss.png")
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#stats["predicted_remote_hit_no_gpu"] = exclusive_hit_topology_nogpu_df(stats, *(res_no_gpu[0]))
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stats["predicted_remote_hit_gpu"] = exclusive_hit_topology_gpu_df(stats, *(res_gpu[0]))
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@ -294,37 +293,19 @@ figure_median_E_A0.map(sns.lineplot, 'helper_core_fixed', 'predicted_remote_hit_
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figure_median_E_A0.set_titles(col_template="$S$ = {col_name}")
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# tikzplotlib.save("fig-median-E-A0.tex", axis_width=r'0.175\textwidth', axis_height=r'0.25\textwidth')
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if args.no_plot:
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plt.savefig(img_dir+"medians_remote_hit.png")
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plt.close()
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else:
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plt.show()
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plot("medians_remote_hit.png")
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g = sns.FacetGrid(stats, row="main_core_fixed")
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g.map(sns.scatterplot, 'slice_group', 'clflush_miss_n', color="b")
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g.map(sns.scatterplot, 'slice_group', 'clflush_local_hit_n', color="g")
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if args.no_plot:
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g.savefig(img_dir+"medians_miss_v_localhit_core.png")
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plt.close()
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else:
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plt.show()
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plot("medians_miss_v_localhit_core.png", g=g)
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g0 = sns.FacetGrid(stats, row="slice_group")
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g0.map(sns.scatterplot, 'main_core_fixed', 'clflush_miss_n', color="b")
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g0.map(sns.scatterplot, 'main_core_fixed', 'clflush_local_hit_n', color="g") # this gives away the trick I think !
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# possibility of sending a general please discard this everyone around one of the ring + wait for ACK - direction depends on the core.
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if args.no_plot:
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g0.savefig(img_dir+"medians_miss_v_localhit_slice.png")
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plt.close()
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else:
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plt.show()
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plot("medians_miss_v_localhit_slice.png", g=g0)
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g2 = sns.FacetGrid(stats, row="main_core_fixed", col="slice_group")
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g2.map(sns.scatterplot, 'helper_core_fixed', 'clflush_remote_hit', color="r")
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@ -332,12 +313,8 @@ g2.map(sns.lineplot, 'helper_core_fixed', 'predicted_remote_hit_gpu', color="r")
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#g2.map(sns.lineplot, 'helper_core_fixed', 'predicted_remote_hit_gpu2', color="g")
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#g2.map(sns.lineplot, 'helper_core_fixed', 'predicted_remote_hit_no_gpu', color="g")
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#g2.map(plot_func(exclusive_hit_topology_nogpu_df, *(res_no_gpu[0])), 'helper_core_fixed', color="g")
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plot("medians_remote_hit_grid.png", g=g2)
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if args.no_plot:
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g2.savefig(img_dir+"medians_remote_hit_grid.png")
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plt.close()
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else:
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plt.show()
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if args.rslice:
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for core in stats["main_core_fixed"].unique():
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@ -352,11 +329,6 @@ if args.rslice:
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g3 = sns.FacetGrid(stats, row="main_core_fixed", col="slice_group")
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g3.map(sns.scatterplot, 'helper_core_fixed', 'clflush_shared_hit', color="y")
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plot("medians_sharedhit.png", g=g3)
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# more ideas needed
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if args.no_plot:
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g3.savefig(img_dir+"medians_sharedhit.png")
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plt.close()
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else:
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plt.show()
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