93 lines
3.8 KiB
Python
93 lines
3.8 KiB
Python
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# -*- coding: utf-8 -*-
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"""
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Created on Wed Dec 11 07:27:15 2019
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@author: 6035blancha
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"""
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import numpy as np
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import matplotlib.pyplot as plt
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T_cyc = 0.477
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#cyc = int(input("Number of cardiac cycles simulated on all meshes? "))
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cyc = 5
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path = "Z:\\Aloma\\Class\\final_BIEN6931\\Simulations\\"
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file = "-procs_case\\PHistRCR.dat"
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# Mesh convergence study pressure evaluation
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# Load 1st Mesh results
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N_ts_m1 = 4760
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nCPUs_m1 = "48"
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folder_project_m1 = "MCS_m01"
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#N_ts_m1 = int(input("Number of Time Steps used for this mesh? "))
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#nCPUs_m1 = str(input("Number of processors used for this mesh: "))
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#folder_project_m1 = str(input("Type folder where project data is located: "))
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pressure_filename_m1 = path + folder_project_m1 + "\\" + nCPUs_m1 + file
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pressure_m1 = np.loadtxt(pressure_filename_m1, skiprows=1,)
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time_m1 = np.linspace(0,T_cyc*cyc,pressure_m1.shape[0])
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# Load 2nd Mesh results
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N_ts_m2 = 7930
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nCPUs_m2 = "48"
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folder_project_m2 = "MCS_m02"
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#N_ts_m2 = int(input("Number of Time Steps used for this mesh? "))
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#nCPUs_m2 = str(input("Number of processors used for this mesh: "))
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#folder_project_m2 = str(input("Type folder where project data is located: "))
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pressure_filename_m2 = path + folder_project_m2 + "\\" + nCPUs_m2 + file
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pressure_m2 = np.loadtxt(pressure_filename_m2, skiprows=1,)
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time_m2 = np.linspace(0,T_cyc*cyc,pressure_m2.shape[0])
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# Load 3rd Mesh results
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N_ts_m3 = 10200
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nCPUs_m3 = "48"
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folder_project_m3 = "MCS_m03"
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#N_ts_m3 = int(input("Number of Time Steps used for this mesh? "))
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#nCPUs_m3 = str(input("Number of processors used for this mesh: "))
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#folder_project_m3 = str(input("Type folder where project data is located: "))
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pressure_filename_m3 = path + folder_project_m3 + "\\" + nCPUs_m3 + file
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pressure_m3 = np.loadtxt(pressure_filename_m3, skiprows=1,)
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time_m3 = np.linspace(0,T_cyc*cyc,pressure_m3.shape[0])
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# Load 4rd Mesh results
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N_ts_m4 = 14280
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nCPUs_m4 = "96"
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folder_project_m4 = "MCS_m06"
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#N_ts_m4 = int(input("Number of Time Steps used for this mesh? "))
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#nCPUs_m4 = str(input("Number of processors used for this mesh: "))
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#folder_project_m4 = str(input("Type folder where project data is located: "))
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pressure_filename_m4 = path + folder_project_m4 + "\\" + nCPUs_m4 + file
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pressure_m4 = np.loadtxt(pressure_filename_m4, skiprows=1,)
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time_m4 = np.linspace(0,T_cyc*cyc,pressure_m4.shape[0])
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# Load 5th Mesh results
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N_ts_m5 = 15870
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nCPUs_m5 = "96"
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folder_project_m5 = "MCS_m05"
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#N_ts_m5 = int(input("Number of Time Steps used for this mesh? "))
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#nCPUs_m5 = str(input("Number of processors used for this mesh: "))
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#folder_project_m5 = str(input("Type folder where project data is located: "))
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pressure_filename_m5 = path + folder_project_m5 + "\\" + nCPUs_m5 + file
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pressure_m5 = np.loadtxt(pressure_filename_m5, skiprows=1,)
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time_m5 = np.linspace(0,T_cyc*cyc,pressure_m5.shape[0])
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for n in range(0,pressure_m4.shape[1]-1):
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plt.figure()
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# l1, = plt.plot(time_m1,pressure_m1[:,n]/1333.22,'b', label='0.2M')
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l2, = plt.plot(time_m2,pressure_m2[:,n]/1333.22,'r', label='0.4M')
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l3, = plt.plot(time_m3,pressure_m3[:,n]/1333.22,'g', label='0.8M')
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l4, = plt.plot(time_m4,pressure_m4[:,n]/1333.22,'y', label='0.8M')
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l5, = plt.plot(time_m5,pressure_m5[:,n]/1333.22,'k', label='0.8M')
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plt.show()
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#n=2
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#l2, = plt.plot(time_m2[round(N_ts_m2-N_ts_m2/cyc):N_ts_m2],pressure_m2[round(N_ts_m2-N_ts_m2/cyc):N_ts_m2,n]/1333.22,'r', label='0.4M')
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#l3, = plt.plot(time_m3[round(N_ts_m3-N_ts_m3/cyc):N_ts_m3],pressure_m3[round(N_ts_m3-N_ts_m3/cyc):N_ts_m3,n]/1333.22,'g', label='0.8M')
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#l4, = plt.plot(time_m4[round(N_ts_m4-N_ts_m4/cyc):N_ts_m4],pressure_m4[round(N_ts_m4-N_ts_m4/cyc):N_ts_m4,n]/1333.22,'y', label='0.8M')
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#l5, = plt.plot(time_m5[round(N_ts_m5-N_ts_m5/cyc):N_ts_m5],pressure_m5[round(N_ts_m4-N_ts_m5/cyc):N_ts_m5,n]/1333.22,'k', label='0.8M')
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