def test_espaces(): ir_params = { 'ev_params' : {'space':'s3', 'F':[0.1], 'j_max':1,}, 'duration' : 0.01, 'nu' : 1.7e-5, 'sampling_rate' : 44100, } espaces(ir_params)
def compute_s3(): ir_params = { 'ev_params' : {'space':'s3', 'c':3.4e2, 'j_max':200}, 'duration' : 15.0, 'nu' : 1.7e-5 * .5e4, 'sampling_rate' : 8000, } f1 = [0.001,0.01,0.1,1,10,100] for F in f1: print "\n--------%s--------\n" % ir_params ir_params['ev_params']['F'] = [F] espaces(ir_params)
def compute_s2e1(): ir_params = { 'ev_params' : {'space':'s2e1', 'c':3.4e2, 'j_max':1000}, 'duration' : 15.0, 'nu' : 1.7e-5 * .5e3, 'sampling_rate' : 8000, } f = [0.001,0.01,0.1,1,10,100,1000,10000] for F in cartesian([f,f]): print "\n--------%s--------\n" % ir_params ir_params['ev_params']['F'] = F espaces(ir_params)
def compute_e3(): ir_params = { 'ev_params' : {'space':'e3', 'c':3.4e2, 'j_max':15}, 'duration' : 15.0, 'nu' : 1.7e-5, 'sampling_rate' : 8000, } space = 'n_torus' f = [0.001,0.01,0.1,1,10,100] # for F in ( [100,100,100], [50,50,50], [100,50,75]): for F in cartesian([f,f,f]): print "\n--------%s--------\n" % ir_params ir_params['ev_params']['F'] = F espaces(ir_params)