def event_by_event(fname_partons, fout):
if not os.path.exists(fout):
os.mkdir(fout)
cfg.NX = 201
cfg.NY = 201
cfg.NZ = 81
cfg.DT = 0.005
cfg.DX = 0.16
cfg.DY = 0.16
cfg.IEOS = 2
cfg.ntskip = 60
cfg.TAU0 = 0.4
cfg.ETAOS = 0.16
cfg.fPathOut = fout
t0 = time()
visc = CLVisc(cfg)
visc.create_ini_from_partons(fname_partons,
SIGR=0.6,
SIGZ=0.6,
KFACTOR=1.2)
visc.evolve(max_loops=4000, save_hypersf=True, save_bulk=False)
t1 = time()
print('finished. Total time: {dtime}'.format(dtime=t1 - t0))
def event_by_event(fname_partons, fout, etaos=0.0):
if not os.path.exists(fout):
os.mkdir(fout)
cfg.NX = 301
cfg.NY = 301
cfg.NZ = 101
cfg.DT = 0.005
cfg.DX = 0.1
cfg.DY = 0.1
cfg.DZ = 0.15
cfg.IEOS = 4
cfg.TFRZ = 0.136
cfg.ntskip = 60
cfg.nzskip = 2
cfg.TAU0 = 0.4
cfg.ETAOS = etaos
cfg.fPathOut = fout
write_config(cfg)
t0 = time()
visc = CLVisc(cfg, gpu_id=3)
visc.create_ini_from_partons(fname_partons, SIGR=0.6, SIGZ=0.6, KFACTOR=1.3)
visc.evolve(max_loops=4000, save_hypersf=True, save_bulk=True, save_vorticity=True)
t1 = time()
print('finished. Total time: {dtime}'.format(dtime = t1-t0))
def get_orbital_angular_momentum(fname_partons):
'''calculate the initial orbital angular momentum
for minimum bias Au+Au 200 GeV collisions
return:
jy = -tau0 * \int dx dy deta x * sinh(eta) * ed(x,y,eta)
in units of hbar; where GeV*fm = 5 hbar'''
cfg.NX = 301
cfg.NY = 301
cfg.NZ = 61
cfg.DT = 0.005
cfg.DX = 0.1
cfg.DY = 0.1
cfg.IEOS = 0
cfg.ntskip = 60
cfg.TAU0 = 0.4
cfg.ETAOS = 0.0
write_config(cfg)
t0 = time()
visc = CLVisc(cfg, gpu_id=1)
visc.create_ini_from_partons(fname_partons, SIGR=0.6, SIGZ=0.6, KFACTOR=1.3)
visc.ideal.ev_to_host()
ed = visc.ideal.h_ev1[:,0].reshape(cfg.NX, cfg.NY, cfg.NZ)
x = np.linspace(-15, 15, cfg.NX, endpoint=True)
y = np.ones(cfg.NY)
eta_s = np.linspace(-9, 9, cfg.NZ, endpoint=True)
xx, yy, hh = np.meshgrid(x, y, eta_s, indexing='ij')
jy = - xx * np.sinh(hh) * ed * cfg.TAU0 * cfg.DX * cfg.DY * cfg.DZ
#plt.imshow(xx[:,cfg.NY/2,:], origin='lower')
#plt.colorbar()
#plt.show()
return jy.sum()*5.0