Exemple #1
0
            # if the energy calculation fails, this will be true.
            print('hi')
            # remove current file with observables for the current gamma value that are higher than
            # the delta = 0 energy.
            print(Ei)
            run.remove_file("observables")

            for j, gamma in enumerate(gammas[i:]):

                # write the remaining values of observables as those corresponding to the delta = 0
                # case, as non-zero d-band produces a higher energy fibril.
                scan['\\gamma_s'] = str(gamma)
                rp = ReadParams(scan=scan, loadsuf=loadsuf, savesuf=savesuf)
                run = SingleRun(rp, scan_dir=scan_dir)
                run.write_observables(E0, R0, eta0, delta0, surftwist0,
                                      "\\gamma_s")

            break

        if (np.isnan(Ri) or Ri <= 0) and gamma > 0.15:

            # if Ri is infinite, then the calculation failed.
            # Retry it with a different initial guess.

            print("Ri is NAN, trying again with Rguess = 1.0")

            # remove the current observables file, so that a new one can be written.
            run.remove_file("observables")
            if abs(float(scan['Rguess']) - 1.0) > 1e-10:
                Ri = 1.0
            else:
Exemple #2
0
            # if the energy calculation fails, this will be true.
            print('hi')
            # remove current file with observables for the current Lambda value that are higher than
            # the delta = 0 energy.
            print(Ei)
            run.remove_file("observables")

            for j, Lambda in enumerate(Lambdas[i:]):

                # write the remaining values of observables as those corresponding to the delta = 0
                # case, as non-zero d-band produces a higher energy fibril.
                scan['\\Lambda'] = str(Lambda)
                rp = ReadParams(scan=scan, loadsuf=loadsuf, savesuf=savesuf)
                run = SingleRun(rp, scan_dir=scan_dir)
                run.write_observables(E0, R0, eta0, delta0, surftwist0,
                                      "\\Lambda")

            break

        if np.isnan(Ri) or Ri <= 0:

            # if Ri is infinite, then the calculation failed.
            # Retry it with a different initial guess.

            print("Ri is NAN, trying again with Rguess = 1.0")

            # remove the current observables file, so that a new one can be written.
            run.remove_file("observables")
            if abs(float(scan['Rguess']) - 1.0) > 1e-10:
                Ri = 1.0
            else:
Exemple #3
0
            # remove current file with observables for the current Lambda value that are higher than
            # the delta = 0 energy.
            print(Ei)
            run.remove_file("observables")

            for j, Lambda in enumerate(Lambdas[i:]):

                # write the remaining values of observables as those corresponding to the delta = 0
                # case, as non-zero d-band produces a higher energy fibril.
                scan['\\Lambda'] = str(Lambda)
                rp = ReadParams(scan=scan, loadsuf=loadsuf, savesuf=savesuf)
                run = SingleRun(rp, scan_dir=scan_dir)
                run.write_observables(Ei,
                                      Ri,
                                      etai,
                                      deltai,
                                      surftwisti,
                                      "\\Lambda",
                                      modulus=modulusi)

            break

        if np.isnan(Ri) or Ri <= 0:

            # if Ri is infinite, then the calculation failed.
            # Retry it with a different initial guess.

            print("Ri is NAN, trying again with Rguess = 1.0")

            # remove the current observables file, so that a new one can be written.
            run.remove_file("observables")