csiborgtools/notebooks/field_sample.ipynb at 1c736aaede9ea364883ddf1daf98ef496ff8bc11

mirror of https://github.com/Richard-Sti/csiborgtools.git synced 2024-12-22 22:18:01 +00:00

Richard Stiskalek 9e4b34f579

* Update README

* Update density field reader

* Update name of SDSSxALFAFA

* Fix quick bug

* Add little fixes

* Update README

* Put back fit_init

* Add paths to initial snapshots

* Add export

* Remove some choices

* Edit README

* Add Jens' comments

* Organize imports

* Rename snapshot

* Add additional print statement

* Add paths to initial snapshots

* Add masses to the initial files

* Add normalization

* Edit README

* Update README

* Fix bug in CSiBORG1 so that does not read fof_00001

* Edit README

* Edit README

* Overwrite comments

* Add paths to init lag

* Fix Quijote path

* Add lagpatch

* Edit submits

* Update README

* Fix numpy int problem

* Update README

* Add a flag to keep the snapshots open when fitting

* Add a flag to keep snapshots open

* Comment out some path issue

* Keep snapshots open

* Access directly snasphot

* Add lagpatch for CSiBORG2

* Add treatment of x-z coordinates flipping

* Add radial velocity field loader

* Update README

* Add lagpatch to Quijote

* Fix typo

* Add setter

* Fix typo

* Update README

* Add output halo cat as ASCII

* Add import

* Add halo plot

* Update README

* Add evaluating field at radial distanfe

* Add field shell evaluation

* Add enclosed mass computation

* Add BORG2 import

* Add BORG boxsize

* Add BORG paths

* Edit run

* Add BORG2 overdensity field

* Add bulk flow clauclation

* Update README

* Add new plots

* Add nbs

* Edit paper

* Update plotting

* Fix overlap paths to contain simname

* Add normalization of positions

* Add default paths to CSiBORG1

* Add overlap path simname

* Fix little things

* Add CSiBORG2 catalogue

* Update README

* Add import

* Add TNG density field constructor

* Add TNG density

* Add draft of calculating BORG ACL

* Fix bug

* Add ACL of enclosed density

* Add nmean acl

* Add galaxy bias calculation

* Add BORG acl notebook

* Add enclosed mass calculation

* Add TNG300-1 dir

* Add TNG300 and BORG1 dir

* Update nb

2024-01-30 16:14:07 +00:00

2 MiB

Raw Blame History

In [1]:

import numpy as np
%matplotlib notebook 
import matplotlib.pyplot as plt
try:
    import csiborgtools
except ModuleNotFoundError:
    print("not found")
    import sys
    sys.path.append("../")
    import csiborgtools
import utils
import joblib

from os.path import join
%load_ext autoreload
%autoreload 2
from gc import collect

not found

In [2]:

surv = utils.SDSS()()

X = np.vstack([surv[p] for p in ("DIST", "RA", "DEC")]).T
X = X.astype(np.float32)

../csiborgtools/read/readobs.py:368: UserWarning: Key `IN_DR7_LSS` found in both `routine_keys` and `fits_keys`. Returning `routine_keys` value.
  warn("Key `{}` found in both `routine_keys` and `fits_keys`. "
../csiborgtools/read/readobs.py:375: UserWarning: Returning a FITS property. Be careful about little h!
  warn("Returning a FITS property. Be careful about little h!",

In [3]:

particles = np.load("/mnt/extraspace/rstiskalek/csiborg/scratch/particles.npy")

In [4]:

grid = 256
length = 677.05
paths = csiborgtools.read.Paths()
paths.set_info(7444, paths.get_maximum_snapshot(7444))
box = csiborgtools.units.CSiBORGBox(paths)
MAS = "CIC"
field = csiborgtools.field.DensityField(particles, length, box, MAS)

In [27]:

x0 = field.potential_field(grid, 2)

Using CIC mass assignment scheme with weights
Time taken = 13.839 seconds

Calculating potential from the overdensity..

In [28]:

x1 = field.potential_fieldal_field(grid)

Using CIC mass assignment scheme with weights
Time taken = 13.866 seconds

Calculating potential from the overdensity..

In [34]:

plt.figure()
plt.imshow(np.mean(x0, axis=2) - np.mean(x1, axis=2))
plt.show()

No description has been provided for this image

In [33]:

plt.figure()
plt.imshow(np.mean(x1, axis=2))
plt.show()

In [ ]:

delta = field.overdensity_field(grid, verbose=True)

In [ ]:

field.evaluate_sky(delta, pos=X, isdeg=True)

In [ ]:

dtype = {"names": ['x', 'y'], "formats": [float, float]}

In [ ]:

z = np.zeros((2, 2), dtype=dtype)

In [ ]:

z['x']

In [ ]:

T = field.tensor_field(grid)

In [ ]:

Teval = field.evaluate_sky(T.T00, T.T01, T.T02, T.T11, T.T12, T.T22, pos=X, isdeg=True)

In [ ]:

field.tensor_field_eigvals(*Teval)

In [ ]:

np.sort()

In [ ]:

Teval[0].shape

In [ ]:

Z = np.zeros((N, 3, 3), dtype=np.float32)

Z[:, 0, 0] = Teval[0]
Z[:, 0, 1] = Teval[1]
Z[:, 0, 2] = Teval[2]
Z[:, 1, 1] = Teval[3]
Z[:, 1, 2] = Teval[4]
Z[:, 2, 2] = Teval[5]


Zall = np.zeros((N, 3, 3), dtype=np.float32)

Zall[:, 0, 0] = Teval[0]
Zall[:, 0, 1] = Teval[1]
Zall[:, 1, 0] = Teval[1]
Zall[:, 0, 2] = Teval[2]
Zall[:, 2, 0] = Teval[2]
Zall[:, 1, 1] = Teval[3]
Zall[:, 1, 2] = Teval[4]
Zall[:, 2, 1] = Teval[4]
Zall[:, 2, 2] = Teval[5]

In [ ]:

np.linalg.eigvalsh(Z[120, ...], 'U')

In [ ]:

np.linalg.eigvals(Zall[120, ...])

In [ ]:

out = field.evaluate_sky(g.gx, g.gy, g.gz, pos=X)

In [ ]:

out

In [ ]:

plt.figure()
plt.hist(np.log10(np.linalg.norm(out, axis=0)), bins="auto")
plt.show()

In [ ]:

2 MiB Raw Blame History

2 MiB

Raw Blame History