Skip to content
GitLab
Projects
Groups
Snippets
/
Help
Help
Support
Community forum
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in
Toggle navigation
Menu
Open sidebar
Liu Dezi
csst_msc_sim
Commits
c3247cab
Commit
c3247cab
authored
Nov 29, 2021
by
Fang Yuedong
Browse files
delete deprecated
parent
883b7a77
Changes
1
Show whitespace changes
Inline
Side-by-side
ObservationSim/Instrument/Chip_deprecated.py
deleted
100755 → 0
View file @
883b7a77
from
.FocalPlane
import
FocalPlane
import
galsim
import
os
import
numpy
as
np
from
astropy.table
import
Table
class
Chip
(
FocalPlane
):
def
__init__
(
self
,
chipID
,
ccdEffCurve_dir
,
config
=
None
,
treering_func
=
None
):
# Get focal plane (instance of paraent class) info
# TODO: use chipID to config individual chip?
super
().
__init__
()
if
config
is
not
None
:
self
.
npix_x
=
config
[
"npix_x"
]
self
.
npix_y
=
config
[
"npix_y"
]
self
.
read_noise
=
config
[
"read_noise"
]
self
.
dark_noise
=
config
[
"dark_noise"
]
self
.
pix_scale
=
config
[
"pix_scale"
]
self
.
gain
=
config
[
"gain"
]
else
:
# Default setting
self
.
npix_x
=
9232
self
.
npix_y
=
9216
self
.
read_noise
=
5.0
# e/pix
self
.
dark_noise
=
0.02
# e/pix/s
self
.
pix_scale
=
0.074
# pixel scale
self
.
gain
=
1.0
# A chip ID must be assigned
self
.
chipID
=
int
(
chipID
)
# Get corresponding filter info
self
.
filter_id
,
self
.
filter_type
=
self
.
getChipFilter
()
# Get boundary (in pix)
self
.
bound
=
self
.
getChipLim
()
self
.
ccdEffCurve_dir
=
ccdEffCurve_dir
self
.
effCurve
=
self
.
_getChipEffCurve
(
self
.
filter_type
)
# Define the sensor
# self.sensor = galsim.Sensor()
self
.
sensor
=
galsim
.
SiliconSensor
(
strength
=
10.
,
treering_func
=
treering_func
)
def
_getChipEffCurve
(
self
,
filter_type
):
if
filter_type
in
[
'nuv'
,
'u'
]:
filename
=
'UV0.txt'
if
filter_type
in
[
'g'
,
'r'
]:
filename
=
'Astro_MB.txt'
if
filter_type
in
[
'i'
,
'z'
,
'y'
]:
filename
=
'Basic_NIR.txt'
path
=
os
.
path
.
join
(
self
.
ccdEffCurve_dir
,
filename
)
table
=
Table
.
read
(
path
,
format
=
'ascii'
)
throughput
=
galsim
.
LookupTable
(
x
=
table
[
'col1'
],
f
=
table
[
'col2'
],
interpolant
=
'linear'
)
bandpass
=
galsim
.
Bandpass
(
throughput
,
wave_type
=
'nm'
)
return
bandpass
def
getChipFilter
(
self
,
chipID
=
None
,
filter_layout
=
None
):
"""Return the filter index and type for a given chip #(chipID)
"""
filter_type_list
=
[
"nuv"
,
"u"
,
"g"
,
"r"
,
"i"
,
"z"
,
"y"
]
# TODO: maybe a more elegent way other than hard coded?
# e.g. use something like a nested dict:
if
filter_layout
is
not
None
:
return
filter_layout
[
chipID
][
0
],
filter_layout
[
chipID
][
1
]
if
chipID
==
None
:
chipID
=
self
.
chipID
# updated configurations
if
chipID
>
30
or
chipID
<
1
:
raise
ValueError
(
"!!! Chip ID: [1,30]"
)
if
chipID
in
[
10
,
11
,
20
,
21
]:
filter_type
=
'y'
if
chipID
in
[
15
,
16
]:
filter_type
=
"z"
if
chipID
in
[
9
,
22
]:
filter_type
=
"i"
if
chipID
in
[
12
,
19
]:
filter_type
=
"u"
if
chipID
in
[
7
,
24
]:
filter_type
=
"r"
if
chipID
in
[
14
,
13
,
18
,
17
]:
filter_type
=
"nuv"
if
chipID
in
[
8
,
23
]:
filter_type
=
"g"
if
chipID
in
[
6
,
5
,
25
,
26
]:
filter_type
=
"GI"
if
chipID
in
[
27
,
30
,
1
,
4
]:
filter_type
=
"GV"
if
chipID
in
[
28
,
29
,
2
,
3
]:
filter_type
=
"GU"
filter_id
=
filter_type_list
.
index
(
filter_type
)
return
filter_id
,
filter_type
def
getChipLim
(
self
,
chipID
=
None
):
"""Calculate the edges in pixel for a given CCD chip on the focal plane
NOTE: There are 5*4 CCD chips in the focus plane for photometric observation.
Parameters:
chipID: int
the index of the chip
Returns:
A galsim BoundsD object
"""
if
chipID
==
None
:
chipID
=
self
.
chipID
gx
=
self
.
npix_gap_x
gy1
,
gy2
=
self
.
npix_gap_y
# xlim of a given ccd chip
xrem
=
(
chipID
-
1
)
%
self
.
nchip_x
-
self
.
nchip_x
//
2
xcen
=
(
self
.
npix_x
+
gx
)
*
xrem
nx0
=
xcen
-
self
.
npix_x
//
2
+
1
nx1
=
xcen
+
self
.
npix_x
//
2
# ylim of a given ccd chip
yrem
=
2
*
((
chipID
-
1
)
//
self
.
nchip_x
)
-
(
self
.
nchip_y
-
1
)
ycen
=
(
self
.
npix_y
//
2
+
gy1
//
2
)
*
yrem
if
chipID
<=
6
:
ycen
=
(
self
.
npix_y
//
2
+
gy1
//
2
)
*
yrem
-
(
gy2
-
gy1
)
if
chipID
>=
25
:
ycen
=
(
self
.
npix_y
//
2
+
gy1
//
2
)
*
yrem
+
(
gy2
-
gy1
)
ny0
=
ycen
-
self
.
npix_y
//
2
+
1
ny1
=
ycen
+
self
.
npix_y
//
2
return
galsim
.
BoundsD
(
nx0
-
1
,
nx1
-
1
,
ny0
-
1
,
ny1
-
1
)
def
getSkyCoverage
(
self
,
wcs
):
return
super
().
getSkyCoverage
(
wcs
,
self
.
bound
.
xmin
,
self
.
bound
.
xmax
,
self
.
bound
.
ymin
,
self
.
bound
.
ymax
)
def
getSkyCoverageEnlarged
(
self
,
wcs
,
margin
=
0.5
):
"""The enlarged sky coverage of the chip
"""
margin
/=
60.0
bound
=
self
.
getSkyCoverage
(
wcs
)
return
galsim
.
BoundsD
(
bound
.
xmin
-
margin
,
bound
.
xmax
+
margin
,
bound
.
ymin
-
margin
,
bound
.
ymax
+
margin
)
def
isContainObj
(
self
,
ra_obj
,
dec_obj
,
sky_coverage
):
if
(
ra_obj
-
sky_coverage
.
xmin
)
*
(
ra_obj
-
sky_coverage
.
xmax
)
>
0.0
or
(
dec_obj
-
sky_coverage
.
ymin
)
*
(
dec_obj
-
sky_coverage
.
ymax
)
>
0.0
:
return
False
return
True
def
getChipNoise
(
self
,
exptime
=
150.0
):
# TODO: put it here or make it a separate class?
noise
=
self
.
dark_noise
*
exptime
+
self
.
read_noise
**
2
return
noise
def
addNoise
(
self
,
img
,
exptime
=
150.0
,
sky_noise
=
0.
,
seed
=
31415
):
rng
=
galsim
.
BaseDeviate
(
seed
)
dark_noise
=
galsim
.
DeviateNoise
(
galsim
.
PoissonDeviate
(
rng
,
self
.
dark_noise
*
exptime
))
img
.
addNoise
(
dark_noise
)
ccd_noise
=
galsim
.
CCDNoise
(
rng
,
sky_level
=
sky_noise
,
gain
=
self
.
gain
,
read_noise
=
self
.
read_noise
)
img
.
addNoise
(
ccd_noise
)
return
img
\ No newline at end of file
Write
Preview
Supports
Markdown
0%
Try again
or
attach a new file
.
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment