Revision as of 14:45, 25 February 2020

2D Example Meshes

The directory containing the 2D input data is located in the 2D folder of CNF_Data.

Synthetic Gaussian Data

Input distribution size : 1,000,000 cells
Uniform case: 30,949 triangles
Adapted case: 3,788 triangles

Commands to generate meshes :

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/Gaussian2.vtk  --output Gaussian_me_10_uniform.vtk --uniform --min-edge=10

Adaptive : Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/Gaussian2.vtk  --output Gaussian_me_10_wl_1e-1.vtk --weight-limit=0.05 --min-edge=10

GPDGK16Numerical_140519

The 2D case created by extracting a 2D slice at X=50 out of the 3D distribution (see 3D case below) GPDGK16Numerical_140519

Input distribution size : 10,000 cells
Uniform case: 7,587 triangles
Adapted (min_edge = 2) case: 623 triangles
Adapted (min_edge = 0.5) case: 1,409 triangles

Commands to generate meshes :

Uniform : Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/GPDGK16Numerical_140519_X50.vtk --output GPDGK16Numerical_140519_me_2_uniform.vtk --min-edge=2 --uniform

Adaptive :(min_edge = 2) Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/GPDGK16Numerical_140519_X50.vtk --output GPDGK16Numerical_140519_me_2_wl_1e-1.vtk --min-edge=2 --weight-limit=0.1

Adaptive :(min_edge = 0.5) Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/GPDGK16Numerical_140519_X50.vtk --output GPDGK16Numerical_140519_me_0.5_wl_1e-1.vtk --min-edge=0.5 --weight-limit=0.1

Note: By using min-edge less than 1 we are essentially generating triangles with an edge smaller than the input pixels. Using values much smaller than 1 is not expected to help the discretization since we are essentially packing more element into a pixel which has a constant value.

OBS_ALU_Y50

Input distribution size : 10,000 cells
Uniform case: 7,587 triangles
Adapted case: 1,018 triangles

The 2D case created by extracting a 2D slice at Y=50 out of the 3D distribution (see 3D case below) OBS_ALU

Commands to generate meshes :

Uniform : Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/OBS_ALU_Y50.vtk --output OBS_ALU_Y50_me_2_uniform.vtk --min-edge=2 --uniform

Adaptive : Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/OBS_ALU_Y50.vtk --output OBS_ALU_Y50_me_2_wl_1e-1.vtk --min-edge=2 --weight-limit=0.1

NT_140519

Input distribution size : 10,000 cells
Uniform case: 7,587 triangles
Adapted case: 1,038 triangles

The 2D case created by extracting a 2D slice at X=50 out of the 3D distribution (see 3D case below) NT_140519

Commands to generate meshes :

Uniform : Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/NT_140519_50_X.vtk  --output NT_140519_X50_me_2_uniform.vtk --min-edge=2 --uniform

Adaptive : Output Mesh

docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/NT_140519_50_X.vtk  --output NT_140519_X50_me_2_wl_1e-1.vtk --min-edge=2 --weight-limit=0.1

3D Example Meshes

The directory containing the 3D input data is located in the 3D folder of CNF_Data.

@@ Line 14: / Line 14: @@
 Commands to generate meshes :
-'''Uniform :''' [https://odu.box.com/s/zw6s6ynmxezdlqoy80xukiiswbzs0up5 Output Mesh]
+'''Uniform :''' [https://odu.box.com/s/2ktd6ecfueq4zmbjzmpgujf3sxfucp5j Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/Gaussian2.vtk  --output Gaussian_me_10_uniform.vtk --uniform --min-edge=10
 </pre>
-'''Adaptive :''' [https://odu.box.com/s/q5gbm3125mpobyw5lbx8sc8hp5ua2m39 Output Mesh]
+'''Adaptive :''' [https://odu.box.com/s/1omr8szilea3r6fde39w49gu7u5xyui8 Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/Gaussian2.vtk  --output Gaussian_me_10_wl_1e-1.vtk --weight-limit=0.05 --min-edge=10
@@ Line 40: / Line 40: @@
 Commands to generate meshes :
-'''Uniform :''' [https://odu.box.com/s/9jy98r335yv4g3vbaymy2yd0559wzp0d Output Mesh]
+'''Uniform :''' [https://odu.box.com/s/jgqtydxkdf33iji5c125j70xx5mvi7n6 Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/GPDGK16Numerical_140519_X50.vtk --output GPDGK16Numerical_140519_me_2_uniform.vtk --min-edge=2 --uniform
 </pre>
-'''Adaptive :'''(min_edge = 2) [https://odu.box.com/s/sjjekwpdd48wqzhx96klnhca9t7ddeaz Output Mesh]
+'''Adaptive :'''(min_edge = 2) [https://odu.box.com/s/3yp9jod0hcjxipfu81ywk0jrxphonasa Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/GPDGK16Numerical_140519_X50.vtk --output GPDGK16Numerical_140519_me_2_wl_1e-1.vtk --min-edge=2 --weight-limit=0.1
@@ Line 51: / Line 51: @@
-'''Adaptive :'''(min_edge = 0.5) [https://odu.box.com/s/ond4p65nevd7379cv7tnfn45cvjtet1c Output Mesh]
+'''Adaptive :'''(min_edge = 0.5) [https://odu.box.com/s/7zuszll7jn8tt8bpge6vau2tkbatkihz Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/GPDGK16Numerical_140519_X50.vtk --output GPDGK16Numerical_140519_me_0.5_wl_1e-1.vtk --min-edge=0.5 --weight-limit=0.1
@@ Line 73: / Line 73: @@
 Commands to generate meshes :
-'''Uniform :''' [https://odu.box.com/s/5cx48gkm0828hfbdvzebj3h33rdmnkrs Output Mesh]
+'''Uniform :''' [https://odu.box.com/s/irrcuttg0ceogzgnn4x86mgf9eskk1wg Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/OBS_ALU_Y50.vtk --output OBS_ALU_Y50_me_2_uniform.vtk --min-edge=2 --uniform
 </pre>
-'''Adaptive :''' [https://odu.box.com/s/u818ep1rhlsk5r8e2m86923c6ertcdnv Output Mesh]
+'''Adaptive :''' [https://odu.box.com/s/8369kd2q52weqp76811h6p54sax3nj37 Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/OBS_ALU_Y50.vtk --output OBS_ALU_Y50_me_2_wl_1e-1.vtk --min-edge=2 --weight-limit=0.1
@@ Line 98: / Line 98: @@
 Commands to generate meshes :
-'''Uniform :''' [https://odu.box.com/s/g6015fln7g1wsebynrxpejclhr1xctfc Output Mesh]
+'''Uniform :''' [https://odu.box.com/s/87wruxwbks5k9q5wst9d7rx6z4eycwyz Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/NT_140519_50_X.vtk  --output NT_140519_X50_me_2_uniform.vtk --min-edge=2 --uniform
 </pre>
-'''Adaptive :''' [https://odu.box.com/s/2yx5yw20n5h85917hs4rogqqczkfo6uh Output Mesh]
+'''Adaptive :''' [https://odu.box.com/s/oytjqxeque11wvbxu62fhwc3830fbpcy Output Mesh]
 <pre>
 docker run -v $(pwd):/data/ crtc_i2m tessellate2d  --input ./CNF_Data/2D/NT_140519_50_X.vtk  --output NT_140519_X50_me_2_wl_1e-1.vtk --min-edge=2 --weight-limit=0.1

Difference between revisions of "CNF Example Meshes"

Revision as of 14:45, 25 February 2020

Contents

2D Example Meshes

Synthetic Gaussian Data

GPDGK16Numerical_140519

OBS_ALU_Y50

NT_140519

3D Example Meshes

CFF_14052019

GPDGK16Numerical_140519

GPDMMS13_140519

GPDVGG99_140519

NT_140519

OBS_ALU_140519

OBS_CS_140519

CFF_DATA

cff_E.data_IM

cff_E.data_REAL

cff_H.data_IM

cff_H.data_REAL

cff_Ht.data_IM

cff_Ht.data_REAL

DATA_04252019

CFF_E_im

CFF_E_re

CFF_H_im

CFF_H_re

GPD_H_down

GPD_H_up

OBS_ALU

phase_space_000

phase_space_000

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