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1.49k
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18
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|---|---|---|---|---|---|---|---|
C009/0002 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| CC(C)(C)OC(=O)N(C)C1=CC2=C(C=C1)SC3=C2C=CC=C3C4=CC=CN5C4=NC(=CC5=O)N6CCOCC6 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0002_3497a93045f853abd4572eef8a0ab7a3.png"
]
| exact_match | chemistry | en |
C009/0003 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| C[C@@H]1CN(CCN1C2=CC=C(C=C2)O)C(=O)OC(C)(C)C | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0003_84cc5eca39f041e3166937309e4cfa07.png"
]
| exact_match | chemistry | en |
C009/0004 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| COC1=C(C=CC(=C1)OC2CNC2)NC3=NC=C(C(=N3)C4=CN=C5N4C=CC=C5)Cl | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0004_b0b7c742eab62fdccbd31ba74f115096.png"
]
| exact_match | chemistry | en |
C009/0005 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| C1=CN=C(C=C1Cl)NC2=NC=CO2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0005_223e927ef7207075fbfeb2bdca179765.png"
]
| exact_match | chemistry | en |
C009/0006 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| COC(=O)C1=CC2=C(C(=C1)C3CCCN3C4=CC(=CC(=C4)F)F)OC(=CC2=O)N5CCOCC5 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0006_654dd53c9b060b8d8c29e43fc571c209.png"
]
| exact_match | chemistry | en |
C009/0007 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| C[C@H](CNC1=CC=C(C=C1)OCC2=CC=CC=C2)O[Si](C)(C)C(C)(C)C | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0007_c7a9156f8580826c1816b4fad6a51104.png"
]
| exact_match | chemistry | en |
C009/0008 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| CC1=CC(=C(N=C1)NC(=O)OC(C)(C)C)F | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0008_95fb45d51c23bf49e9c1558ad476dbbd.png"
]
| exact_match | chemistry | en |
C009/0009 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| CCOC(=O)C1=CC2=C(C=CC=C2O1)N3CCN(CC3)CC4=CC=CC=C4 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0009_23f1b8d0dc8fd0ec540351d571e018ce.png"
]
| exact_match | chemistry | en |
C009/0010 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| CC1=C(C=CC(=N1)S(=O)(=O)C)NC2=C(C(=NC=N2)OC3CCN(CC3)C(=O)OC(C)C)OC | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0010_cb42358f85f7d26a48836a6970dec9aa.png"
]
| exact_match | chemistry | en |
C009/0011 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| C1CCC(CC1)NC(=O)C2=CN=C(C=C2)NC3=CC=C(C=C3)C#N | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0011_f604c0ac3047ae78bb235451d77dfa42.png"
]
| exact_match | chemistry | en |
C009/0012 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| C1=CC=C(C=C1)CNC2=CC(=NC=C2)NC3=CC=CC=C3 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0012_fdbdda44ee31d44386701bdd6fc5873f.png"
]
| exact_match | chemistry | en |
C009/0013 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| CC1=C(C=C(C=C1)NC2=NC3=C(C=NN3C(=C2)NC4=NN(C=C4)C)C#N)NC(=O)C | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0013_963ccb845b14a99d74e834b2f799ed85.png"
]
| exact_match | chemistry | en |
C009/0014 | Generate the SMILES representation of the most likely product based on the given reactant structure <image>. The image only contains reactants, excluding catalysts, reagents, or solvents. | []
| CCOC(=O)C1CCN(CC1)C2=CN=C(C=C2C)Cl | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C009_0014_adb1180093614202e215ce6ffa37b5c0.png"
]
| exact_match | chemistry | en |
C030/0001 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_target_1_b0466cc9980faba8720db352333323ec.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_target_2_6420a310fa63d617776ffa48b021f27b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_target_3_1768dfa90b1a6f88dbadbd3e950fae32.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_active_001_043b2d520c1f2f857b13ca1894effa4f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_active_002_6470e5f88fce230a98150c447cadbb5b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_active_003_a4863eae26cc6c3ede41f39524e0e2ae.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_active_004_3b1dfe7b4a9180a0a8025e05015073e6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_active_005_dc59d6547e71cc8b7ab24ec921fad6b0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_001_d85f32f0382f5afd3e58b7ebec1ec722.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_002_7e6a7f492546c2de44474a54b91beba3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_003_8a2aa82452b9ab1f3128749b12037852.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_004_c4607d686048c156a675c1bad5d26376.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_005_883c44e4fc70c353b8786a89771a4b6b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_006_4be222f27c5a2ca80081278039defa81.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_007_0d7beec71541520aade2eb67dc934f06.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_008_f83f8e9a9ddf725f524031988eb2388a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_009_f16aa22af960481f426deb0dc2c34001.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/abl1_abl1_inactive_010_84be13d4bb40c3dd4f5a7b83b84a6ace.png"
]
| mcq | chemistry | en |
C030/0002 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_target_1_21f95052d47b93a0c50ef6e1bfb84cdb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_target_2_1b0b1c6ce9ae1e7e16d7ba757bbd46ba.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_target_3_1d92f9f9556ecb08951bdfc7bbfcd6cc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_active_001_cacc25ff38d6d61df7ca6eb4a361da38.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_active_002_347a45db74b5200d7ed04d4c756b5693.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_active_003_54f3d30769659100f23f7cfacba42f84.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_active_004_df5fe4d9a1b956ae1a46fd6fb8ebaf27.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_active_005_55cf63a226833a6f5bd0630971016b6b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_001_539aab359e0c49105df9e755a293b531.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_002_1fdf0ca6558508395f436384e3031b06.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_003_d52fa6578cd180e53d9b44852fbc6fe9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_004_734d62d3a01c8e16d4bc2859b6183013.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_005_4f0dfbdfdd715a5064f33967bf05e9bd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_006_0de764e02dde8308eac7f43f1ba3a2f1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_007_a7b3966a12ecddd5f1cf93fe8c576998.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_008_47f3229f00b4f1ac3f965e3b0440e163.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_009_77bfa6a59980206119db3423350348a6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada_ada_inactive_010_d7959d6439a0e5b3a72b4df2ff28795f.png"
]
| mcq | chemistry | en |
C030/0003 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_target_1_3d79ae52824f882a4b544b831a91b0d2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_target_2_a0d747e899552a52a137d802dc8049fb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_target_3_7abe35ad4df1bcbd2e72d6898b4c8de5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_active_001_c6dcb2228b1e501ee2567f614904a335.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_active_002_6c1400efec14c92eb1fffe68f058e87f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_active_003_ce14a078cdb85054b2bd3f78fd54a014.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_active_004_cd8d8017ef53a56fa8faccba92db02d6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_active_005_58e0a0242cc9587fdf242acdf67e45c3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_001_dc7beb2492e76fc16ec0daa571ae181f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_002_b3e4c11d0c5023470f7a5a356bb4795f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_003_e1650a45e743e4bf08bc23a7d64547d4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_004_b23bf363c4e53f824854efb91418c82e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_005_a278dd80fb2bb5e6c9b26eeba23986e9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_006_589d0eb1bccf5fae6caebd60ca7bceb1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_007_9e97338abe8b750c16dfe943d7eeb68a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_008_4cf84fed7932fb1821c56db41105b406.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_009_9795b6a725a4c894bb4aaf2a57e73efc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ital_ital_inactive_010_8abafcb2ea6ea91ca69911a05e3d1ab5.png"
]
| mcq | chemistry | en |
C030/0004 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_target_1_17daad6678cfd892218eb5f2e3a2c49d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_target_2_88cca606878fa0d07f400688339c642a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_target_3_03fd5aaaa61eb157fa93d560df473288.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_active_001_e6b7bb582bb1138311761368d6ad28bd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_active_002_c52d6a08d85554959325077cdc39e630.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_active_003_264d406bdb9de6d8fd553231a83ba96d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_active_004_21dd2eb9ad9fcec21dc14d78d34c755c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_active_005_72d9fb383124db3a514dcae318d22ec7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_001_621d22bbd48c36d2744d03bf5907aeaa.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_002_60a2cad2ceeac07dd92d080040961619.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_003_9baa99d5481e11c5fc30f0cc57aee52e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_004_b6632178fe98fbb3b005fc468e35aa8c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_005_85b73f3451b9eff2e2938b53cf3c634c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_006_049dda0821bdc0a735335f458aa30169.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_007_e7f264ef6ae20c8037681fa326026d7b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_008_2f8b68803428d44b74ae28b2a50f8c74.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_009_fa79dd9bd9323df2268d321c0a35ea91.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pde5a_pde5a_inactive_010_3859612aac15a217d97cff5677ab7259.png"
]
| mcq | chemistry | en |
C030/0005 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_target_1_613281837bb3b9413cd6b93fb400b3c6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_target_2_aa81c5b1360c4c2e685681c580b4cce0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_target_3_d1af0da6b6aae44dcb114ab706ca91d6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_active_001_d509ff974738be5b9bbe23f8d9ba7508.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_active_002_7f481361c5568fbbd340cca14f4148d1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_active_003_a3511db138caa4ee7976f19d48651de5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_active_004_f79b6e8fc70f3251fc90ff0f69d28b26.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_active_005_931f53c3109747d76673d54551d83183.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_001_594e49c6f6486c2c837edc576f04334d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_002_cf6339b7dae159b30f7aa69bdee03b9c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_003_ef7b038dd020a2203725e0505d84012a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_004_288226472989bc03ff9578326e7e2855.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_005_af44c66f764c64ab1b3d1f722c5506dd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_006_5d1750de589c7a38715bc862896665da.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_007_45376bc17e025bd697d270d65c7f8026.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_008_fbfd181449d614b018283337c7800f4e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_009_a58c2493f35e8ec7e4da974b8ae3796a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/sahh_sahh_inactive_010_a130946642acaeb4447a101cd75e688d.png"
]
| mcq | chemistry | en |
C030/0006 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_target_1_042492221be30c2e123a2f7476a2543b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_target_2_b3aa2adf8b524671d9e5933d30186e8e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_target_3_3f3dd13d9c1daac0878de1cb9cba8dda.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_active_001_035d04870519878efb9a1cdb45ded4cd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_active_002_101c1ab6e0729f9610e55091e43a2359.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_active_003_fa4017c5884d0499827ae3bcde08c9b4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_active_004_f68b32897f86bc5e02664d0a8ee28f87.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_active_005_84b93b8805e8f6cc91bd1b45380acc4b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_001_786792dc6fa06e05f8e11e657b2168ff.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_002_28da3057b40fcbd19aef19344e3eaf67.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_003_834785a3666013ecef8e8c64bc96e318.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_004_0e27c1d461547371483d46308bb0cfce.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_005_b07394a1b511b57da96f5a6952d713a9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_006_1ce9491ee0f14134d03fb5c49486fa35.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_007_25e632af321f99746af47fa015ec1de9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_008_b5089d42bf0bf8103c8e8b315d7d70d3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_009_0a40ba8275708b51d68d00a3c043b60c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/pygm_pygm_inactive_010_757948165a4fa2a2d3ba11b7953f9e7a.png"
]
| mcq | chemistry | en |
C030/0007 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_target_1_797e3f9e4d3736fdfa0d1278c820b841.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_target_2_3b3c50463bfd9588a105204ab88c6cba.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_target_3_fae20d15c3cecd9444c5c3629c4bccaf.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_active_001_9287f0e1d47c455a23d3a4ed9a971672.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_active_002_3fd127005ab6f20d392a2dde440d5944.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_active_003_f49c88841b7b59a452b60b86a63f872f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_active_004_6bf15ea8cc16938e62b360a5b3599b23.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_active_005_7df56008cd51c57e03590abb9dfdc70b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_001_c0de5322a2cd110f1711809089c733b1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_002_8e61a3c77c4b7b718078b860619a4906.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_003_6fa2fcacac2469d8ff7e356426c5ccde.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_004_7f1f420e96e433974e91eadc94a1e224.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_005_dd3d73ddb96c16a40a5d88fe38eb02fa.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_006_ab138b534438fed3ccedc6a28158807a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_007_721348d48018bedb7f102e5a35ad1ce8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_008_e6fdf964b745170bcfa4a2d89a467d20.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_009_2a5554a66ce2f6f3c6ade8100d97e8b5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/nram_nram_inactive_010_f4d5b73ea4e7baa666941a9410ad5d85.png"
]
| mcq | chemistry | en |
C030/0008 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_target_1_924e68e7448dfc5cb411aeb48527aa93.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_target_2_8e68f5402d9b53a9f289272026566940.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_target_3_23855c1e6be48ae92d0e73a3853946d8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_active_001_d54d598be782cc8cd322fd9c5e16da95.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_active_002_964866451287d33540e5ef28661a0a27.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_active_003_51f91e4e3c0a8bc96075bd1c1f69a3d4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_active_004_c53776b97c67451ce54d67b6cc4bd45e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_active_005_48556e9409ce5bce25ac680b41b3d64a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_001_ddd93c0b63a6df096d56c93fcee720f6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_002_bd22230cc658094d85a5811bc6512b11.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_003_1f102d08cdec5e63fff0556f5644bf20.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_004_7f4c70da6e2a44cce0b0e5caae2a8fde.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_005_b00647d6d606ca44a0ad5ee71ee1f2de.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_006_de1f4a7471f15442a240fc3440fc5f36.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_007_1a1788486c0dc311216e5de08bb2b83d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_008_131f39d8f7d29a526e8034e9f74e7721.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_009_fddee30f9afe5dd6ebe821e10e00a578.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/hivint_hivint_inactive_010_386af7e70abccb8de61ea05b693e2e0f.png"
]
| mcq | chemistry | en |
C030/0009 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_target_1_4a60ea7a02a2edf09a7754ff95bb798e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_target_2_cc676bc9f53ad7f529cd509bf290acd7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_target_3_e632c8709512e6143e6df2e62bffefa7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_active_001_54e68b4d87d0a933c85b250898e616bd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_active_002_d1db10fb79dc9bf184dd6235ee22b786.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_active_003_94d1fb88f665367ca5c419e3044e9a42.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_active_004_98d700cb0031007529fc284092dce8e7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_active_005_a4cbeef6212eeb505fe5b1f307ce927c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_001_7a7edb21f7204c620fc5f1eacaac5ae0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_002_371272ae2d7fe17156f9b306ce051109.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_003_3730c25b1dd6ef79b6c1613808507e2f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_004_7572015109e0f087543b58a7c25dc30d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_005_5484ed8e8b69e87b1816a8752b66398d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_006_1f3e06690f9cf44d5161826bb00b0ff0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_007_4d0843f0324e1aeaa55b44b864fd3112.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_008_e23c0f664b45f3aeac827929fb9efa02.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_009_08a3d324b5b934a30ce6462f13516b2e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fak1_fak1_inactive_010_3bdb27fdecfbd1ad00d338baab9da142.png"
]
| mcq | chemistry | en |
C030/0010 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_target_1_059df617d0feb440464d7afcd8602da8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_target_2_eec219c33de07322a890918283683d18.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_target_3_650b009f35eb11d062f0cd72032d4a15.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_active_001_ca413651df877e7933c18e9d3a162bd6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_active_002_0a56fb92e0ab8c6c62d2eda76d091be8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_active_003_a7e27eb33b9a95c4f04993636970ebf9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_active_004_0433f182e701ca2e6ac26ce28e2fce3a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_active_005_78835ad6ab002e801e6048eede34873f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_001_7354c1c8190f608241bd0a6e8f70b535.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_002_e8dbfd383f88ff10dc4a36ccc81612b6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_003_f1882e62bcedeb309e82dbcd2933cfa6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_004_bbbf34a1328e3f8c6c7dcf3d8eeaf412.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_005_cdc60a8b14eba201700f9abd1e5a70ca.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_006_f4e424399a896c0006e07b5863771168.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_007_5001ca4da4c77e302fc80a96a70dedbb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_008_215601fe1f2989cac64d0e9ce1eb3df1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_009_032c5ad523de35a4de885d3e58815982.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/casp3_casp3_inactive_010_9e827dc3c87529c48e55d10c9c802acf.png"
]
| mcq | chemistry | en |
C030/0011 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_target_1_40a9519804005f256b38b581ed6ecf15.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_target_2_a14a8d60fade099a61c3d7ee4e1749a0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_target_3_c74e28f6ced4bc878e72b4c085be0df4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_active_001_2b3355bc218148f73356cb84c926d484.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_active_002_e58449fcda006932036efe68de27c6ab.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_active_003_3b6a2318edeea6fb240f0263bf0495f2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_active_004_06ef46d1b802e7af93eeca6128396062.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_active_005_7618d833b07a22a65d86512560022ca0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_001_adbeef1479136ca3de9946235ca878cc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_002_2a2f7d3337ddc2699cd12626da8841b9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_003_f8ff15bf7dc6ab8ecdce472e2c2c3eb1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_004_59f669c128d9c51a8fb523feb24e0656.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_005_275e5d18abf43a46f70058b656d13302.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_006_9fe0bd448632905b07b7f82cd2f57768.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_007_40188edcd187bf4cd6668a4debed86ca.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_008_13e82473e8cb52cd774fa2403bdf5397.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_009_8e34e520b93ebb7f0625d8b69190eec3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/egfr_egfr_inactive_010_4076378930912dc474d7db82f9e71412.png"
]
| mcq | chemistry | en |
C030/0012 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_target_1_1c6a2f3c6bbc3e696ba917f5ac5b801f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_target_2_e321a9405416596b5556aadedfeab6ea.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_target_3_1193906a5329c975b2c6067e8dc3f8ba.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_active_001_9a6c53a3760abeee9e99ec5020605a0b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_active_002_d57ced7d51d320370d5462d77195f6b0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_active_003_c64bafe792a633a17657d4776edd4e33.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_active_004_166b9e86bbf83c4a24325c06b1e00ca2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_active_005_6d825f838dbe62a7a225cbfd8d8dabdc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_001_4181fdb5c13f681ace7ac7117d743971.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_002_9ad1e7862941a268e84abb0b136743b9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_003_eb4328be741797a7cb943b519995a8d6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_004_444a99b869a5b8328ab83a9ea684e98e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_005_8e5a8f04f71d966347c985b6289fbf08.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_006_1a621d80d132b488798aefaad6022aa3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_007_b5a8f89a6f77abe3f32aa3cb55ddf045.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_008_f4783bedd5d17479183fe2cd8038a533.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_009_f5ea865aba6178eeabe75bb9cdb44da5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/bace1_bace1_inactive_010_014bfbb8071e578c44bb1c7a7892bbcf.png"
]
| mcq | chemistry | en |
C030/0013 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_target_1_fde448d0e03f5245dca3300b493ea76d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_target_2_e2953f44c1c5c0d7ddec9558a8ce58f4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_target_3_3083099f8070e2dcfe1fb0c680fbf9fc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_active_001_d76c296d3874434294a7290ebecd55f0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_active_002_e7dd95eeb270e5fb26ba902c3266bd1b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_active_003_7d19bb85e3169337ce74af9b8910c648.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_active_004_281f31a1948ca220f340cc71033c0d3b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_active_005_d773055a81d2972bfe47cd81d93ef1e3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_001_56fc029a9f0bf7732f393819bc135ad8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_002_cc22923cfd9a5fe88f0be62c802fa446.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_003_cd348eb5f897aecf6d464effded57889.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_004_92c95aec64301f49333c1055d17633fd.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_005_0004a762d5064d678860c5fdb72c845e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_006_6d9c4bc694a07d48f24456ae098995f6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_007_b3ff985e0d457d67ca63dde23ec2c59b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_008_da484282f8208f7c7ff0d0218f729b10.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_009_b82337d49a3d53eaf1800fc9fb95fdb8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/fnta_fnta_inactive_010_299ca246cda2e6f6d48610865500055e.png"
]
| mcq | chemistry | en |
C030/0014 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_target_1_eb5fc9cfb81e9085867ef1f2267a91f5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_target_2_8d226b8dbc2876a9adbe01a8372e1473.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_target_3_da8a7abfd7d47eccb6236ce52477bf16.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_active_001_86e3d1a9cbf6c7b4dc16c569567ea0ac.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_active_002_6305c1a8f7c3b6ce1f17a3f42e3be3ec.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_active_003_c8d7b8cfe3484bef99f1d500f22b4437.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_active_004_a5a9ec6f8c9168d4bb6fa22272ac7853.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_active_005_629350e43464a8971f0eccdc2187b0d1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_001_47e9ac774142b6cbbf3c1cc0174f1525.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_002_0636d261017f4f3e9220cda7d99156c9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_003_619b693ddcd0e41f9a9bf1406b055cf5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_004_1db7f4adaf862379bbbc0485d6a6d31e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_005_00a1bd7e6e46cd126300af7b77b7760d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_006_751a77c2970070e407f0ae747fd3da76.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_007_fa876253ea9aa650288ae7444f135343.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_008_e3ceee3414a5f9dc071a5bb3c39b09f7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_009_d9942891068c44f62c5e2cfff17f5d22.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/cah2_cah2_inactive_010_ad260226a4cff1f520356230aa9de4d4.png"
]
| mcq | chemistry | en |
C030/0015 | This is a multiple-choice question with one or more correct answers. Based on the target structure <image><image><image>, select all molecules that can bind to it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>",
"(H) <image>",
"(I) <image>",
"(J) <image>",
"(K) <image>",
"(L) <image>",
"(M) <image>",
"(N) <image>",
"(O) <image>"
]
| ['A', 'B', 'C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_target_1_9e8695e103c427afe5fca255d22c8527.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_target_2_a0a3db7932436e3a05c6e1ddff264183.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_target_3_d8d4f0fd5175420ff888ab43c25a988f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_active_001_35c991011944b2419b331b3550c985ab.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_active_002_7904c95365070ae53b6cdaf09e2f811b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_active_003_53a24fcb5a36c3b4677e7d78177fc4b0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_active_004_d013d2ed1d9e3cd19e11153f5f3f2ee3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_active_005_733eb34b31d6195ca324a818db0dcd8c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_001_a236dedc879a5750ae4a4b552f24f02c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_002_0c08d7477665ed32eaabf876e5904376.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_003_9862b4cdd442ac0ffeb82875a5fd0f17.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_004_0043b967d6e605952cf161e8ef6d6f8b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_005_50411671c632c57f692dee17857a06b0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_006_3b45f28423721cffe6f08dac02756404.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_007_aa0cc734e0fd9ee510486b3e17324c3d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_008_11d2e0a5005d8025f46ab89dd2eff2a6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_009_5f933000df6cfdc555197358e60895ca.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/ada17_ada17_inactive_010_231f1d72596a6a51e82f0c52e674f8b9.png"
]
| mcq | chemistry | en |
C005/0000 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 99.0, 'XLogP': 1.5, 'Hydrogen Bond Donor Count': 0.0, 'Hydrogen Bond Acceptor Count': 0.0, 'Rotatable Bond Count': 1.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0000_e80bb41e8442fd48c943efa1b5c2978a.png"
]
| exact_match | chemistry | en |
C005/0001 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 180.2, 'XLogP': 1.2, 'Hydrogen Bond Donor Count': 1.0, 'Hydrogen Bond Acceptor Count': 4.0, 'Rotatable Bond Count': 3.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0001_3f4b59cb1772d7d754fcf35abbd5878b.png"
]
| exact_match | chemistry | en |
C005/0002 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 206.3, 'XLogP': 3.5, 'Hydrogen Bond Donor Count': 1.0, 'Hydrogen Bond Acceptor Count': 2.0, 'Rotatable Bond Count': 4.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0002_6970b55dcb2f8b3457f07b09fba2abb2.png"
]
| exact_match | chemistry | en |
C005/0003 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 102.2, 'XLogP': 0.4, 'Hydrogen Bond Donor Count': 0.0, 'Hydrogen Bond Acceptor Count': 2.0, 'Rotatable Bond Count': 2.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0003_3e0964f66d2fadc519bf6ca25182464e.png"
]
| exact_match | chemistry | en |
C005/0004 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 18.0, 'XLogP': -0.5, 'Hydrogen Bond Donor Count': 1.0, 'Hydrogen Bond Acceptor Count': 1.0, 'Rotatable Bond Count': 0.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0004_901c0512a40fa48be8646850dd026d69.png"
]
| exact_match | chemistry | en |
C005/0005 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 176.1, 'XLogP': -1.6, 'Hydrogen Bond Donor Count': 4.0, 'Hydrogen Bond Acceptor Count': 6.0, 'Rotatable Bond Count': 2.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0005_2c99309e4021f515101d552d6abd47d7.png"
]
| exact_match | chemistry | en |
C005/0006 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 151.2, 'XLogP': 0.5, 'Hydrogen Bond Donor Count': 2.0, 'Hydrogen Bond Acceptor Count': 2.0, 'Rotatable Bond Count': 1.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0006_c99dbf085ce5de7ea3936dacdc9323bc.png"
]
| exact_match | chemistry | en |
C005/0007 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 285.3, 'XLogP': 0.8, 'Hydrogen Bond Donor Count': 2.0, 'Hydrogen Bond Acceptor Count': 4.0, 'Rotatable Bond Count': 0.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0007_75763796c5840ad5867b56ca97563d87.png"
]
| exact_match | chemistry | en |
C005/0008 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 914.2, 'XLogP': 6.0, 'Hydrogen Bond Donor Count': 3.0, 'Hydrogen Bond Acceptor Count': 13.0, 'Rotatable Bond Count': 6.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0008_95e25d7a4c7e0bbbe16cb038a6591477.png"
]
| exact_match | chemistry | en |
C005/0009 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 518.7, 'XLogP': -0.7, 'Hydrogen Bond Donor Count': 7.0, 'Hydrogen Bond Acceptor Count': 10.0, 'Rotatable Bond Count': 11.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0009_3165cfeaca24fa54f61d8a43cb277f17.png"
]
| exact_match | chemistry | en |
C005/0010 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 46.1, 'XLogP': -0.1, 'Hydrogen Bond Donor Count': 1.0, 'Hydrogen Bond Acceptor Count': 1.0, 'Rotatable Bond Count': 0.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0010_145d85b3069e5cbb275fd8a27a853b8d.png"
]
| exact_match | chemistry | en |
C005/0011 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 176.1, 'XLogP': -1.6, 'Hydrogen Bond Donor Count': 4.0, 'Hydrogen Bond Acceptor Count': 6.0, 'Rotatable Bond Count': 2.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0011_c2f0a85d1824fa419422504b98f7f2eb.png"
]
| exact_match | chemistry | en |
C005/0012 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 354.3, 'XLogP': 0.2, 'Hydrogen Bond Donor Count': 1.0, 'Hydrogen Bond Acceptor Count': 6.0, 'Rotatable Bond Count': 2.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0012_0c6181dc75cece5ef87f86975c72270e.png"
]
| exact_match | chemistry | en |
C005/0013 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 877.2, 'XLogP': 15.3, 'Hydrogen Bond Donor Count': 1.0, 'Hydrogen Bond Acceptor Count': 8.0, 'Rotatable Bond Count': 45.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0013_ea96bef954cb9f6f076d1ee396dede1b.png"
]
| exact_match | chemistry | en |
C005/0014 | From the molecular structure <image>, calculate the five Lipinski rule indicators with values rounded to one decimal place: molecular weight, LogP, number of hydrogen bond donors, number of hydrogen bond acceptors, and number of rotatable bonds. Please output as a JSON dict with these exact keys (no units):
{
"Molecular Weight": ,
"XLogP": ,
"Hydrogen Bond Donor Count": ,
"Hydrogen Bond Acceptor Count": ,
"Rotatable Bond Count":
} | []
| {'Molecular Weight': 130.2, 'XLogP': 1.1, 'Hydrogen Bond Donor Count': 0.0, 'Hydrogen Bond Acceptor Count': 2.0, 'Rotatable Bond Count': 0.0} | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/C005_0014_bdc061ac2cdb6769bd9ff8db069bcf39.png"
]
| exact_match | chemistry | en |
E018/0000 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| The forecast sequence exhibits a rapid weakening of intensity, with an overall trend of strengthening first and then weakening, while the observed sequence maintains a relatively steady intensity. Small scattered echoes are not captured in the forecast sequence. Additionally, the convective systems in the observed sequence show a southeastward movement, whereas the forecasted systems remain largely stationary. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_94deb6a1676846d2e8dd929e4a25a0ad.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_be31ab540439ad507a681a0df19b61a5.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_175719d90fa497c6f1819bddc43b63f0.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_58a43e3ef63d8419e2a5efdf9b7692c8.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_0b11742403b08f5e0815fab08349d811.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ef139eb20c223d78f3784ccb97009235.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_5540e0990c386a5b95a99c727d3c6434.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_508a7f64765aee8248163729830548e2.h5-395-0"
]
| open_ended | earth | en |
E018/0001 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| The overall development of convective systems is generally consistent between the forecast and observed sequences. In the northern region, some strong radar echoes weaken in the forecast sequence. Additionally, the main southwest-northeast oriented echo structure appears overly simplified in the forecast. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_94deb6a1676846d2e8dd929e4a25a0ad.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_be31ab540439ad507a681a0df19b61a5.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_175719d90fa497c6f1819bddc43b63f0.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_58a43e3ef63d8419e2a5efdf9b7692c8.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_49f268df42c242a63bdf1cb2fc99dda1.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_92a94bf9aa64b22bcceb838a68b49899.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_70f127598e5c432187ae15fedadfabca.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_8fd848a132a14963263dd276134bab9b.h5-395-0"
]
| open_ended | earth | en |
E018/0002 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| In the mid-to-late stages, the forecast sequence shows almost no identifiable convective structures, with the overall pattern overly simplified. The two main blocky echoes in the northern region of the observed sequence appear as a single, larger sheet-like echo in the forecast. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_94deb6a1676846d2e8dd929e4a25a0ad.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_be31ab540439ad507a681a0df19b61a5.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_175719d90fa497c6f1819bddc43b63f0.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_58a43e3ef63d8419e2a5efdf9b7692c8.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_566e1dd63599ef44a86caf5d70a205f6.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_c7acc2f234afc5e15526fa10de464ec7.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_18be7fc117935de3444b4ff6e5db3523.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_5f1b95615663207530cbc341324ebbf3.h5-395-0"
]
| open_ended | earth | en |
E018/0003 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| In the northern region, the forecast sequence shows a rapid weakening of intensity, while the coverage area in the eastern region changes more quickly compared to the observation. In the later stages of evolution, extreme rain observed in parts of the central and northern regions is not captured in the forecast sequence. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_94deb6a1676846d2e8dd929e4a25a0ad.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_be31ab540439ad507a681a0df19b61a5.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_175719d90fa497c6f1819bddc43b63f0.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_58a43e3ef63d8419e2a5efdf9b7692c8.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e6f17eae09dc92d6aeaffaa1f5014c44.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_6ee1d41008ef9f9fc99578b3b16327bc.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_10573eef148a4c05563adda99de21757.h5-395-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_dfd2b6ec0cd4b6d32379b62be1ab6c87.h5-395-0"
]
| open_ended | earth | en |
E018/0004 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| Near the central horizontal axis, the southwest–northeast oriented banded extension is not clearly depicted in the forecast sequence. In the observed sequence, multiple nascent convective cells develop in the central region, along with the evolution of three main banded echo structures, whereas the forecast sequence shows only a single, large sheet-like echo. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e25cfd2f8be4666a5bd3817447cb641c.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_584f91916e0a0df5b167f7a1b0f6fb5b.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ac0811231704e8c2e83464a06ed42989.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9746cf0c2b7734196190608f291e5c06.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_EarthFormer_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_b8ddefb994a502b2f911692fcc0df3bc.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_EarthFormer_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_f48b8afb65a766bc76714ef87958a857.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_EarthFormer_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_685302e9b586b3761f32ba9dd39cb8cf.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_EarthFormer_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_a6818b285d7ab8d4e7e781d77e438277.h5-396-0"
]
| open_ended | earth | en |
E018/0005 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| The forecast sequence shows overall weaker intensity, with slower expansion of the main banded echo in the central region. In the observation, two banded echoes in the eastern region undergo splitting, whereas no distinct banded structures are present in the forecast. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e25cfd2f8be4666a5bd3817447cb641c.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_584f91916e0a0df5b167f7a1b0f6fb5b.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ac0811231704e8c2e83464a06ed42989.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9746cf0c2b7734196190608f291e5c06.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_PredRNN_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_72f52afcbdb84b9f7e075593efe1270d.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_PredRNN_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_32b9bbbaf8ba4d2781dc270847ea61bc.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_PredRNN_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ff12394a96296f41996a33af09679d6d.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_PredRNN_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_41d6197592fa1fa5e0ec62277d2fdc1b.h5-396-0"
]
| open_ended | earth | en |
E018/0006 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| The overall convective development processes and intensities are generally consistent between the observed and forecast sequences. However, during the splitting of the two banded echoes in the eastern region, the forecast sequence exhibits a blocky echo structure rather than maintaining the banded characteristics. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e25cfd2f8be4666a5bd3817447cb641c.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_584f91916e0a0df5b167f7a1b0f6fb5b.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ac0811231704e8c2e83464a06ed42989.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9746cf0c2b7734196190608f291e5c06.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_cascast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_7f1baacb7f0be23f43f70877a6dd5cf5.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_cascast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_8d3e2b2606d9779110fd1bec160cd4be.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_cascast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9a2ea880695021cfc5805905af41f2e3.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_cascast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_514bdc8739d4a566fad4d3852ebef5a8.h5-396-0"
]
| open_ended | earth | en |
E018/0007 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| During the development, the forecast sequence undergoes large-scale intensity weakening, resembling an incomplete convective dissipation process. In contrast, the observed sequence features numerous convective initiations, splitting, and intensification, representing an active convective development process. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e25cfd2f8be4666a5bd3817447cb641c.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_584f91916e0a0df5b167f7a1b0f6fb5b.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ac0811231704e8c2e83464a06ed42989.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9746cf0c2b7734196190608f291e5c06.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_6a91d98c0d908ccad4d44ff31b6765f6.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_a28c747993bf42941fd8a82d89866be3.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_58994e7259775d67c46e478789cfd6a1.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_dgmr_generator_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_a405a3e8376f17a4c09e06d9ba1b64d1.h5-396-0"
]
| open_ended | earth | en |
E018/0008 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| The main banded echo in the observed sequence shows clear extension, whereas no such extension is evident in the forecast sequence. Meanwhile, the two differentiated banded structures in the eastern region appear as scattered echoes in the forecast. Overall, the echo intensities are generally consistent between the two sequences. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e25cfd2f8be4666a5bd3817447cb641c.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_584f91916e0a0df5b167f7a1b0f6fb5b.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ac0811231704e8c2e83464a06ed42989.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9746cf0c2b7734196190608f291e5c06.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_0689d60410eb8608ebd3f7ee7e8893c8.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_4c1f055adee67926b32953883621c179.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_f2bc5ac6d24bdee8618dd35ef4ba6cf8.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_diffcast_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_749d446ef1b4085299759dc45d27ba09.h5-396-0"
]
| open_ended | earth | en |
E018/0009 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| The observed sequence shows the initiation of multiple scattered echoes, whereas the forecast sequence features the development of a single large sheet-like echo. Additionally, the two banded echoes in the eastern region of the observed sequence are represented in the forecast as a small scattered echo and a slightly larger blocky echo. Overall, the echo structure in the forecast sequence is overly simplified. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e25cfd2f8be4666a5bd3817447cb641c.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_584f91916e0a0df5b167f7a1b0f6fb5b.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ac0811231704e8c2e83464a06ed42989.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9746cf0c2b7734196190608f291e5c06.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_db90ee5b9419a64b53dd0ef744f89c65.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_7b5256b7f8f359c0eef9dee748890d8d.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_999595ee2626eceec2f3a11f3292f82f.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_incepu_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_c3c3abf31d6b357f802c6215090ea223.h5-396-0"
]
| open_ended | earth | en |
E018/0010 | <image> <image> <image> <image> <image> <image> <image> <image> The first 4 images illustrates the observed radar reflectivity sequence, and the lst 4 images presents the forecasted sequence. The variable visualized in both sequences is the Vertical Integrated Liquid (VIL), which represents the total amount of liquid water contained in a vertical column of the atmosphere. value between 0 and 16 indicates high probability of a sunny weather;value between 16 and 74 indicates high probability of light rain;value between 74 and 133 indicates high probability of moderate rain;value between 133 and 160 indicates high probability of heavy rain;value between 160 and 181 indicates high probability of very heavy rain;value between 181 and 219 indicates high probability of intense rain;value above 219 indicates high probability of extreme rain.Please highlight the major discrepancies between the forecasted and observed fields. | []
| The observed sequence shows the initiation of multiple scattered echoes, whereas the forecast sequence features the development of a single large sheet-like echo. Additionally, the two banded echoes in the eastern region of the observed sequence are represented in the forecast as a small scattered echo and a slightly larger blocky echo. Overall, the echo structure in the forecast sequence is overly simplified. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_e25cfd2f8be4666a5bd3817447cb641c.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_584f91916e0a0df5b167f7a1b0f6fb5b.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_ac0811231704e8c2e83464a06ed42989.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_gt_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_9746cf0c2b7734196190608f291e5c06.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_b86c2c64b7618cfa73134055e38e1d0e.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_aebbc6b912ba3d0a02c72197a0220706.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_a0096b0faf36f982c53bda390a5cdb91.h5-396-0",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E018_dataset_nowcastnet_evo_vil-2019-SEVIR_VIL_STORMEVENTS_2019_0701_1231_dfceb9024b2dcd849b1a8e501fe6c148.h5-396-0"
]
| open_ended | earth | en |
E004/0000 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Southeast coastal region in China",
"(B) The southern waters of japan",
"(C) Southern Philippines",
"(D) West coast of India",
"(E) Hainan Island",
"(F) Southern Thailand",
"(G) Korea",
"(H) North China region"
]
| ['A', 'B', 'D', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230904_65038e754c4def43ec5975843e48c5e7.png"
]
| mcq | earth | en |
E004/0001 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Western Cambodia",
"(B) Southeast coastal region in China",
"(C) Western China ",
"(D) Southern China",
"(E) Southern Philippines",
"(F) Taiwan Island",
"(G) Western Malaysia",
"(H) Northern Philippines"
]
| ['A', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230111_4b6e2ec208fa17fb901ce5792427dd1b.png"
]
| mcq | earth | en |
E004/0002 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Southeastern China",
"(B) Southeastern Sri Lanka",
"(C) Northern Malaysia",
"(D) Western Pacific",
"(E) Pamirs",
"(F) Southern Cambodia",
"(G) Taiwan Island",
"(H)Eastern Malaysia"
]
| ['B', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230220_1c6cfd5ca7bfce9c12bb689c14c398a3.png"
]
| mcq | earth | en |
E004/0003 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Hunan Province",
"(B) Eastern India",
"(C) Eastern Philippines",
"(D) Taiwan Island",
"(E) Southern Malaysia",
"(F) Maldives",
"(G) Henan Province",
"(H) Southern Sri Lanka"
]
| ['A', 'E', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230316_b7f5d4084c8f949bb8e69ee495f3779a.png"
]
| mcq | earth | en |
E004/0004 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Central Japan",
"(B) Southeastern Philippines",
"(C) Southwestern Sri Lanka",
"(D) Southern Malaysia",
"(E) Southeastern Taiwan Island",
"(F) East Russia",
"(G) Pamirs",
"(H) Thailand"
]
| ['C', 'D', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230426_ed1c492369becfbd4b12746252699de0.png"
]
| mcq | earth | en |
E004/0005 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Pamirs",
"(B) Sichuan Province",
"(C) Southeastern Taiwan Island",
"(D) Mongolia",
"(E) Southern India",
"(F) Soutern Thailand",
"(G) Eastern Malaysia",
"(H) Eastern Russia"
]
| ['A', 'B', 'C'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230531_ec7458d90fb71233ffb15cd8a32294ed.png"
]
| mcq | earth | en |
E004/0006 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Southern China",
"(B) Northern Philippines",
"(C) Thailand",
"(D) Northern India",
"(E) Southern Japan",
"(F) Western Indonesia",
"(G) Malaysia",
"(H) Mongolia"
]
| ['A', 'D', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230623_e11819c1f832ee63f6964740bcf0ff58.png"
]
| mcq | earth | en |
E004/0007 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Western India",
"(B) Western Malaysia",
"(C) Korea",
"(D) Northern Mongolia",
"(E) Napal",
"(F) Northeastern China",
"(G) Southern Philippines",
"(H) Thailand"
]
| ['A', 'C', 'D', 'E', 'F', 'G'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230704_766caff9887ed4b13e5afae6e10a58a6.png"
]
| mcq | earth | en |
E004/0008 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Heilongjiang Province",
"(B) the Himalayas",
"(C) Burma",
"(D) Laos",
"(E) the Bohai Sea",
"(F) Hainan Island",
"(G) Mount Tianshan",
"(H) Northern Malaysia"
]
| ['A', 'B', 'E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20230812_4614b47a5a35850393f20bd5f581a118.png"
]
| mcq | earth | en |
E004/0009 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Hainan Island",
"(B) Sri Lanka",
"(C) Chongqing province",
"(D) Southern Malaysia",
"(E) Thailand",
"(F) Northern Philippines",
"(G) Western Pacific",
"(H) Bay of bengal"
]
| ['A', 'B', 'D', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20231018_818c065ca2f263e242290bb63f1bd6f7.png"
]
| mcq | earth | en |
E004/0010 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Sri Lanka",
"(B) Northern Philippines",
"(C) Southern India",
"(D) Malaysia",
"(E) Laos",
"(F) Northwestern Indonesia",
"(G) Cambodia",
"(H) Eastern India"
]
| ['C', 'D', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20231123_7da902201b7a9833759df7d9f2bb3592.png"
]
| mcq | earth | en |
E004/0011 | <image> This is a map showing the daily accumulated precipitation in East Asia. Please select the precipitation area that includes regions with over 50 mm of rainfall from the following options. | [
"(A) Southern India",
"(B) Vietnam",
"(C) Southern Philippines",
"(D) Indonesia",
"(E) Eastern China",
"(F) Southern Japan",
"(G) Thailand",
"(H) Sri Lanka"
]
| ['A', 'C', 'D', 'H'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E004_dataset_tp20231218_ed6ada94f66209537ca04c486be50dba.png"
]
| mcq | earth | en |
E005/0000 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in eastern China. | []
| The precipitation area is located ahead of a westerly trough, which extends southward from Gansu to Yunnan. The region is influenced by warm advection ahead of the trough and receives moisture transported from the South China Sea. The subtropical high over the northwestern Pacific is situated over the ocean east of the Philippines, steering moisture from the South China Sea toward the eastern coastal areas of China. In the precipitation zone, strong upward vertical motion leads to low-level atmospheric convergence, continuously supplying moisture. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_1_0cb1ac6498bc1a73cc242828bdbf2e56.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_1_7625ac02c482eaa7b6d886b2f925ac8e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_1_d3b3b935893b92345742c393d140fccd.png"
]
| open_ended | earth | en |
E005/0001 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in central China. | []
| The precipitation area is located ahead of a westerly trough, which extends southward from Ningxia to Guangxi. The region is influenced by warm advection ahead of the trough, with southerly winds in the lower atmosphere transporting moisture from the South China Sea toward areas such as Jiangxi and Fujian. In contrast, regions like Zhejiang mainly receive moisture from the East China Sea, and precipitation is generated in coordination with the upper-level circulation. The subtropical high over the northwestern Pacific is relatively weak and located over the ocean east of the Philippines. In the precipitation zone, strong upward vertical motion leads to low-level convergence, continuously supplying moisture. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_2_05dd7256d232f5f41a46ca652dbdf275.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_2_dd1fc45f3f1dd0955fa9cd00d808eb76.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_2_6c7d7e36c4a915e5160ff94d1a4c8e21.png"
]
| open_ended | earth | en |
E005/0002 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in central China. | []
| Upstream of the precipitation area, a minor trough is located to the west of Sichuan and Yunnan. Warm advection ahead of the trough dominates regions such as Guizhou and Hunan, with southerly winds in the lower atmosphere guiding moisture transport from the South China Sea into these areas. In contrast, areas like Jiangsu mainly receive moisture from the Yellow Sea, and precipitation occurs in coordination with the upper-level circulation. The subtropical high over the northwestern Pacific is relatively weak and extends westward toward the Indochina Peninsula. Strong upward vertical motion is concentrated over northern Guizhou, western Hunan, and areas such as Henan and Jiangsu, leading to low-level atmospheric convergence and a continuous supply of moisture. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_3_2604c5635d224967f25a71d0b16a92d3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_3_a4045b197f2d6bbd14ad39ddd0c325d3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_3_c3b7ea329eadc36cfe4ad7a96e6d699a.png"
]
| open_ended | earth | en |
E005/0003 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in the western part of north China and the eastern China. | []
| A trough is located to the west of the precipitation area, and southwesterly winds ahead of the trough bring warm and moist air into the region. Southerly winds in the lower atmosphere transport moisture northward from the South China Sea, and over Jiangsu, the southerly winds contain a significant easterly component, enabling moisture transport from the Yellow Sea into the precipitation zone. Moisture from multiple marine sources, combined with the influence of a deep trough over areas such as Sichuan and Guizhou, contributed to the widespread precipitation event. Strong upward vertical motion is mainly concentrated along China’s eastern coastal areas, leading to low-level convergence, enhanced atmospheric instability, and favorable conditions for precipitation development. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_4_d7e555dd792fc5919bfb1b39d829ce2a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_4_f26a6b8e99836ec74fed0dc21e53e925.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_4_dbc0abe406e39075f18311f031e4e2ea.png"
]
| open_ended | earth | en |
E005/0004 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in western Yunnan. | []
| A trough is present over the Bay of Bengal, and southwesterly winds ahead of the trough bring warm and moist air into the precipitation region. Prior to this, a storm over the Bay of Bengal had moved northward. The current precipitation is mainly associated with the remnant cloud system of that storm, which made landfall and moved northward, encountering orographic lifting over the Tibetan Plateau. The northward-moving storm transported warm and moist air from the Bay of Bengal and guided moisture into Yunnan, creating favorable conditions for precipitation. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_5_aff7acf567ee2b525afcdf14bea2025d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_5_464e692cb6a994afbe0e6c791bc5d958.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_5_4249a2d8d7cfb96a81a327c371639375.png"
]
| open_ended | earth | en |
E005/0005 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in southern China. | []
| A deep trough lies to the north of the precipitation area, and southwesterly winds ahead of the trough guide moisture from the Bay of Bengal into China. Over Guangdong, southerly winds in the lower atmosphere transport moisture northward from the South China Sea, while easterly winds over Jiangsu bring in moisture from the Yellow Sea. Moisture from multiple marine sources, combined with the influence of a deep trough over regions such as Sichuan and Guizhou, contributed to the widespread precipitation event. Intense upward motion leads to low-level atmospheric convergence and increased atmospheric instability, making precipitation more likely. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_6_a00886cb9e335be8382108d1a8182d8f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_6_355d093646e0027a87b8d1b3e5fc9004.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_6_297c4ca0868dfab53dce6a3ee0795bde.png"
]
| open_ended | earth | en |
E005/0006 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in northern China. | []
| A deep trough is present over the precipitation area, extending southward from central Inner Mongolia to Hubei. The region is influenced by warm advection ahead of the trough and receives moisture transported from the Bohai Bay. The subtropical high over the northwestern Pacific steers moisture from the South China Sea into the precipitation zone. In the precipitation area, strong upward vertical motion leads to low-level atmospheric convergence, continuously supplying moisture to North China. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_7_e81fe9df45eaba7788142c1cfa90b232.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_7_0eb1e27032548600238978bd2adadceb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_7_b7045c54d5e6501ef029bc59db2ac0ea.png"
]
| open_ended | earth | en |
E005/0007 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in eastern China. | []
| The trough extends southward from eastern Inner Mongolia to Guangxi, covering a wide area, and precipitation mainly occurs in regions dominated by southwesterly winds ahead of the trough. In Northeast China, the lower atmosphere exhibits a 'northeast cold vortex' configuration. This round of precipitation is primarily influenced by the northeast cold vortex. Warm and moist air masses from multiple marine sources interacted with the cold vortex over Northeast China, resulting in widespread precipitation. Liaoning, located at the boundary between cold and warm air masses, became the region with the heaviest rainfall. Strong upward vertical motion is concentrated in areas where cold and warm air converge, leading to low-level atmospheric convergence, increased instability, and highly favorable conditions for precipitation. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_8_fc6bef2a0ea3392b99573f88304521f3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_8_c7b77576ce71d1b5dcad31ee3ee45bdb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_8_401ab458d6d1487e2570d2ba511b0435.png"
]
| open_ended | earth | en |
E005/0008 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in west China. | []
| The precipitation area is located in a low-pressure zone between the subtropical high over the northwestern Pacific and the Iranian high. Southwesterly winds on the western flank of the subtropical high transport warm and moist air from the South China Sea and the Indian Ocean into this region, providing abundant moisture. Meanwhile, cold air brought by northwesterly winds behind the trough converges with the warm, moist air, leading to the formation of the Western China Autumn Rain. The precipitation zone is accompanied by strong upward vertical motion, resulting in low-level atmospheric convergence and increased instability, which favors the development of precipitation. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_9_e583eddb7713096c44d5ace90fccfb09.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_9_7b7545d8b7a2523e6a1aadc3325eee40.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_9_fee1b88c868833ddd06899943cdabaea.png"
]
| open_ended | earth | en |
E005/0009 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in Guangdong and Guangxi. | []
| This precipitation event was mainly influenced by a landfalling typhoon. The typhoon brought abundant moisture and intense upward motion, resulting in very heavy rainfall. The precipitation zone is accompanied by strong upward vertical motion, leading to low-level atmospheric convergence and increased atmospheric instability, which makes precipitation highly likely. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_10_95d7f33abb713cf0fca54832050af194.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_10_1adb4581ccdadd38bdd9f37c3f702f51.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_10_2f11c6e7b0d58017811f9eb27828467d.png"
]
| open_ended | earth | en |
E005/0010 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in central China and eastern China. | []
| The precipitation area forms a band-like distribution, with the northeastern region controlled by a low-pressure system, indicating the intrusion of cold air. This precipitation process, occurring in Central and East China, is primarily influenced by the southward movement of cold air. The originally warm air is forced to rise, and due to the lower temperatures aloft, the moisture cools and condenses, forming clouds and rain. The precipitation zone is accompanied by strong upward vertical motion, leading to low-level atmospheric convergence and increased atmospheric instability, making precipitation highly likely. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_11_d658cca197e09f46b4ceabdf6a1f777c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_11_dbbe380ab5ea9aef7c92d6ef741f08a4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_11_bc20029b326e8cb6579cf531198e2bf0.png"
]
| open_ended | earth | en |
E005/0011 | <image> <image> <image> The first figure uses shading to represent precipitation. The second figure shows 500 hPa geopotential height with contour lines, 850 hPa wind field with vectors, and moisture flux with shading. The third figure displays 850 hPa geopotential height as contour lines and 500 hPa vertical velocity as shading. Please analyze the precipitation formation process in northern China and eastern China. | []
| The precipitation area forms a band-like distribution, primarily along the northwest flank of the subtropical high over the northwestern Pacific. Moisture is transported into the precipitation zone by southwesterly winds on the western side of the subtropical high, where it converges with cold air, leading to precipitation. The precipitation zone is accompanied by strong upward vertical motion, resulting in low-level atmospheric convergence and increased atmospheric instability, which makes precipitation highly likely. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_precip_12_ca35ed190a6896dbfd95a6a8110dbb7d.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_mois_12_e8b23e93d3859dcdcad79ac6c557343f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E005_dataset_vel_12_d365ff610bce5b8cbb91f9c00a761771.png"
]
| open_ended | earth | en |
E012/0000 | <image> Detect all Cars shown in the image and describle using horizontal bounding box.
Each bounding box is represented by four numbers, corresponding to the positions x_min, y_min, x_max, and y_max. The coordinate origin is located at the top-left corner of the image, and the bottom-right corner has coordinates (1, 1). Therefore, both x and y range from 0 to 1. In the final output, two bounding boxes are separated by a semicolon, and all bounding boxes are enclosed in square brackets. Here is an example output: "[x1_min, y1_min, x1_max, y1_max; x2_min, y2_min, x2_max, y2_max]" (no quotation marks) | []
| [0.32,0.15,0.40,0.30] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E012_dataset_1_110_90_0_05926_dbf3b9eabc5e991ebbb36337cc44de76.jpg"
]
| open_ended | earth | en |
E012/0001 | <image> Detect all objects shown in the remote sensing image and describle using horizontal bounding box.
Each bounding box is represented by four numbers, corresponding to the positions x_min, y_min, x_max, and y_max. The coordinate origin is located at the top-left corner of the image, and the bottom-right corner has coordinates (1, 1). Therefore, both x and y range from 0 to 1. In the final output, two bounding boxes are separated by a semicolon, and all bounding boxes are enclosed in square brackets. Here is an example output: "[x1_min, y1_min, x1_max, y1_max; x2_min, y2_min, x2_max, y2_max]" (no quotation marks) | []
| [0.42,0.18,0.45,0.22;0.54,0.35,0.59,0.39;0.64,0.38,0.66,0.40;0.61,0.40,0.65,0.44;0.49,0.41,0.52,0.44;0.51,0.46,0.54,0.49;0.55,0.52,0.58,0.55;0.68,0.60,0.72,0.63;0.07,0.70,0.10,0.73;0.74,0.69,0.76,0.72;0.61,0.76,0.63,0.81;0.55,0.68,0.57,0.71;0.59,0.69,0.62,0.72;0.23,0.82,0.28,0.84;0.07,0.87,0.11,0.89;0.00,0.87,0.03,0.90;0.00,0.83,0.02,0.85] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E012_dataset_1_60_80_0_00666_b4f7ac4f8c6aa551bab6875434f27bee.jpg"
]
| open_ended | earth | en |
E012/0002 | <image> Detect all Cars shown in the image and describle using horizontal bounding box.
Each bounding box is represented by four numbers, corresponding to the positions x_min, y_min, x_max, and y_max. The coordinate origin is located at the top-left corner of the image, and the bottom-right corner has coordinates (1, 1). Therefore, both x and y range from 0 to 1. In the final output, two bounding boxes are separated by a semicolon, and all bounding boxes are enclosed in square brackets. Here is an example output: "[x1_min, y1_min, x1_max, y1_max; x2_min, y2_min, x2_max, y2_max]" (no quotation marks) | []
| [0.37,0.38,0.40,0.42;0.74,0.14,0.79,0.18] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E012_dataset_0_130_40_0_05592_ba44672927cde3151984edb33e061bfc.jpg"
]
| open_ended | earth | en |
E012/0003 | <image> Detect all objects shown in the remote sensing image and describle using horizontal bounding box.
Each bounding box is represented by four numbers, corresponding to the positions x_min, y_min, x_max, and y_max. The coordinate origin is located at the top-left corner of the image, and the bottom-right corner has coordinates (1, 1). Therefore, both x and y range from 0 to 1. In the final output, two bounding boxes are separated by a semicolon, and all bounding boxes are enclosed in square brackets. Here is an example output: "[x1_min, y1_min, x1_max, y1_max; x2_min, y2_min, x2_max, y2_max]" (no quotation marks) | []
| [0.56,0.25,0.59,0.29;0.78,0.37,0.81,0.43;0.83,0.45,0.86,0.48;0.72,0.49,0.75,0.55;0.58,0.59,0.60,0.63;0.34,0.82,0.35,0.87;0.68,0.82,0.71,0.86;0.70,0.82,0.72,0.86;0.72,0.82,0.74,0.87] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E012_dataset_1_60_60_0_00496_c58dfb8fdc5a2822b4dbecfbf94b2791.jpg"
]
| open_ended | earth | en |
E012/0009 | <image> Detect all People shown in the image and describle using horizontal bounding box.
Each bounding box is represented by four numbers, corresponding to the positions x_min, y_min, x_max, and y_max. The coordinate origin is located at the top-left corner of the image, and the bottom-right corner has coordinates (1, 1). Therefore, both x and y range from 0 to 1. In the final output, two bounding boxes are separated by a semicolon, and all bounding boxes are enclosed in square brackets. Here is an example output: "[x1_min, y1_min, x1_max, y1_max; x2_min, y2_min, x2_max, y2_max]" (no quotation marks) | []
| [0.04,0.37,0.07,0.42;0.68,0.47,0.70,0.52;0.21,0.10,0.22,0.11;0.78,0.65,0.80,0.69] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E012_dataset_1_60_50_0_00306_bae8e96a731bc76062c61b2ef4cb7140.jpg"
]
| open_ended | earth | en |
E012/0010 | <image> Detect all People shown in the image and describle using horizontal bounding box.
Each bounding box is represented by four numbers, corresponding to the positions x_min, y_min, x_max, and y_max. The coordinate origin is located at the top-left corner of the image, and the bottom-right corner has coordinates (1, 1). Therefore, both x and y range from 0 to 1. In the final output, two bounding boxes are separated by a semicolon, and all bounding boxes are enclosed in square brackets. Here is an example output: "[x1_min, y1_min, x1_max, y1_max; x2_min, y2_min, x2_max, y2_max]" (no quotation marks) | []
| [0.33,0.40,0.35,0.42;0.38,0.42,0.40,0.45;0.43,0.45,0.45,0.48;0.41,0.45,0.42,0.48;0.39,0.46,0.41,0.49;0.41,0.51,0.44,0.53] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E012_dataset_1_130_70_0_03972_f27873b2c492e18dc9ebc542ae3f3326.jpg"
]
| open_ended | earth | en |
E012/0012 | <image> Detect all People shown in the image and describle using horizontal bounding box.
Each bounding box is represented by four numbers, corresponding to the positions x_min, y_min, x_max, and y_max. The coordinate origin is located at the top-left corner of the image, and the bottom-right corner has coordinates (1, 1). Therefore, both x and y range from 0 to 1. In the final output, two bounding boxes are separated by a semicolon, and all bounding boxes are enclosed in square brackets. Here is an example output: "[x1_min, y1_min, x1_max, y1_max; x2_min, y2_min, x2_max, y2_max]" (no quotation marks) | []
| [0.38,0.27,0.41,0.32;0.69,0.29,0.71,0.33;0.68,0.75,0.72,0.79] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E012_dataset_1_60_50_0_00363_0fb6f4446288be3ba6fdd6de452c4a91.jpg"
]
| open_ended | earth | en |
E014/0000 | <image> The figure below is a global annual average temperature series from 1981 to 2000, describing the temperature information (range, extreme values and trends) for the time periods 1981-1990 and 1991-2000, as well as the difference between the two time periods. | []
| The temperature range in 1981-1990 is from 278.0 to 278.5, with the minimum value occurring in 1985 and the maximum value occurring in 1990, showing an overall increasing trend. The temperature range in 1991-2000 is from 278.1 to 278.5, with the minimum value occurring in 1993 and the maximum value occurring in 1998, showing an overall increasing trend. The minimum temperature in 1981-1990 is lower, the maximum temperature in 1981-1990 is higher, and the growth trend in 1991-2000 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1981-2000_fb213212ff1d40a15c30e32c897b31b4.png"
]
| open_ended | earth | en |
E014/0001 | <image> The figure below is a global annual average temperature series from 1983 to 2002, describing the temperature information (range, extreme values and trends) for the time periods 1983-1992 and 1993-2002, as well as the difference between the two time periods. | []
| The temperature range in 1983-1992 is from 278.0 to 278.5, with the minimum value occurring in 1985 and the maximum value occurring in 1990, showing an overall increasing trend. The temperature range in 1993-2002 is from 278.1 to 278.6, with the minimum value occurring in 1993 and the maximum value occurring in 2002, showing an overall increasing trend. The minimum temperature in 1983-1992 is lower, the maximum temperature in 1993-2002 is higher, and the growth trend in 1993-2002 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1983-2002_3370438589ffb3e71fdde42f2ba240c7.png"
]
| open_ended | earth | en |
E014/0002 | <image> The figure below is a global annual average temperature series from 1986 to 2005, describing the temperature information (range, extreme values and trends) for the time periods 1986-1995 and 1996-2005, as well as the difference between the two time periods. | []
| The temperature range in 1986-1995 is from 278.1 to 278.5, with the minimum value occurring in 1993 and the maximum value occurring in 1990, showing an overall increasing trend. The temperature range in 1996-2005 is from 278.3 to 278.8, with the minimum value occurring in 1999 and the maximum value occurring in 2005, showing an overall increasing trend. The minimum temperature in 1986-1995 is lower, the maximum temperature in 1996-2005 is higher, and the growth trend in 1996-2005 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1986-2005_c24476c527f4abeb080ebd372881e4c2.png"
]
| open_ended | earth | en |
E014/0003 | <image> The figure below is a global annual average temperature series from 1988 to 2007, describing the temperature information (range, extreme values and trends) for the time periods 1988-1997 and 1998-2007, as well as the difference between the two time periods. | []
| The temperature range in 1988-1997 is from 278.1 to 278.5, with the minimum value occurring in 1993 and the maximum value occurring in 1990, showing an overall decreasing trend. The temperature range in 1998-2007 is from 278.3 to 278.8, with the minimum value occurring in 1999 and the maximum value occurring in 2005, showing an overall increasing trend. The minimum temperature in 1988-1997 is lower, the maximum temperature in 1998-2007 is higher, and the growth trend in 1998-2007 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1988-2007_e2ddd4b697b1442f17f3e9158de01461.png"
]
| open_ended | earth | en |
E014/0004 | <image> The figure below is a global annual average temperature series from 1991 to 2010, describing the temperature information (range, extreme values and trends) for the time periods 1991-2000 and 2001-2010, as well as the difference between the two time periods. | []
| The temperature range in 1991-2000 is from 278.1 to 278.5, with the minimum value occurring in 1993 and the maximum value occurring in 1998, showing an overall increasing trend. The temperature range in 2001-2010 is from 278.4 to 278.8, with the minimum value occurring in 2004 and the maximum value occurring in 2005, showing an overall increasing trend. The minimum temperature in 1991-2000 is lower, the maximum temperature in 2001-2010 is higher, and the growth trend in 2001-2010 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1991-2010_824205fff4c3cf5c00e4f46f53bf95cf.png"
]
| open_ended | earth | en |
E014/0005 | <image> The figure below is a global annual average temperature series from 1993 to 2012, describing the temperature information (range, extreme values and trends) for the time periods 1993-2002 and 2003-2012, as well as the difference between the two time periods. | []
| The temperature range in 1993-2002 is from 278.1 to 278.6, with the minimum value occurring in 1993 and the maximum value occurring in 2002, showing an overall increasing trend. The temperature range in 2003-2012 is from 278.4 to 278.8, with the minimum value occurring in 2004 and the maximum value occurring in 2005, showing an overall increasing trend. The minimum temperature in 1993-2002 is lower, the maximum temperature in 2003-2012 is higher, and the growth trend in 1993-2002 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1993-2012_59376c6422a190ee22561651b787a130.png"
]
| open_ended | earth | en |
E014/0006 | <image> The figure below is a global annual average temperature series from 1996 to 2015, describing the temperature information (range, extreme values and trends) for the time periods 1996-2005 and 2006-2015, as well as the difference between the two time periods. | []
| The temperature range in 1996-2005 is from 278.3 to 278.8, with the minimum value occurring in 1999 and the maximum value occurring in 2005, showing an overall increasing trend. The temperature range in 2006-2015 is from 278.5 to 278.8, with the minimum value occurring in 2008 and the maximum value occurring in 2015, showing an overall increasing trend. The minimum temperature in 1996-2005 is lower, the maximum temperature in 2006-2015 is higher, and the growth trend in 1996-2005 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1996-2015_37962ffb45811068e11a78394cfa372b.png"
]
| open_ended | earth | en |
E014/0007 | <image> The figure below is a global annual average temperature series from 1998 to 2017, describing the temperature information (range, extreme values and trends) for the time periods 1998-2007 and 2008-2017, as well as the difference between the two time periods. | []
| The temperature range in 1998-2007 is from 278.3 to 278.8, with the minimum value occurring in 1999 and the maximum value occurring in 2005, showing an overall increasing trend. The temperature range in 2008-2017 is from 278.5 to 279.2, with the minimum value occurring in 2008 and the maximum value occurring in 2016, showing an overall increasing trend. The minimum temperature in 1998-2007 is lower, the maximum temperature in 2008-2017 is higher, and the growth trend in 2008-2017 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_1998-2017_dcfaddbb41a8d11513436f68c7931217.png"
]
| open_ended | earth | en |
E014/0008 | <image> The figure below is a global annual average temperature series from 2001 to 2020, describing the temperature information (range, extreme values and trends) for the time periods 2001-2010 and 2011-2020, as well as the difference between the two time periods. | []
| The temperature range in 2001-2010 is from 278.4 to 278.8, with the minimum value occurring in 2004 and the maximum value occurring in 2005, showing an overall increasing trend. The temperature range in 2011-2020 is from 278.7 to 279.2, with the minimum value occurring in 2013 and the maximum value occurring in 2016, showing an overall increasing trend. The minimum temperature in 2001-2010 is lower, the maximum temperature in 2011-2020 is higher, and the growth trend in 2011-2020 is greater. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/era5_t2m_series_2001-2020_53f3b2b5220ddd26d22db1b3294cf331.png"
]
| open_ended | earth | en |
E001/0000 | <image> <image> <image> <image> <image> <image> <image> <image> The first image is the IR069 image, the second image is the IR107 image, the third to eighth images are VIL images, corresponding to options A to F. Which VIL image best matches the content shown in the IR069 and IR107 images? | []
| ['A'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir069_S764931_ir069_42821de63b100ec19617c87b8b6fb3a5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir107_S764931_ir107_632da0f6d3a394d97787c196062a43cc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_S764931_vil_a3ed1da4e228f61bda3e41ae12d910ca.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S764931_vil_1_43542c840bc1227b9a1906f7e5b937b2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S764931_vil_0_718c6c053faf9dc8329f106861772e60.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S764931_vil_3_cc80c822d2d70226c0ec413fe46e8032.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S764931_vil_2_10954432cde52136f46fae6509a01f7f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S764931_vil_4_4ae363fee21068cf83bda5dcb7e9b582.png"
]
| mcq | earth | en |
E001/0001 | <image> <image> <image> <image> <image> <image> <image> <image> The first image is the IR069 image, the second image is the IR107 image, the third to eighth images are VIL images, corresponding to options A to F. Which VIL image best matches the content shown in the IR069 and IR107 images? | []
| ['D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir069_S745801_ir069_98765a87fbda289d5b53e9d7336bcdaa.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir107_S745801_ir107_745064e945e9e713ba78bfce3c15462e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S745801_vil_4_a2ee97a1d209ec89ab4bb520ac87f066.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S745801_vil_2_f02bc66bae68b7054303662d9498475e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S745801_vil_3_3153c51d7f21a78ee96f11835ed27274.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_S745801_vil_954beffdb93656909451f1f97fa00737.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S745801_vil_1_5d759e77faaa1e6c8cd781107a9608eb.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S745801_vil_0_e4d2491e812dc4128c8abbf56ae3171e.png"
]
| mcq | earth | en |
E001/0002 | <image> <image> <image> <image> <image> <image> <image> <image> The first image is the IR069 image, the second image is the IR107 image, the third to eighth images are VIL images, corresponding to options A to F. Which VIL image best matches the content shown in the IR069 and IR107 images? | []
| ['E'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir069_S760792_ir069_11cd6e4e715eeaf4b79c7b58e81c9967.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir107_S760792_ir107_0e854a0c51aaef029dca4de6922869d1.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S760792_vil_2_62378e5a60daad2252b3390a13297d0a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S760792_vil_1_f61f68bb1fa850bfb6986a4583dee699.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S760792_vil_3_0a66c6b6c9c37b3960cb237cc66811f3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S760792_vil_0_f4e7eb1bdf18ea7aab4d37b58d60ec9a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_S760792_vil_5470ab9444a67b1eadc9d52f04cc19ea.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S760792_vil_4_6d6270faf901495b45044b688daa8367.png"
]
| mcq | earth | en |
E001/0003 | <image> <image> <image> <image> <image> <image> <image> <image> The first image is the IR069 image, the second image is the IR107 image, the third to eighth images are VIL images, corresponding to options A to F. Which VIL image best matches the content shown in the IR069 and IR107 images? | []
| ['F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir069_S766182_ir069_4ac06ce136981930d7f5969df22891e7.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir107_S766182_ir107_4016b3c72866a681ba41f4d2f46f1f4b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S766182_vil_1_04ffdb06cecf4e12418869bcba3c67b5.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S766182_vil_3_b7411274b8522fb8fcea30687c24df9c.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S766182_vil_2_862de80be5a6108d3ee2e13f09999f58.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S766182_vil_0_b9bb459ec754c45df22e0b7ecee228a8.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S766182_vil_4_539deef6daafc83599befb4dcd10c72f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_S766182_vil_c1eec089e3c4b90787a55e30f97d01b1.png"
]
| mcq | earth | en |
E001/0004 | <image> <image> <image> <image> <image> <image> <image> <image> The first image is the IR069 image, the second image is the IR107 image, the third to eighth images are VIL images, corresponding to options A to F. Which VIL image best matches the content shown in the IR069 and IR107 images? | []
| ['A'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir069_S754838_ir069_15eaa3b21ba18a7d5aa0a8a8490028ba.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir107_S754838_ir107_e0a05de3dd50c20c808283f871d7c090.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_S754838_vil_f5f8aa557e8e49481659d46157a4770e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S754838_vil_1_d203f5b9ea59f76432680708ed5edb27.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S754838_vil_2_272b4c672e529b117ee88f4f73e0abc9.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S754838_vil_3_1123800d1d7df5153b522425ac0fa13f.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S754838_vil_4_0653b8881da3d8cc96ebf04e05eb1e1e.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S754838_vil_0_5988b2b2ea73eb50f46a5ae6cbff5d0e.png"
]
| mcq | earth | en |
E001/0005 | <image> <image> <image> <image> <image> <image> <image> <image> The first image is the IR069 image, the second image is the IR107 image, the third to eighth images are VIL images, corresponding to options A to F. Which VIL image best matches the content shown in the IR069 and IR107 images? | []
| ['F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir069_S761780_ir069_f60a79e18aab73cfef5603713663eebe.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_ir107_S761780_ir107_982dbd5a668d53ebbcadebadfb7a68d3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S761780_vil_2_da84f0e37fc030602dfdb960605eb883.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S761780_vil_0_2330f454241369d6fd54357d75cd5d8a.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S761780_vil_3_9a233079021491de73eea8a4496776a4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S761780_vil_1_d98e31afd5fe8e64dba60f430015f2b6.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_wrong_answers_S761780_vil_4_6de4ce420f3198a6f57fb27638393f86.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E001_dataset_vil_S761780_vil_5f2de6a84895e98b53bb6425b733b37c.png"
]
| mcq | earth | en |
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