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inria-soda
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tabular-benchmark

Tasks:

Tabular Classification

Tabular Regression

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clf_cat_albert · 58.3k rows

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train · 58.3k rows

V1 float64 0 816	V2 float64 -2 12.3k	V3 float64 0 32.7k	V4 int64 0 130	V5 float64 0 373k	V6 float64 0 14.8k	V7 float64 0 6.61k	V8 int64 0 53	V9 float64 0 12.8k	V10 float64 0 7	V11 int64 0 136	V13 float64 0 332	V19 int64 0 9	V22 int64 0 2	V30 int64 0 7	V33 int64 0 3	V35 int64 0 9	V36 int64 0 12	V40 float64 0 3.78k	V41 int64 0 3	V42 float64 0 515	V43 float64 0 12.1k	V45 int64 0 8	V47 int64 0 10	V50 float64 0 4.55k	V51 int64 0 136	V52 int64 0 7	V59 float64 0 3.27k	V63 int64 0 13	V72 int64 0 117	V75 int64 0 136
1	2	5	4	1,092	4	3	9	36	1	2	4	7	2	6	2	9	4	1	1	5	50	1	0	6	2	0	0	6	3	2
14	0	1	3	247	3	14	14	13	3	3	3	7	2	1	3	1	8	1	0	42	1	1	10	2	0	1	14	7	30	2
1	3	12	8	1,080	38	7	38	136	1	2	28	7	2	4	3	9	7	3	3	21	2	1	8	2	1	1	0	8	1	1
1	5	9	16	2	5	4	18	88	1	3	5	3	2	1	0	0	6	1	3	23	38	6	5	4	12	0	9	6	2	0
1	0	2	9	54	13	1	4	9	1	1	9	4	2	2	3	9	7	32	2	6	21	1	5	0	0	1	5	7	1	2
1	0	129	0	2	0	6	2	3	1	2	0	7	2	1	2	9	6	2	2	14	144	1	8	135	2	2	36	7	1	0
2	8	1	8	1,039	8	3	10	76	1	2	8	7	2	0	2	9	6	59	1	5	917	0	8	8	3	0	0	7	3	0
0	1	3	3	2,416	41	4	17	38	0	1	3	3	2	1	2	9	1	0	3	0	450	1	3	46	0	0	24	6	8	3
3	1	8	15	14	3	9	16	154	1	4	3	7	2	3	2	8	8	2	2	1	8	1	3	0	15	1	5	1	6	0
2	46	40	1	8	1	2	1	1	1	1	1	7	2	0	0	9	7	18	2	32	6	6	3	16	1	2	3	7	2	1
7	41	30	0	17	0	51	0	164	2	15	0	3	2	6	0	9	6	470	2	5	16	6	3	3	9	0	619	6	0	1
5	3	6	6	1	5	29	33	144	2	9	5	7	2	1	3	9	6	3	2	3	13	1	7	12	2	0	5	6	0	0
3	61	9	15	4	8	12	14	15	1	3	8	4	2	1	3	9	6	1	0	38	20	0	8	3	1	0	20	6	1	1
2	123	25	10	4	21	2	9	10	1	1	2	3	2	1	2	9	6	26	3	4	12	7	5	2	1	1	1	6	1	1
8	9	4	5	83	5	16	10	56	3	4	5	3	2	1	3	9	7	3	3	0	120	1	0	1	2	0	12	6	0	1
4	0	18	12	1,533	20	7	16	16	0	1	12	9	2	1	0	9	6	12	1	2	71	4	3	0	1	0	1	7	34	17
0	73	4	5	2,427	33	11	16	344	0	8	5	4	2	1	2	9	6	42	0	28	146	1	10	35	9	1	44	8	1	3
24	45	26	25	4	15	47	46	46	2	5	15	4	2	1	1	9	8	0	0	29	6	1	8	0	1	1	8	6	2	1
142	193	10	8	2	0	762	16	215	4	51	0	3	2	3	3	8	9	1	3	0	98	1	5	1	1	0	7	6	2	3
11	138	1	1	277	1	12	14	35	2	3	1	7	2	3	2	9	8	1	3	3	317	4	3	28	1	0	15	8	10	1
1	0	47	6	17	7	1	5	6	1	1	6	7	2	0	2	9	6	48	1	30	24	1	8	67	5	0	26	7	0	1
0	2	1	9	14,139	881	2	8	1,974	0	1	9	7	2	1	3	9	8	11	2	2	109	1	0	1	1	2	46	6	1	1
3	159	1	1	77	1	4	12	12	1	2	1	6	2	1	1	9	6	8	3	0	48	1	10	7	0	1	2	7	4	2
12	0	102	10	0	0	20	32	47	2	4	0	9	2	1	2	9	6	23	3	2	29	1	5	0	1	0	4	6	2	1
1	0	2	3	646	7	2	9	110	1	2	3	7	2	6	3	9	6	5	0	28	1	6	10	90	5	0	41	6	0	1
3	8	1	8	12	4	3	2	8	1	1	4	7	2	1	3	9	6	4	0	8	26	0	5	7	1	0	41	9	5	5
0	9	7	7	2,619	107	1	9	35	0	1	7	7	2	7	3	9	8	24	3	11	273	5	3	2	2	0	20	6	2	2
12	3	10	5	116	11	47	15	128	3	8	6	4	2	6	0	9	7	121	0	0	12	7	3	17	1	0	306	6	1	6
11	7	1	1	220	1	61	17	105	4	22	1	9	2	1	3	9	6	0	3	2	111	2	3	84	0	0	1	6	1	1
5	10	1	7	133	9	8	38	56	2	3	9	7	2	1	2	5	7	116	3	6	0	2	5	3	0	0	9	8	1	6
0	70	18	6	6,071	42	3	13	119	0	3	6	9	2	1	1	9	6	2	1	1	1	1	8	19	2	1	1	7	0	0
6	5	9	8	940	8	89	18	106	1	13	8	5	2	1	3	9	6	180	0	19	139	1	8	13	1	1	3	8	3	2
9	0	14	15	339	15	9	15	15	1	1	15	6	2	1	0	9	6	82	0	0	0	1	8	2	0	0	1	8	0	0
2	1,194	3	0	10	0	2	0	0	1	1	0	7	2	1	3	8	7	48	3	2	12	0	5	10	1	1	1	6	0	3
2	23	9	7	1,255	7	23	14	88	1	10	7	7	2	4	1	9	8	5	0	0	4,531	2	5	4	1	1	122	4	3	1
0	1	11	3	10,039	101	1	3	17	0	1	3	3	2	7	1	9	4	1	2	3	1	1	5	40	1	0	23	6	4	0
0	3	2	10	3,941	43	37	5	62	0	3	10	7	2	4	1	9	6	2	3	48	27	6	8	0	4	1	32	6	4	2
0	6	1	9	1,558	185	7	29	188	0	1	9	7	2	1	2	8	6	0	2	2	1,664	4	3	5	9	1	1	7	1	0
1	125	20	1	8	1	1	1	1	1	1	1	4	2	7	0	8	7	3	0	45	34	1	3	53	2	1	170	7	1	5
14	1	1	2	2	2	14	0	2	1	1	2	7	2	1	1	9	7	21	0	2	375	1	8	1	0	0	1	6	3	1
2	14	2	1	1	1	2	2	1	1	1	1	7	2	0	3	9	6	1	0	0	96	1	5	77	1	0	117	1	1	1
4	39	3	3	169	21	6	21	21	1	2	3	4	2	0	2	9	6	0	3	2	30	1	10	20	13	0	50	6	15	13
4	0	7	3	5	3	248	2	10	2	10	3	4	2	1	1	9	6	0	3	19	133	1	8	4	0	0	437	7	2	1
34	1	4	4	862	36	34	12	24	1	1	4	7	2	1	0	9	6	7	3	1	60	1	8	0	3	0	0	6	5	0
1	161	1	1	8	1	1	1	1	1	1	1	4	2	7	3	8	7	6	1	32	52	1	10	4	0	1	1	4	1	1
2	5	1	1	1	1	27	1	2	1	3	1	3	2	4	3	9	8	1	0	20	131	1	3	3	1	0	47	7	0	2
4	163	835	24	2	0	5	25	28	1	2	0	7	2	1	2	1	1	3	2	27	65	1	3	0	1	0	1	6	1	2
5	21	1	1	761	1	66	1	1	1	9	1	4	2	1	3	1	7	15	2	21	134	1	3	1	0	1	0	2	4	2
0	4	5	12	11	18	5	16	259	0	4	5	4	2	1	3	1	7	1	1	27	49	8	8	2	0	1	7	6	1	0
3	407	3	1	7	0	11	3	9	1	2	0	7	2	1	2	8	8	1	3	37	2	8	7	1	0	1	6	8	16	6
3	-1	5	6	1,026	125	86	49	479	1	17	8	7	2	1	3	9	9	11	3	3	2	5	8	1	1	1	1	6	0	1
3	66	6	5	133	6	14	14	47	1	5	5	4	2	1	2	8	1	1	1	9	8	1	8	11	6	0	1	1	0	0
14	0	1	0	1	0	14	0	0	2	2	0	9	2	1	2	9	7	3	2	2	64	1	8	14	2	1	3	6	1	5
2	0	70	33	73	39	2	47	415	1	1	39	4	2	1	1	9	8	5	3	2	287	8	3	143	1	0	53	1	1	1
10	13	2	15	1	2	10	12	15	1	1	2	7	2	1	0	8	6	49	3	0	3	1	8	1	2	1	2	6	6	2
7	2	1	10	0	0	132	1	1,996	1	15	0	3	2	6	3	9	6	70	3	10	3	5	3	38	0	1	173	6	1	0
4	0	30	8	4	2	32	13	117	1	6	2	3	2	1	3	9	8	68	3	0	11	1	3	15	1	1	4	2	1	1
0	0	16	22	2,714	87	313	31	910	0	20	22	7	2	3	3	9	7	0	3	22	11	1	5	81	2	1	28	8	4	30
9	67	38	18	2	8	10	15	56	1	2	8	7	2	1	1	9	1	1	0	2	85	1	3	0	0	2	2	6	5	1
13	158	6	11	5	11	13	16	21	2	2	11	4	2	1	3	9	6	45	1	14	28	1	10	1	8	0	0	6	8	1
14	1	7	7	57	7	222	25	1,862	2	25	7	7	2	6	1	9	8	17	1	3	9	0	8	7	4	1	24	6	2	0
3	268	1	1	46	8	4	1	43	2	2	1	4	2	0	3	9	6	4	1	14	5	8	8	1	5	1	2	8	1	3
3	0	13	17	69	17	3	14	17	1	1	17	7	2	0	0	9	6	0	0	1	925	1	5	11	1	1	1	6	0	1
40	41	3	1	1	1	95	1	15	4	10	1	3	2	1	1	9	8	1	2	28	34	1	3	1	5	0	1	6	0	0
1	-2	74	18	738	84	1	31	30	1	1	19	6	2	7	3	9	6	5	1	17	120	8	8	9	8	0	65	7	0	15
77	1	2	2	2	2	109	4	18	1	2	2	7	2	1	3	1	6	2	3	35	0	0	7	12	5	0	14	8	2	2
1	19	6	7	2	2	1	18	18	1	1	2	7	2	4	1	8	6	6	3	47	37	8	5	1	0	0	0	6	4	2
2	-1	3	7	7	4	2	8	7	1	1	4	4	2	3	3	8	7	0	3	0	3	1	8	1	34	0	0	8	2	3
2	769	2	4	21	7	2	4	4	1	1	4	3	2	0	3	8	6	0	3	8	10	1	3	14	6	1	13	8	0	9
8	-1	2	5	1	2	8	5	5	2	2	2	7	2	1	3	9	8	2	3	3	400	0	8	9	1	1	0	6	0	2
1	32	36	3	1,110	114	1	36	42	1	1	3	7	2	1	1	9	7	0	2	21	27	1	8	7	6	2	123	1	0	8
0	175	3	6	2,777	124	2	47	72	0	1	6	3	2	0	3	8	6	0	3	48	17	1	3	1	2	1	1	8	1	1
3	427	1	1	7	0	11	5	48	2	5	0	0	2	1	3	9	6	1	2	0	3	0	8	13	2	0	12	8	2	0
3	3	18	6	570	18	3	25	36	1	1	6	0	2	3	1	9	6	7	1	28	1,022	7	5	1	3	1	2	6	1	1
2	1	24	8	286	11	2	8	8	1	1	8	4	2	0	2	9	6	12	1	1	22	2	8	24	0	0	3	4	12	3
4	887	6	5	56	4	5	8	7	1	2	4	3	2	0	3	1	7	62	0	0	12	1	5	12	2	0	7	6	1	1
6	0	6	24	18	5	7	8	49	2	3	5	7	2	1	1	9	4	29	0	19	217	7	8	0	1	1	7	6	2	5
0	38	6	16	2,728	68	12	7	71	0	3	16	4	2	1	1	9	4	4	0	6	89	0	5	2	4	2	2	8	1	4
0	11	3	0	1,961	118	14	4	201	0	10	3	0	2	4	3	9	6	0	3	5	6	1	8	0	0	0	2	7	1	1
99	135	13	0	0	36	147	47	124	0	4	0	3	2	4	1	8	1	4	1	12	11	0	8	1	1	0	2	7	40	2
0	14	1	1	1,203	14	112	1	83	0	29	1	5	2	1	2	8	6	2	0	43	4	7	8	42	1	0	7	6	1	0
1	26	55	8	447	68	12	33	469	1	2	34	7	2	6	1	9	6	4	3	48	0	8	8	6	0	1	0	7	0	2
5	2	1	5	745	59	5	37	43	1	1	5	7	2	1	3	9	6	4	3	12	15	0	5	4	0	1	3	7	3	5
13	669	3	3	8	0	1,022	19	1,048	1	47	0	7	2	6	2	8	8	6	3	16	4	1	5	125	1	2	3	6	1	17
1	50	1	1	293	1	1	1	1	1	1	1	9	2	7	3	9	6	1	2	7	15	1	10	5	1	1	0	7	80	1
1	0	7	5	112	5	1	7	9	1	1	5	9	2	1	0	9	6	21	3	5	27	6	5	0	0	0	8	6	0	3
9	7	10	9	1	0	35	39	484	2	15	0	4	2	1	3	8	7	0	1	7	114	1	10	19	1	3	1	6	9	1
0	326	3	5	3,163	38	5	5	162	0	2	5	7	2	6	3	9	6	0	3	45	24	1	5	90	0	1	0	7	1	0
15	0	22	19	5	0	15	21	22	3	3	0	3	2	1	0	9	4	2	3	6	0	3	3	8	2	1	18	7	0	1
0	117	4	4	2,023	17	21	15	144	0	9	4	7	2	6	3	1	8	9	1	0	59	1	8	3	1	1	20	1	3	1
0	53	1	1	4,711	198	4	12	161	0	3	1	4	2	1	3	9	6	2	2	33	31	1	10	8	8	1	0	7	11	9
0	0	3	1	4,403	14	19	2	7	0	1	1	0	2	1	1	9	7	0	0	2	203	0	3	1	0	0	8	6	1	16
21	93	46	2	1	0	21	5	2	2	2	0	7	2	3	1	8	6	32	2	33	4	5	8	6	65	1	2	7	1	2
1	83	1	1	1	0	1	4	70	1	1	0	9	2	7	1	9	6	6	3	7	55	4	8	3	0	1	1	6	0	15
30	0	76	8	27	0	192	26	48	1	17	0	7	2	1	2	8	6	2	3	36	7	5	8	14	0	1	3	7	1	0
3	55	16	8	1,195	37	32	48	728	0	10	8	4	2	3	3	1	6	9	3	5	2	8	8	23	6	0	3	4	1	0
0	623	3	2	783	21	123	25	344	0	37	2	5	2	3	2	9	6	2	1	8	1	6	3	63	1	0	100	6	1	6
1	1	2	4	233	34	10	34	465	1	6	4	4	2	6	3	9	6	2	1	28	17	1	8	273	1	0	71	7	1	0
2	21	6	7	90	9	2	7	10	1	1	9	3	2	1	3	9	6	22	3	12	1	1	5	49	1	1	58	4	0	4
2	548	2	2	17	2	5	5	54	1	2	2	3	2	1	3	9	6	0	3	2	24	0	3	7	16	0	1	7	3	6

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Tabular Benchmark

Dataset Description

This dataset is a curation of various datasets from openML and is curated to benchmark performance of various machine learning algorithms.

Repository: https://github.com/LeoGrin/tabular-benchmark/community
Paper: https://hal.archives-ouvertes.fr/hal-03723551v2/document

Dataset Summary

Benchmark made of curation of various tabular data learning tasks, including:

Regression from Numerical and Categorical Features
Regression from Numerical Features
Classification from Numerical and Categorical Features
Classification from Numerical Features

Supported Tasks and Leaderboards

tabular-regression
tabular-classification

Dataset Structure

Data Splits

This dataset consists of four splits (folders) based on tasks and datasets included in tasks.

reg_num: Task identifier for regression on numerical features.
reg_cat: Task identifier for regression on numerical and categorical features.
clf_num: Task identifier for classification on numerical features.
clf_cat: Task identifier for classification on categorical features.

Depending on the dataset you want to load, you can load the dataset by passing task_name/dataset_name to data_files argument of load_dataset like below:

from datasets import load_dataset
dataset = load_dataset("inria-soda/tabular-benchmark", data_files="reg_cat/house_sales.csv")

Dataset Creation

Curation Rationale

This dataset is curated to benchmark performance of tree based models against neural networks. The process of picking the datasets for curation is mentioned in the paper as below:

Heterogeneous columns. Columns should correspond to features of different nature. This excludes images or signal datasets where each column corresponds to the same signal on different sensors.
Not high dimensional. We only keep datasets with a d/n ratio below 1/10.
Undocumented datasets We remove datasets where too little information is available. We did keep datasets with hidden column names if it was clear that the features were heterogeneous.
I.I.D. data. We remove stream-like datasets or time series.
Real-world data. We remove artificial datasets but keep some simulated datasets. The difference is subtle, but we try to keep simulated datasets if learning these datasets are of practical importance (like the Higgs dataset), and not just a toy example to test specific model capabilities.
Not too small. We remove datasets with too few features (< 4) and too few samples (< 3 000). For benchmarks on numerical features only, we remove categorical features before checking if enough features and samples are remaining.
Not too easy. We remove datasets which are too easy. Specifically, we remove a dataset if a simple model (max of a single tree and a regression, logistic or OLS) reaches a score whose relative difference with the score of both a default Resnet (from Gorishniy et al. [2021]) and a default HistGradientBoosting model (from scikit learn) is below 5%. Other benchmarks use different metrics to remove too easy datasets, like removing datasets perfectly separated by a single decision classifier [Bischl et al., 2021], but this ignores varying Bayes rate across datasets. As tree ensembles are superior to simple trees and logistic regresison [Fernández-Delgado et al., 2014], a close score for the simple and powerful models suggests that we are already close to the best achievable score.
Not deterministic. We remove datasets where the target is a deterministic function of the data. This mostly means removing datasets on games like poker and chess. Indeed, we believe that these datasets are very different from most real-world tabular datasets, and should be studied separately

Source Data

Numerical Classification

dataset_name	n_samples	n_features	original_link	new_link
electricity	38474.0	7.0	https://www.openml.org/d/151	https://www.openml.org/d/44120
covertype	566602.0	10.0	https://www.openml.org/d/293	https://www.openml.org/d/44121
pol	10082.0	26.0	https://www.openml.org/d/722	https://www.openml.org/d/44122
house_16H	13488.0	16.0	https://www.openml.org/d/821	https://www.openml.org/d/44123
MagicTelescope	13376.0	10.0	https://www.openml.org/d/1120	https://www.openml.org/d/44125
bank-marketing	10578.0	7.0	https://www.openml.org/d/1461	https://www.openml.org/d/44126
Bioresponse	3434.0	419.0	https://www.openml.org/d/4134	https://www.openml.org/d/45019
MiniBooNE	72998.0	50.0	https://www.openml.org/d/41150	https://www.openml.org/d/44128
default-of-credit-card-clients	13272.0	20.0	https://www.openml.org/d/42477	https://www.openml.org/d/45020
Higgs	940160.0	24.0	https://www.openml.org/d/42769	https://www.openml.org/d/44129
eye_movements	7608.0	20.0	https://www.openml.org/d/1044	https://www.openml.org/d/44130
Diabetes130US	71090.0	7.0	https://www.openml.org/d/4541	https://www.openml.org/d/45022
jannis	57580.0	54.0	https://www.openml.org/d/41168	https://www.openml.org/d/45021
heloc	10000.0	22.0	"https://www.kaggle.com/datasets/averkiyoliabev/home-equity-line-of-creditheloc?select=heloc_dataset_v1+%281%29.csv"	https://www.openml.org/d/45026
credit	16714.0	10.0	"https://www.kaggle.com/c/GiveMeSomeCredit/data?select=cs-training.csv"	https://www.openml.org/d/44089
california	20634.0	8.0	"https://www.dcc.fc.up.pt/ltorgo/Regression/cal_housing.html"	https://www.openml.org/d/45028

Categorical Classification

dataset_name	n_samples	n_features	original_link	new_link
electricity	38474.0	8.0	https://www.openml.org/d/151	https://www.openml.org/d/44156
eye_movements	7608.0	23.0	https://www.openml.org/d/1044	https://www.openml.org/d/44157
covertype	423680.0	54.0	https://www.openml.org/d/1596	https://www.openml.org/d/44159
albert	58252.0	31.0	https://www.openml.org/d/41147	https://www.openml.org/d/45035
compas-two-years	4966.0	11.0	https://www.openml.org/d/42192	https://www.openml.org/d/45039
default-of-credit-card-clients	13272.0	21.0	https://www.openml.org/d/42477	https://www.openml.org/d/45036
road-safety	111762.0	32.0	https://www.openml.org/d/42803	https://www.openml.org/d/45038

Numerical Regression

dataset_name	n_samples	n_features	original_link	new_link
cpu_act	8192.0	21.0	https://www.openml.org/d/197	https://www.openml.org/d/44132
pol	15000.0	26.0	https://www.openml.org/d/201	https://www.openml.org/d/44133
elevators	16599.0	16.0	https://www.openml.org/d/216	https://www.openml.org/d/44134
wine_quality	6497.0	11.0	https://www.openml.org/d/287	https://www.openml.org/d/44136
Ailerons	13750.0	33.0	https://www.openml.org/d/296	https://www.openml.org/d/44137
yprop_4_1	8885.0	42.0	https://www.openml.org/d/416	https://www.openml.org/d/45032
houses	20640.0	8.0	https://www.openml.org/d/537	https://www.openml.org/d/44138
house_16H	22784.0	16.0	https://www.openml.org/d/574	https://www.openml.org/d/44139
delays_zurich_transport	5465575.0	9.0	https://www.openml.org/d/40753	https://www.openml.org/d/45034
diamonds	53940.0	6.0	https://www.openml.org/d/42225	https://www.openml.org/d/44140
Brazilian_houses	10692.0	8.0	https://www.openml.org/d/42688	https://www.openml.org/d/44141
Bike_Sharing_Demand	17379.0	6.0	https://www.openml.org/d/42712	https://www.openml.org/d/44142
nyc-taxi-green-dec-2016	581835.0	9.0	https://www.openml.org/d/42729	https://www.openml.org/d/44143
house_sales	21613.0	15.0	https://www.openml.org/d/42731	https://www.openml.org/d/44144
sulfur	10081.0	6.0	https://www.openml.org/d/23515	https://www.openml.org/d/44145
medical_charges	163065.0	5.0	https://www.openml.org/d/42720	https://www.openml.org/d/44146
MiamiHousing2016	13932.0	14.0	https://www.openml.org/d/43093	https://www.openml.org/d/44147
superconduct	21263.0	79.0	https://www.openml.org/d/43174	https://www.openml.org/d/44148

Categorical Regression

dataset_name	n_samples	n_features	original_link	new_link
topo_2_1	8885.0	255.0	https://www.openml.org/d/422	https://www.openml.org/d/45041
analcatdata_supreme	4052.0	7.0	https://www.openml.org/d/504	https://www.openml.org/d/44055
visualizing_soil	8641.0	4.0	https://www.openml.org/d/688	https://www.openml.org/d/44056
delays_zurich_transport	5465575.0	12.0	https://www.openml.org/d/40753	https://www.openml.org/d/45045
diamonds	53940.0	9.0	https://www.openml.org/d/42225	https://www.openml.org/d/44059
Allstate_Claims_Severity	188318.0	124.0	https://www.openml.org/d/42571	https://www.openml.org/d/45046
Mercedes_Benz_Greener_Manufacturing	4209.0	359.0	https://www.openml.org/d/42570	https://www.openml.org/d/44061
Brazilian_houses	10692.0	11.0	https://www.openml.org/d/42688	https://www.openml.org/d/44062
Bike_Sharing_Demand	17379.0	11.0	https://www.openml.org/d/42712	https://www.openml.org/d/44063
Airlines_DepDelay_1M	1000000.0	5.0	https://www.openml.org/d/42721	https://www.openml.org/d/45047
nyc-taxi-green-dec-2016	581835.0	16.0	https://www.openml.org/d/42729	https://www.openml.org/d/44065
abalone	4177.0	8.0	https://www.openml.org/d/42726	https://www.openml.org/d/45042
house_sales	21613.0	17.0	https://www.openml.org/d/42731	https://www.openml.org/d/44066
seattlecrime6	52031.0	4.0	https://www.openml.org/d/42496	https://www.openml.org/d/45043
medical_charges	163065.0	5.0	https://www.openml.org/d/42720	https://www.openml.org/d/45048
particulate-matter-ukair-2017	394299.0	6.0	https://www.openml.org/d/42207	https://www.openml.org/d/44068
SGEMM_GPU_kernel_performance	241600.0	9.0	https://www.openml.org/d/43144	https://www.openml.org/d/44069

Dataset Curators

Léo Grinsztajn, Edouard Oyallon, Gaël Varoquaux.

Licensing Information

[More Information Needed]

Citation Information

Léo Grinsztajn, Edouard Oyallon, Gaël Varoquaux. Why do tree-based models still outperform deep learning on typical tabular data?. NeurIPS 2022 Datasets and Benchmarks Track, Nov 2022, New Orleans, United States. ffhal-03723551v2f