最佳实践

本章节介绍部分算法的使用,主要包含分类、回归、聚类、gbdt算法、xgboost算法和prohpet算法。

首先需要创建一个数据库,并安装算法。

create database test1 dbcompatibility='B';
./madpack -s madlib -p opengauss -c opg@127.0.0.1:7651/test1 install

分类算法

以svm分类房价为例子:

  1. 数据集准备。

    DROP TABLE IF EXISTS houses;
    CREATE TABLE houses (id INT, tax INT, bedroom INT, bath FLOAT, price INT,  size INT, lot INT);
    INSERT INTO houses VALUES
    (1 ,  590 ,       2 ,    1 ,  50000 ,  770 , 22100),
    (2 , 1050 ,       3 ,    2 ,  85000 , 1410 , 12000),
    (3 ,   20 ,       3 ,    1 ,  22500 , 1060 ,  3500),
    (4 ,  870 ,       2 ,    2 ,  90000 , 1300 , 17500),
    (5 , 1320 ,       3 ,    2 , 133000 , 1500 , 30000),
    (6 , 1350 ,       2 ,    1 ,  90500 ,  820 , 25700),
    (7 , 2790 ,       3 ,  2.5 , 260000 , 2130 , 25000),
    (8 ,  680 ,       2 ,    1 , 142500 , 1170 , 22000),
    (9 , 1840 ,       3 ,    2 , 160000 , 1500 , 19000),
    (10 , 3680 ,       4 ,    2 , 240000 , 2790 , 20000),
    (11 , 1660 ,       3 ,    1 ,  87000 , 1030 , 17500),
    (12 , 1620 ,       3 ,    2 , 118600 , 1250 , 20000),
    (13 , 3100 ,       3 ,    2 , 140000 , 1760 , 38000),
    (14 , 2070 ,       2 ,    3 , 148000 , 1550 , 14000),
    (15 ,  650 ,       3 ,  1.5 ,  65000 , 1450 , 12000);
    
  2. 模型训练。

    训练前配置相应schema和兼容性参数:

    SET search_path="$user",public,madlib;
    SET behavior_compat_options = 'bind_procedure_searchpath';
    

    使用默认的参数进行训练,分类的条件为‘price < 100000’,SQL语句如下:

    DROP TABLE IF EXISTS houses_svm, houses_svm_summary; 
    SELECT madlib.svm_classification('public.houses','public.houses_svm','price < 100000','ARRAY[1, tax, bath, size]');
    
  3. 查看模型。

    \x on
    SELECT * FROM houses_svm;
    \x off
    

    结果如下:

    -[ RECORD 1 ]------+-----------------------------------------------------------------
    coef               | {.113989576847,-.00226133300602,-.0676303607996,.00179440841072}
    loss               | .614496714256667
    norm_of_gradient   | 108.171180769224
    num_iterations     | 100
    num_rows_processed | 15
    num_rows_skipped   | 0
    dep_var_mapping    | {f,t}
    
  4. 进行预测。

    DROP TABLE IF EXISTS houses_pred; 
    SELECT madlib.svm_predict('public.houses_svm','public.houses','id','public.houses_pred');
    
    • 查看预测结果

      SELECT *, price < 100000 AS actual FROM houses JOIN houses_pred USING (id) ORDER BY id;
      

      结果如下:

       id | tax  | bedroom | bath | price  | size |  lot  | prediction | decision_function | actual
      ----+------+---------+------+--------+------+-------+------------+-------------------+--------
        1 |  590 |       2 |    1 |  50000 |  770 | 22100 | t          |      .09386721875 | t
        2 | 1050 |       3 |    2 |  85000 | 1410 | 12000 | t          |     .134445058042 | t
        3 |   20 |       3 |    1 |  22500 | 1060 |  3500 | t          |   1.9032054712902 | t
        4 |  870 |       2 |    2 |  90000 | 1300 | 17500 | t          |    .3441000739464 | t
        5 | 1320 |       3 |    2 | 133000 | 1500 | 30000 | f          |   -.3146180966186 | f
        6 | 1350 |       2 |    1 |  90500 |  820 | 25700 | f          |  -1.5350254452892 | t
        7 | 2790 |       3 |  2.5 | 260000 | 2130 | 25000 | f          |  -2.5421154971142 | f
        8 |  680 |       2 |    1 | 142500 | 1170 | 22000 | t          |    .6081106124962 | f
        9 | 1840 |       3 |    2 | 160000 | 1500 | 19000 | f          |   -1.490511259749 | f
       10 | 3680 |       4 |    2 | 240000 | 2790 | 20000 | f          |   -3.336577140997 | f
       11 | 1660 |       3 |    1 |  87000 | 1030 | 17500 | f          |  -1.8592129109042 | t
       12 | 1620 |       3 |    2 | 118600 | 1250 | 20000 | f          |  -1.4416201011046 | f
       13 | 3100 |       3 |    2 | 140000 | 1760 | 38000 | f          |   -3.873244660547 | f
       14 | 2070 |       2 |    3 | 148000 | 1550 | 14000 | f          |  -1.9885277913972 | f
       15 |  650 |       3 |  1.5 |  65000 | 1450 | 12000 | t          |   1.1445697772786 | t
      (15 rows)
      
    • 查看误分率

      SELECT COUNT(*) FROM houses_pred JOIN houses USING (id) WHERE houses_pred.prediction != (houses.price < 100000);
      

      结果如下:

      count
      -------
           3
      (1 row)
      
  5. 使用svm其他核进行训练。

    DROP TABLE IF EXISTS houses_svm_gaussian, houses_svm_gaussian_summary, houses_svm_gaussian_random; 
    SELECT madlib.svm_classification( 'public.houses','public.houses_svm_gaussian','price < 100000','ARRAY[1, tax, bath, size]','gaussian','n_components=10', '', 'init_stepsize=1, max_iter=200' );
    

    进行预测,并查看训练结果。

    DROP TABLE IF EXISTS houses_pred_gaussian; 
    SELECT madlib.svm_predict('public.houses_svm_gaussian','public.houses','id', 'public.houses_pred_gaussian');
    SELECT COUNT(*) FROM houses_pred_gaussian JOIN houses USING (id) WHERE houses_pred_gaussian.prediction != (houses.price < 100000);
    

    结果如下。

     count 
    -------+    
    0 
    (1 row)
    
  6. 其他参数

    除了指定不同的核方法外,还可以指定迭代次数,初始参数,比如init_stepsize, max_iter, class_weight等。

须知:

SET search_path="$user",public,madlib;
SET behavior_compat_options = 'bind_procedure_searchpath';

执行算法前,需要设置search_path中schema,另外需要bind_procedure_searchpath,否则出现表找不到的情况。因为机器学习所有的方法安装在一个schema中,用户的表安装在用户的schema中,在这个例子中,算法安装在madlib中,用户表放置在public中。如果不设置,可能会出现执行算法时,找不到表的情况。执行算法时,建议把输入表的scheme也加进去。

回归算法

我们以线性回归预测波士顿房价为例:

  1. 数据集准备。

    同svm的数据集,请参见1

  2. 训练模型。

    SET search_path="$user",public,madlib;
    SET behavior_compat_options = 'bind_procedure_searchpath';
    
    DROP TABLE IF EXISTS houses_linregr, houses_linregr_summary;
    SELECT madlib.linregr_train( 'public.houses', 'public.houses_linregr',  'price', 'ARRAY[1, tax, bath, size]');
    
  3. 查看模型内容。

    \x ON
    SELECT * FROM houses_linregr;
    \x OFF
    

    返回结果如下。

    -[ RECORD 1 ]------------+---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
    coef                     | {-12849.4168959872,28.9613922651775,10181.6290712649,50.516894915353}
    r2                       | .768577580597462
    std_err                  | {33453.0344331377,15.8992104963991,19437.7710925915,32.9280231740856}
    t_stats                  | {-.384103179688204,1.82156166004197,.523806408809163,1.53416118083608}
    p_values                 | {.708223134615411,.0958005827189556,.610804093526516,.153235085548177}
    condition_no             | 9002.50457069858
    num_rows_processed       | 15
    num_missing_rows_skipped | 0
    variance_covariance      | {{1119105512.7847,217782.067878005,-283344228.394538,-616679.693190829},{217782.067878005,252.784894408806,-46373.1796964038,-369.864520095145},{-283344228.394538,-46373.1796964038,377826945.047986,-209088.217319699},{-616679.693190829,-369.864520095145,-209088.217319699,1084.25471015312}}
    
  4. 预测,并对比结果。

    SELECT houses.*,
        madlib.linregr_predict( m.coef, ARRAY[1,tax,bath,size]) as predict,
        price - madlib.linregr_predict( m.coef, ARRAY[1,tax,bath,size]) as residual
    FROM public.houses, public.houses_linregr AS m 
    ORDER BY id;
    

    返回结果如下。

     id | tax  | bedroom | bath | price  | size |  lot  |     predict      |     residual
    ----+------+---------+------+--------+------+-------+------------------+-------------------
      1 |  590 |       2 |    1 |  50000 |  770 | 22100 | 53317.4426965543 | -3317.44269655428
      2 | 1050 |       3 |    2 |  85000 | 1410 | 12000 | 109152.124955627 | -24152.1249556268
      3 |   20 |       3 |    1 |  22500 | 1060 |  3500 | 51459.3486308555 | -28959.3486308555
      4 |  870 |       2 |    2 |  90000 | 1300 | 17500 |  98382.215907206 | -8382.21590720599
      5 | 1320 |       3 |    2 | 133000 | 1500 | 30000 | 121518.221409606 |  11481.7785903935
      6 | 1350 |       2 |    1 |  90500 |  820 | 25700 | 77853.9455638568 |  12646.0544361432
      7 | 2790 |       3 |  2.5 | 260000 | 2130 | 25000 | 201007.926371722 |  58992.0736282778
      8 |  680 |       2 |    1 | 142500 | 1170 | 22000 | 76130.7259665615 |  66369.2740334385
      9 | 1840 |       3 |    2 | 160000 | 1500 | 19000 | 136578.145387499 |  23421.8546125013
     10 | 3680 |       4 |    2 | 240000 | 2790 | 20000 | 255033.901596231 | -15033.9015962306
     11 | 1660 |       3 |    1 |  87000 | 1030 | 17500 | 97440.5250982859 | -10440.5250982859
     12 | 1620 |       3 |    2 | 118600 | 1250 | 20000 | 117577.415360321 |  1022.58463967856
     13 | 3100 |       3 |    2 | 140000 | 1760 | 38000 | 186203.892319614 | -46203.8923196141
     14 | 2070 |       2 |    3 | 148000 | 1550 | 14000 | 155946.739425522 | -7946.73942552213
     15 |  650 |       3 |  1.5 |  65000 | 1450 | 12000 | 94497.4293105374 | -29497.4293105374
    (15 rows)
    

聚类算法

以kmeans为例:

  1. 准备数据。

    DROP TABLE IF EXISTS km_sample; 
    CREATE TABLE km_sample(pid int, points double precision[]); 
    INSERT INTO km_sample VALUES 
    (1,  '{14.23, 1.71, 2.43, 15.6, 127, 2.8, 3.0600, 0.2800, 2.29, 5.64, 1.04, 3.92, 1065}'), 
    (2,  '{13.2, 1.78, 2.14, 11.2, 1, 2.65, 2.76, 0.26, 1.28, 4.38, 1.05, 3.49, 1050}'), 
    (3,  '{13.16, 2.36,  2.67, 18.6, 101, 2.8,  3.24, 0.3, 2.81, 5.6799, 1.03, 3.17, 1185}'), 
    (4,  '{14.37, 1.95, 2.5, 16.8, 113, 3.85, 3.49, 0.24, 2.18, 7.8, 0.86, 3.45, 1480}'), 
    (5,  '{13.24, 2.59, 2.87, 21, 118, 2.8, 2.69, 0.39, 1.82, 4.32, 1.04, 2.93, 735}'), 
    (6,  '{14.2, 1.76, 2.45, 15.2, 112, 3.27, 3.39, 0.34, 1.97, 6.75, 1.05, 2.85, 1450}'), 
    (7,  '{14.39, 1.87, 2.45, 14.6, 96, 2.5, 2.52, 0.3, 1.98, 5.25, 1.02, 3.58, 1290}'), 
    (8,  '{14.06, 2.15, 2.61, 17.6, 121, 2.6, 2.51, 0.31, 1.25, 5.05, 1.06, 3.58, 1295}'), 
    (9,  '{14.83, 1.64, 2.17, 14, 97, 2.8, 2.98, 0.29, 1.98, 5.2, 1.08, 2.85, 1045}'), 
    (10, '{13.86, 1.35, 2.27, 16, 98, 2.98, 3.15, 0.22, 1.8500, 7.2199, 1.01, 3.55, 1045}');
    
  2. 运行kmeans算法。

    使用kmeans++进行计算,距离函数使用欧几里得距离。

    SET search_path="$user",public,madlib;
    SET behavior_compat_options = 'bind_procedure_searchpath';
    
    DROP TABLE IF EXISTS km_result; 
    CREATE TABLE km_result AS SELECT * FROM madlib.kmeanspp( 'public.km_sample',   -- Table of source data                              
                                                             'points',      -- Column containing point co-ordinates                              
                                                             2,             -- Number of centroids to calculate                              
                                                             'madlib.squared_dist_norm2',   -- Distance function                              
                                                             'madlib.avg',  -- Aggregate function                              
                                                             20,            -- Number of iterations                             
                                                             0.001          -- Fraction of centroids reassigned to keep iterating
    );
    

    kmeans执行完后,不会自动创建表保存内容,所以需要用户自行创建table。

    \x on
     select * from km_result;
    \x off
    

    返回结果如下。

    -[ RECORD 1 ]----+-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
    centroids        | {{14.0333333333333,1.84111111111111,2.41,15.5111111111111,96.2222222222222,2.91666666666667,3.01111111111111,.282222222222222,1.95444444444444,5.88553333333333,1.02222222222222,3.38222222222222,1211.66666666667},{13.24,2.59,2.87,21,118,2.8,2.69,.39,1.82,4.32,1.04,2.93,735}}
    cluster_variance | {257041.999707571,0}
    objective_fn     | 257041.999707571
    frac_reassigned  | 0
    num_iterations   | 2
    
  3. 应用聚类结果。

    执行以下函数,计算每个节点的临近节点和相应距离。

    DROP TABLE IF EXISTS km_points_silh; 
    SELECT * FROM madlib.simple_silhouette_points('public.km_sample',          -- Input points table
                                                  'public.km_points_silh',      -- Output table
                                                  'pid',                 -- Point ID column in input table
                                                  'points',              -- Points column in input table
                                                  'public.km_result',           -- Centroids table
                                                  'centroids',           -- Column in centroids table containing centroids
                                                  'madlib.squared_dist_norm2'   -- Distance function
    ); 
    SELECT * FROM km_points_silh ORDER BY pid;
    

    返回结果如下。

     pid | centroid_id | neighbor_centroid_id |       silh
    -----+-------------+----------------------+------------------
       1 |           0 |                    1 | .793983543638996
       2 |           0 |                    1 | .688301735667703
       3 |           0 |                    1 | .996324103148159
       4 |           0 |                    1 | .869765755931474
       5 |           1 |                    0 |                1
       6 |           0 |                    1 | .888416176253661
       7 |           0 |                    1 | .980107240092519
       8 |           0 |                    1 | .975880363039906
       9 |           0 |                    1 | .712384473959954
      10 |           0 |                    1 | .712198411442872
    (10 rows)
    

gbdt算法

gdbt的基学习器虽然是回归树,但算法本身支持分类和回归两种操作。以下将展示两种任务的具体实现。这里值得注意的一点是,本方法不支持标签列含有空值(NULL)的情况。

分类任务

  1. 准备数据。

    DROPTABLEIFEXISTS dt_golf CASCADE;
    DROPTABLEIFEXISTS train_output,train_output_summary;
    CREATETABLE dt_golf (
        id integerNOTNULL,
    "OUTLOOK"text,
        temperature double precision,
        humidity double precision,
    "Cont_features"double precision[],
        cat_features text[],
        windy boolean,
        class integer
    ) ;
    INSERTINTO dt_golf (id,"OUTLOOK",temperature,humidity,"Cont_features",cat_features, windy,class) VALUES
    (1, 'sunny', 85, 85,ARRAY[85, 85], ARRAY['a', 'b'], false, 0),
    (2, 'sunny', 80, 90, ARRAY[80, 90], ARRAY['a', 'b'], true, 0),
    (3, 'overcast', 83, 78, ARRAY[83, 78], ARRAY['a', 'b'], false, 1),
    (4, 'rain', 70, NULL, ARRAY[70, 96], ARRAY['a', 'b'], false, 1),
    (5, 'rain', 68, 80, ARRAY[68, 80], ARRAY['a', 'b'], false, 1),
    (6, 'rain', NULL, 70, ARRAY[65, 70], ARRAY['a', 'b'], true, 0),
    (7, 'overcast', 64, 65, ARRAY[64, 65], ARRAY['c', 'b'], NULL , 1),
    (8, 'sunny', 72, 95, ARRAY[72, 95], ARRAY['a', 'b'], false, 0),
    (9, 'sunny', 69, 70, ARRAY[69, 70], ARRAY['a', 'b'], false, 1),
    (10, 'rain', 75, 80, ARRAY[75, 80], ARRAY['a', 'b'], false, 1),
    (11, 'sunny', 75, 70, ARRAY[75, 70], ARRAY['a', 'd'], true, 1),
    (12, 'overcast', 72, 90, ARRAY[72, 90], ARRAY['c', 'b'], NULL, 1),
    (13, 'overcast', 81, 75, ARRAY[81, 75], ARRAY['a', 'b'], false, 1),
    (15, NULL, 81, 75, ARRAY[81, 75], ARRAY['a', 'b'], false, 1),
    (16, 'overcast', NULL, 75, ARRAY[81, 75], ARRAY['a', 'd'], false,1),
    (14, 'rain', 71, 80, ARRAY[71, 80], ARRAY['c', 'b'], true, 0);
    
  2. 训练模型。

    select madlib.gbdt_train('dt_golf',         -- source table
                      'train_output',    -- output model table
                      'id'  ,            -- id column
                      'class',           -- response
                      '"OUTLOOK", temperature',          -- features
                      NULL,        -- exclude columns
                      1,       --weight
                      10,                -- num of trees
                      NULL,                 -- num of random features
                      10,       -- max depth
                      1,        -- min split
                      1,        -- min bucket
                      8,        -- number of bins per continuous variable
                      'max_surrogates=0',
                      TRUE
    );
    

    模型训练结束会生成两个表,其中一张表train_output中保存着gdbt中的回归树模型,内容包括对每一个基学习器的参数记录。

           Column       |     Type      | Modifiers | Storage  | Stats target | Description
    --------------------+---------------+-----------+----------+--------------+-------------
     iteration          | integer       |           | plain    |              |
     tree               | madlib.bytea8 |           | external |              |
     cat_levels_in_text | text[]        |           | extended |              |
     cat_n_levels       | integer[]     |           | extended |              |
     tree_depth         | integer       |           | plain    |              |
    
     iteration |  cat_levels_in_text   | cat_n_levels | tree_depth
    -----------+-----------------------+--------------+------------
             0 | {sunny,rain,overcast} | {3}          |          4
             1 | {sunny,rain,overcast} | {3}          |          5
             2 | {sunny,rain,overcast} | {3}          |          6
             3 | {sunny,rain,overcast} | {3}          |          4
             4 | {sunny,rain,overcast} | {3}          |          5
             5 | {sunny,rain,overcast} | {3}          |          5
             6 | {sunny,rain,overcast} | {3}          |          5
             7 | {sunny,rain,overcast} | {3}          |          5
             8 | {sunny,rain,overcast} | {3}          |          4
             9 | {sunny,rain,overcast} | {3}          |          3
    (10 rows)
    

    另一张表train_output_summary,内容是对gdbt训练的整体描述:

    select * from train_output_summary;
     method | cat_features | con_features | source_table | model_table  | null_proxy | learning_rate | is_classification | predict_dt_prob | num_trees
    --------+--------------+--------------+--------------+--------------+------------+---------------+-------------------+-----------------+-----------
     GBDT   | "OUTLOOK"    | temperature  | dt_golf      | train_output |            |           .01 | t                 | response        |        10
    (1 row)
    
  3. 预测。

    select madlib.gbdt_predict('dt_golf2','train_output','test_output','id');
    

    查看预测结果

    select test_output.id, test_prediction,class from test_output join dt_golf using (id);
    id | test_prediction | class
    ----+-----------------+-------
      1 |             1.0 |     0
      2 |             1.0 |     0
      3 |             1.0 |     1
      4 |             1.0 |     1
      5 |             1.0 |     1
      6 |             1.0 |     0
      7 |             1.0 |     1
      8 |             0.0 |     0
      9 |             1.0 |     1
     10 |             1.0 |     1
     11 |             1.0 |     1
     12 |             1.0 |     1
     13 |             1.0 |     1
     15 |             0.0 |     1
     16 |             1.0 |     1
     14 |             0.0 |     0
    (16 rows)
    

回归任务

  1. 准备数据。

    DROP TABLE IF EXISTS crime;
    CREATE TABLE crime (
    	id SERIAL NOT NULL,
        CrimeRat DOUBLE PRECISION,
        MaleTeen INTEGER,
        South SMALLINT,
        Educ DOUBLE PRECISION,
        Police60 INTEGER,
        Police59 INTEGER,
        Labor INTEGER,
        Males INTEGER,
        Pop   INTEGER,
        NonWhite INTEGER,
        Unemp1  INTEGER,
        Unemp2  INTEGER,
        Median  INTEGER,
        BelowMed INTEGER
    );
    
    INSERT INTO crime(
        CrimeRat, MaleTeen, South, Educ, Police60, Police59, Labor, Males, Pop,
        NonWhite, Unemp1, Unemp2, Median, BelowMed
    ) VALUES
    (79.1, 151, 1, 9.1, 58, 56, 510, 950, 33, 301, 108, 41, 394, 261),
    (163.5, 143, 0, 11.3, 103, 95, 583, 1012, 13, 102, 96, 36, 557, 194),
    (57.8, 142, 1, 8.9, 45, 44, 533, 969, 18, 219, 94, 33, 318, 250),
    (196.9, 136, 0, 12.1, 149, 141, 577, 994, 157, 80, 102, 39, 673, 167),
    (123.4, 141, 0, 12.1, 109, 101, 591, 985, 18, 30, 91, 20, 578, 174),
    (68.2, 121, 0, 11.0, 118, 115, 547, 964, 25, 44, 84, 29, 689, 126),
    (96.3, 127, 1, 11.1, 82, 79, 519, 982, 4, 139, 97, 38, 620, 168),
    (155.5, 131, 1, 10.9, 115, 109, 542, 969, 50, 179, 79, 35, 472, 206),
    (85.6, 157, 1, 9.0, 65, 62, 553, 955, 39, 286, 81, 28, 421, 239),
    (70.5, 140, 0, 11.8, 71, 68, 632, 1029, 7, 15, 100, 24, 526, 174),
    (167.4, 124, 0, 10.5, 121, 116, 580, 966, 101, 106, 77, 35, 657, 170),
    (84.9, 134, 0, 10.8, 75, 71, 595, 972, 47, 59, 83, 31, 580, 172),
    (51.1, 128, 0, 11.3, 67, 60, 624, 972, 28, 10, 77, 25, 507, 206),
    (66.4, 135, 0, 11.7, 62, 61, 595, 986, 22, 46, 77, 27, 529, 190),
    (79.8, 152, 1, 8.7, 57, 53, 530, 986, 30, 72, 92, 43, 405, 264),
    (94.6, 142, 1, 8.8, 81, 77, 497, 956, 33, 321, 116, 47, 427, 247),
    (53.9, 143, 0, 11.0, 66, 63, 537, 977, 10, 6, 114, 35, 487, 166),
    (92.9, 135, 1, 10.4, 123, 115, 537, 978, 31, 170, 89, 34, 631, 165),
    (75.0, 130, 0, 11.6, 128, 128, 536, 934, 51, 24, 78, 34, 627, 135),
    (122.5, 125, 0, 10.8, 113, 105, 567, 985, 78, 94, 130, 58, 626, 166),
    (74.2, 126, 0, 10.8, 74, 67, 602, 984, 34, 12, 102, 33, 557, 195),
    (43.9, 157, 1, 8.9, 47, 44, 512, 962, 22, 423, 97, 34, 288, 276),
    (121.6, 132, 0, 9.6, 87, 83, 564, 953, 43, 92, 83, 32, 513, 227),
    (96.8, 131, 0, 11.6, 78, 73, 574, 1038, 7, 36, 142, 42, 540, 176),
    (52.3, 130, 0, 11.6, 63, 57, 641, 984, 14, 26, 70, 21, 486, 196),
    (199.3, 131, 0, 12.1, 160, 143, 631, 1071, 3, 77, 102, 41, 674, 152),
    (34.2, 135, 0, 10.9, 69, 71, 540, 965, 6, 4, 80, 22, 564, 139),
    (121.6, 152, 0, 11.2, 82, 76, 571, 1018, 10, 79, 103, 28, 537, 215),
    (104.3, 119, 0, 10.7, 166, 157, 521, 938, 168, 89, 92, 36, 637, 154),
    (69.6, 166, 1, 8.9, 58, 54, 521, 973, 46, 254, 72, 26, 396, 237),
    (37.3, 140, 0, 9.3, 55, 54, 535, 1045, 6, 20, 135, 40, 453, 200),
    (75.4, 125, 0, 10.9, 90, 81, 586, 964, 97, 82, 105, 43, 617, 163),
    (107.2, 147, 1, 10.4, 63, 64, 560, 972, 23, 95, 76, 24, 462, 233),
    (92.3, 126, 0, 11.8, 97, 97, 542, 990, 18, 21, 102, 35, 589, 166),
    (65.3, 123, 0, 10.2, 97, 87, 526, 948, 113, 76, 124, 50, 572, 158),
    (127.2, 150, 0, 10.0, 109, 98, 531, 964, 9, 24, 87, 38, 559, 153),
    (83.1, 177, 1, 8.7, 58, 56, 638, 974, 24, 349, 76, 28, 382, 254),
    (56.6, 133, 0, 10.4, 51, 47, 599, 1024, 7, 40, 99, 27, 425, 225),
    (82.6, 149, 1, 8.8, 61, 54, 515, 953, 36, 165, 86, 35, 395, 251),
    (115.1, 145, 1, 10.4, 82, 74, 560, 981, 96, 126, 88, 31, 488, 228),
    (88.0, 148, 0, 12.2, 72, 66, 601, 998, 9, 19, 84, 20, 590, 144),
    (54.2, 141, 0, 10.9, 56, 54, 523, 968, 4, 2, 107, 37, 489, 170),
    (82.3, 162, 1, 9.9, 75, 70, 522, 996, 40, 208, 73, 27, 496, 224),
    (103.0, 136, 0, 12.1, 95, 96, 574, 1012, 29, 36, 111, 37, 622, 162),
    (45.5, 139, 1, 8.8, 46, 41, 480, 968, 19, 49, 135, 53, 457, 249),
    (50.8, 126, 0, 10.4, 106, 97, 599, 989, 40, 24, 78, 25, 593, 171),
    (84.9, 130, 0, 12.1, 90, 91, 623, 1049, 3, 22, 113, 40, 588, 160);
    
  2. 训练模型。

    select madlib.gbdt_train('crime',         -- source table
                      'train_output',    -- output model table
                      'id'  ,            -- id column
                      'CrimeRat',           -- response
                     '*',          -- features
                      NULL,        -- exclude columns
                      1,       --weight
                      20,                -- num of trees
                      4,                 -- num of random features
                      10,       -- max depth
                      1,        -- min split
                      1,        -- min bucket
                      8,        -- number of bins per continuous variable
                      'max_surrogates=0',
                      FALSE
    );
    

    当is_clasification设为FALSE时,模型为回归任务。默认状态下gbdt提供回归计算支持。方法生成两个表,其中一张表记录每棵树的集体信息和模型的二进制,一张表记录方法的参数信息。

  3. 预测。

    select madlib.gbdt_predict('crime','train_output','test_output','id');
    

    查看预测结果:

    select test_output.id, test_prediction,CrimeRat  from test_output join crime using (id);
    
     id |  test_prediction   | crimerat
    ----+--------------------+----------
      1 |               79.1 |     79.1
      2 |              163.5 |    163.5
      3 |               57.8 |     57.8
      4 |              196.9 |    196.9
      5 |              123.4 |    123.4
      6 |               68.2 |     68.2
      7 |   96.2999999992251 |     96.3
      8 | 155.49842087765936 |    155.5
      9 |              84.35 |     85.6
     10 |  70.50157912234037 |     70.5
     11 |  167.4000000007749 |    167.4
     12 |               84.9 |     84.9
     13 |               51.1 |     51.1
     14 |               66.4 |     66.4
     15 |               79.8 |     79.8
     16 |               94.6 |     94.6
     17 |               53.9 |     53.9
     18 |               92.9 |     92.9
     19 |               75.0 |       75
     20 |              122.5 |    122.5
     21 |               74.2 |     74.2
     22 |               43.9 |     43.9
     23 |              121.6 |    121.6
     24 |               96.8 |     96.8
     25 |               52.3 |     52.3
     26 |              199.3 |    199.3
     27 |               34.2 |     34.2
     28 |              121.6 |    121.6
     29 |              104.3 |    104.3
     30 |               69.6 |     69.6
     31 |               37.3 |     37.3
     32 |               75.4 |     75.4
     33 |              107.2 |    107.2
     34 |               92.3 |     92.3
     35 |   65.2999999992251 |     65.3
     36 | 127.19842087765963 |    127.2
     37 |  84.35000000002215 |     83.1
     38 |  56.60155638297881 |     56.6
     39 |  82.45000000075257 |     82.6
     40 | 115.10002273936168 |    115.1
     41 |               88.0 |       88
     42 |  54.19997726063828 |     54.2
     43 |  82.44999999999999 |     82.3
     44 | 103.00002273936173 |      103
     45 | 45.500000000000156 |     45.5
     46 |               50.8 |     50.8
     47 |               84.9 |     84.9
    (47 rows)
    

xgboost算法

新增的xgboost支持分类和回归两种操作。下面以分类iris花为例,展示xgboost算法。

xgboost支持grid search方式,可以同时训练多组参数。

  1. 准备数据。

    DROP TABLE IF EXISTS iris;
    create table iris (id serial, a float, d float, c float, b float, label int);
    
    INSERT into iris (a, b, c, d, label) values 
    (5.1, 3.5, 1.4, 0.2, 0),(4.9, 3.0, 1.4, 0.2, 0),(4.7, 3.2, 1.3, 0.2, 0),(4.6, 3.1, 1.5, 0.2, 0),
    (5.0, 3.6, 1.4, 0.2, 0),(5.4, 3.9, 1.7, 0.4, 0),(4.6, 3.4, 1.4, 0.3, 0),(5.0, 3.4, 1.5, 0.2, 0),
    (4.4, 2.9, 1.4, 0.2, 0),(4.9, 3.1, 1.5, 0.1, 0),(5.4, 3.7, 1.5, 0.2, 0),(4.8, 3.4, 1.6, 0.2, 0),
    (4.8, 3.0, 1.4, 0.1, 0),(4.3, 3.0, 1.1, 0.1, 0),(5.8, 4.0, 1.2, 0.2, 0),(5.7, 4.4, 1.5, 0.4, 0),
    (5.4, 3.9, 1.3, 0.4, 0),(5.1, 3.5, 1.4, 0.3, 0),(5.7, 3.8, 1.7, 0.3, 0),(5.1, 3.8, 1.5, 0.3, 0),
    (5.4, 3.4, 1.7, 0.2, 0),(5.1, 3.7, 1.5, 0.4, 0),(4.6, 3.6, 1.0, 0.2, 0),(5.1, 3.3, 1.7, 0.5, 0),
    (4.8, 3.4, 1.9, 0.2, 0),(5.0, 3.0, 1.6, 0.2, 0),(5.0, 3.4, 1.6, 0.4, 0),(5.2, 3.5, 1.5, 0.2, 0),
    (5.2, 3.4, 1.4, 0.2, 0),(4.7, 3.2, 1.6, 0.2, 0),(4.8, 3.1, 1.6, 0.2, 0),(5.4, 3.4, 1.5, 0.4, 0),
    (5.2, 4.1, 1.5, 0.1, 0),(5.5, 4.2, 1.4, 0.2, 0),(4.9, 3.1, 1.5, 0.2, 0),(5.0, 3.2, 1.2, 0.2, 0),
    (5.5, 3.5, 1.3, 0.2, 0),(4.9, 3.6, 1.4, 0.1, 0),(4.4, 3.0, 1.3, 0.2, 0),(5.1, 3.4, 1.5, 0.2, 0),
    (5.0, 3.5, 1.3, 0.3, 0),(4.5, 2.3, 1.3, 0.3, 0),(4.4, 3.2, 1.3, 0.2, 0),(5.0, 3.5, 1.6, 0.6, 0),
    (5.1, 3.8, 1.9, 0.4, 0),(4.8, 3.0, 1.4, 0.3, 0),(5.1, 3.8, 1.6, 0.2, 0),(4.6, 3.2, 1.4, 0.2, 0),
    (5.3, 3.7, 1.5, 0.2, 0),(5.0, 3.3, 1.4, 0.2, 0),(7.0, 3.2, 4.7, 1.4, 1),(6.4, 3.2, 4.5, 1.5, 1),
    (6.9, 3.1, 4.9, 1.5, 1),(5.5, 2.3, 4.0, 1.3, 1),(6.5, 2.8, 4.6, 1.5, 1),(5.7, 2.8, 4.5, 1.3, 1),
    (6.3, 3.3, 4.7, 1.6, 1),(4.9, 2.4, 3.3, 1.0, 1),(6.6, 2.9, 4.6, 1.3, 1),(5.2, 2.7, 3.9, 1.4, 1),
    (5.0, 2.0, 3.5, 1.0, 1),(5.9, 3.0, 4.2, 1.5, 1),(6.0, 2.2, 4.0, 1.0, 1),(6.1, 2.9, 4.7, 1.4, 1),
    (5.6, 2.9, 3.6, 1.3, 1),(6.7, 3.1, 4.4, 1.4, 1),(5.6, 3.0, 4.5, 1.5, 1),(5.8, 2.7, 4.1, 1.0, 1),
    (6.2, 2.2, 4.5, 1.5, 1),(5.6, 2.5, 3.9, 1.1, 1),(5.9, 3.2, 4.8, 1.8, 1),(6.1, 2.8, 4.0, 1.3, 1),
    (6.3, 2.5, 4.9, 1.5, 1),(6.1, 2.8, 4.7, 1.2, 1),(6.4, 2.9, 4.3, 1.3, 1),(6.6, 3.0, 4.4, 1.4, 1),
    (6.8, 2.8, 4.8, 1.4, 1),(6.7, 3.0, 5.0, 1.7, 1),(6.0, 2.9, 4.5, 1.5, 1),(5.7, 2.6, 3.5, 1.0, 1),
    (5.5, 2.4, 3.8, 1.1, 1),(5.5, 2.4, 3.7, 1.0, 1),(5.8, 2.7, 3.9, 1.2, 1),(6.0, 2.7, 5.1, 1.6, 1),
    (5.4, 3.0, 4.5, 1.5, 1),(6.0, 3.4, 4.5, 1.6, 1),(6.7, 3.1, 4.7, 1.5, 1),(6.3, 2.3, 4.4, 1.3, 1),
    (5.6, 3.0, 4.1, 1.3, 1),(5.5, 2.5, 4.0, 1.3, 1),(5.5, 2.6, 4.4, 1.2, 1),(6.1, 3.0, 4.6, 1.4, 1),
    (5.8, 2.6, 4.0, 1.2, 1),(5.0, 2.3, 3.3, 1.0, 1),(5.6, 2.7, 4.2, 1.3, 1),(5.7, 3.0, 4.2, 1.2, 1),
    (5.7, 2.9, 4.2, 1.3, 1),(6.2, 2.9, 4.3, 1.3, 1),(5.1, 2.5, 3.0, 1.1, 1),(5.7, 2.8, 4.1, 1.3, 1),
    (6.3, 3.3, 6.0, 2.5, 2),(5.8, 2.7, 5.1, 1.9, 2),(7.1, 3.0, 5.9, 2.1, 2),(6.3, 2.9, 5.6, 1.8, 2),
    (6.5, 3.0, 5.8, 2.2, 2),(7.6, 3.0, 6.6, 2.1, 2),(4.9, 2.5, 4.5, 1.7, 2),(7.3, 2.9, 6.3, 1.8, 2),
    (6.7, 2.5, 5.8, 1.8, 2),(7.2, 3.6, 6.1, 2.5, 2),(6.5, 3.2, 5.1, 2.0, 2),(6.4, 2.7, 5.3, 1.9, 2),
    (6.8, 3.0, 5.5, 2.1, 2),(5.7, 2.5, 5.0, 2.0, 2),(5.8, 2.8, 5.1, 2.4, 2),(6.4, 3.2, 5.3, 2.3, 2),
    (6.5, 3.0, 5.5, 1.8, 2),(7.7, 3.8, 6.7, 2.2, 2),(7.7, 2.6, 6.9, 2.3, 2),(6.0, 2.2, 5.0, 1.5, 2),
    (6.9, 3.2, 5.7, 2.3, 2),(5.6, 2.8, 4.9, 2.0, 2),(7.7, 2.8, 6.7, 2.0, 2),(6.3, 2.7, 4.9, 1.8, 2),
    (6.7, 3.3, 5.7, 2.1, 2),(7.2, 3.2, 6.0, 1.8, 2),(6.2, 2.8, 4.8, 1.8, 2),(6.1, 3.0, 4.9, 1.8, 2),
    (6.4, 2.8, 5.6, 2.1, 2),(7.2, 3.0, 5.8, 1.6, 2),(7.4, 2.8, 6.1, 1.9, 2),(7.9, 3.8, 6.4, 2.0, 2),
    (6.4, 2.8, 5.6, 2.2, 2),(6.3, 2.8, 5.1, 1.5, 2),(6.1, 2.6, 5.6, 1.4, 2),(7.7, 3.0, 6.1, 2.3, 2),
    (6.3, 3.4, 5.6, 2.4, 2),(6.4, 3.1, 5.5, 1.8, 2),(6.0, 3.0, 4.8, 1.8, 2),(6.9, 3.1, 5.4, 2.1, 2),
    (6.7, 3.1, 5.6, 2.4, 2),(6.9, 3.1, 5.1, 2.3, 2),(5.8, 2.7, 5.1, 1.9, 2),(6.8, 3.2, 5.9, 2.3, 2),
    (6.7, 3.3, 5.7, 2.5, 2),(6.7, 3.0, 5.2, 2.3, 2),(6.3, 2.5, 5.0, 1.9, 2),(6.5, 3.0, 5.2, 2.0, 2),
    (6.2, 3.4, 5.4, 2.3, 2),(5.9, 3.0, 5.1, 1.8, 2);
    
  2. 执行分类训练操作。

    SET search_path="$user",public,madlib;
    SET behavior_compat_options = 'bind_procedure_searchpath';
    select madlib.xgboost_sk_Classifier('public.iris', 'public.iris_model_xgbc', 'id', 'label', 'a,b,c,d', NULL, 
    $${'booster': ['gbtree'], 'eta':   (0.1, 0.9), 'max_depth': (5,1), 'objective': ('multi:softmax',)}$$,   -- 训练参数组合,如果有多个参数,请用元组或者列表的方式传入
    TRUE);                                  -- 是否评估模型,多分类评价为精确度和kappa值;二分类评价指标为precision, recall, fscore和support;回归评价指标为mae, mse, R2squared和rmse
    

    xgboost支持多组参数并行训练,比如用例中eta值为0.1和0.9,最大深度为5或者1。

    select id, train_timestamp, source_table, y_type, metrics, features, params from iris_model_xgbc;
    

    查看模型结果如下。

     id |        train_timestamp        | source_table | y_type  |          metrics           | features  |                                     params
    ----+-------------------------------+--------------+---------+----------------------------+-----------+---------------------------------------------------------------------------------
      1 | 2020-12-14 20:15:05.904184+08 | public.iris  | integer | {'acc': 1.0, 'kappa': 1.0} | {a,b,c,d} | ('objective = multi:softmax', 'eta = 0.1', 'max_depth = 5', 'booster = gbtree')
      2 | 2020-12-14 20:15:05.904184+08 | public.iris  | integer | {'acc': 1.0, 'kappa': 1.0} | {a,b,c,d} | ('objective = multi:softmax', 'eta = 0.1', 'max_depth = 1', 'booster = gbtree')
      3 | 2020-12-14 20:15:05.904184+08 | public.iris  | integer | {'acc': 1.0, 'kappa': 1.0} | {a,b,c,d} | ('objective = multi:softmax', 'eta = 0.9', 'max_depth = 5', 'booster = gbtree')
      4 | 2020-12-14 20:15:05.904184+08 | public.iris  | integer | {'acc': 1.0, 'kappa': 1.0} | {a,b,c,d} | ('objective = multi:softmax', 'eta = 0.9', 'max_depth = 1', 'booster = gbtree')
    (4 rows)
    

    结果表中,记录着训练时间,特征,结果类型,所用参数等。

    在本示例函数输入中,eta选择为2种,max_depth选择为2种,总共4种参数组合。所以在结果中,有4行结果;在metrics列中,记录4种参数组合的训练后的评价结果。用户可以输入多种参数组合,训练后,用户可以选择合适的模型留下。

  3. 预测结果。

    select madlib.xgboost_sk_predict('public.iris', 'public.iris_model_xgbc', 'public.iris_xgbc_out', 'id');
    select t1.id, prediction, label from iris as t1, iris_xgbc_out as t2 where t1.id = t2.id and prediction <> label;
    

    查看结果,预测和训练结果的对比,当前不匹配的行数为0,证明分类准确性较高。

     id | prediction | label
    ----+------------+-------
    (0 rows)
    

prophet算法

新增facebook的prophet时序预测算法。下面以时序数据为例,展示prophet算法使用。

  1. 准备数据。

    DROP TABLE IF EXISTS ts_data;
    CREATE TABLE ts_data(date date, value float);
    
    INSERT into ts_data (date, value) values 
    ('2016-11-29 21:20:00', 5.6),('2016-11-29 21:30:00', 5.2),('2016-11-29 21:40:00', 5.3),('2016-11-29 21:50:00', 5.3),
    ('2016-11-29 22:00:00', 5.1),('2016-11-29 22:10:00', 5.8),('2016-11-29 22:20:00', 5.6),('2016-11-29 22:30:00', 5.4),
    ('2016-11-29 22:40:00', 5.4),('2016-11-29 22:50:00', 5.1),('2016-11-29 23:00:00', 5.2),('2016-11-29 23:10:00', 5.9),
    ('2016-11-29 23:20:00', 5.9),('2016-11-29 23:30:00', 5.1),('2016-11-29 23:40:00', 5.8),('2016-11-29 23:50:00', 6.0),
    ('2016-11-30 00:00:00', 5.9),('2016-11-30 00:10:00', 5.3),('2016-11-30 00:20:00', 5.4),('2016-11-30 00:30:00', 5.1),
    ('2016-11-30 00:40:00', 5.6),('2016-11-30 00:50:00', 5.7),('2016-11-30 01:00:00', 5.8),('2016-11-30 01:10:00', 5.4),
    ('2016-11-30 01:20:00', 5.8),('2016-11-30 01:30:00', 5.1),('2016-11-30 01:40:00', 5.6),('2016-11-30 01:50:00', 5.6),
    ('2016-11-30 02:00:00', 5.6),('2016-11-30 02:10:00', 5.9),('2016-11-30 02:20:00', 5.7),('2016-11-30 02:30:00', 5.4),
    ('2016-11-30 02:40:00', 5.6),('2016-11-30 02:50:00', 5.4),('2016-11-30 03:00:00', 5.1),('2016-11-30 03:10:00', 5.0),
    ('2016-11-30 03:20:00', 5.9),('2016-11-30 03:30:00', 5.8),('2016-11-30 03:40:00', 5.4),('2016-11-30 03:50:00', 5.7),
    ('2016-11-30 04:00:00', 5.6),('2016-11-30 04:10:00', 5.9),('2016-11-30 04:20:00', 5.1),('2016-11-30 04:30:00', 5.8),
    ('2016-11-30 04:40:00', 5.5),('2016-11-30 04:50:00', 5.1),('2016-11-30 05:00:00', 5.8),('2016-11-30 05:10:00', 5.5),
    ('2016-11-30 05:20:00', 5.7),('2016-11-30 05:30:00', 5.2),('2016-11-30 05:40:00', 5.7),('2016-11-30 05:50:00', 6.0),
    ('2016-11-30 06:00:00', 5.8),('2016-11-30 06:10:00', 5.6),('2016-11-30 06:20:00', 5.2),('2016-11-30 06:30:00', 5.8),
    ('2016-11-30 06:40:00', 5.3),('2016-11-30 06:50:00', 5.4),('2016-11-30 07:00:00', 5.8),('2016-11-30 07:10:00', 5.2),
    ('2016-11-30 07:20:00', 5.3),('2016-11-30 07:30:00', 5.3),('2016-11-30 07:40:00', 5.8),('2016-11-30 07:50:00', 5.9),
    ('2016-11-30 08:00:00', 5.6),('2016-11-30 08:10:00', 5.2),('2016-11-30 08:20:00', 5.4),('2016-11-30 08:30:00', 5.6),
    ('2016-11-30 08:40:00', 6.0),('2016-11-30 08:50:00', 5.4),('2016-11-30 09:00:00', 6.0),('2016-11-30 09:10:00', 5.1),
    ('2016-11-30 09:20:00', 5.1),('2016-11-30 09:30:00', 5.5),('2016-11-30 09:40:00', 5.6),('2016-11-30 09:50:00', 5.0),
    ('2016-11-30 10:00:00', 5.1),('2016-11-30 10:10:00', 5.7),('2016-11-30 10:20:00', 5.4),('2016-11-30 10:30:00', 5.4),
    ('2016-11-30 10:40:00', 5.7),('2016-11-30 10:50:00', 5.2),('2016-11-30 11:00:00', 5.4),('2016-11-30 11:10:00', 5.3),
    ('2016-11-30 11:20:00', 5.6),('2016-11-30 11:30:00', 5.0),('2016-11-30 11:40:00', 5.2),('2016-11-30 11:50:00', 5.2),
    ('2016-11-30 12:00:00', 5.5),('2016-11-30 12:10:00', 5.1),('2016-11-30 12:20:00', 5.7),('2016-11-30 12:30:00', 5.4),
    ('2016-11-30 12:40:00', 5.2),('2016-11-30 12:50:00', 5.5),('2016-11-30 13:00:00', 5.0),('2016-11-30 13:10:00', 5.5),
    ('2016-11-30 13:20:00', 5.6),('2016-11-30 13:30:00', 5.3),('2016-11-30 13:40:00', 5.5),('2016-11-30 13:50:00', 5.9),
    ('2016-11-30 14:00:00', 10.9),('2016-11-30 14:10:00', 10.6),('2016-11-30 14:20:00', 10.3),('2016-11-30 14:30:00', 11.0),
    ('2016-11-30 14:40:00', 10.0),('2016-11-30 14:50:00', 10.1),('2016-11-30 15:00:00', 10.2),('2016-11-30 15:10:00', 10.2),
    ('2016-11-30 15:20:00', 10.3),('2016-11-30 15:30:00', 10.1),('2016-11-30 15:40:00', 10.9),('2016-11-30 15:50:00', 10.1),
    ('2016-11-30 16:00:00', 11.0),('2016-11-30 16:10:00', 10.2),('2016-11-30 16:20:00', 10.7),('2016-11-30 16:30:00', 10.2),
    ('2016-11-30 16:40:00', 10.2),('2016-11-30 16:50:00', 10.2),('2016-11-30 17:00:00', 10.8),('2016-11-30 17:10:00', 10.6),
    ('2016-11-30 17:20:00', 10.5),('2016-11-30 17:30:00', 10.7),('2016-11-30 17:40:00', 10.9),('2016-11-30 17:50:00', 10.9),
    ('2016-11-30 18:00:00', 10.1),('2016-11-30 18:10:00', 10.3),('2016-11-30 18:20:00', 10.1),('2016-11-30 18:30:00', 10.6),
    ('2016-11-30 18:40:00', 10.3),('2016-11-30 18:50:00', 10.8),('2016-11-30 19:00:00', 10.9),('2016-11-30 19:10:00', 10.8),
    ('2016-11-30 19:20:00', 10.6),('2016-11-30 19:30:00', 11.0),('2016-11-30 19:40:00', 10.3),('2016-11-30 19:50:00', 10.9),
    ('2016-11-30 20:00:00', 10.6),('2016-11-30 20:10:00', 10.6),('2016-11-30 20:20:00', 10.5),('2016-11-30 20:30:00', 10.4),
    ('2016-11-30 20:40:00', 10.9),('2016-11-30 20:50:00', 10.9),('2016-11-30 21:00:00', 10.7),('2016-11-30 21:10:00', 10.6),
    ('2016-11-30 21:20:00', 10.5),('2016-11-30 21:30:00', 10.8),('2016-11-30 21:40:00', 10.4),('2016-11-30 21:50:00', 10.0),
    ('2016-11-30 22:00:00', 10.6),('2016-11-30 22:10:00', 10.6),('2016-11-30 22:20:00', 10.6),('2016-11-30 22:30:00', 10.1),
    ('2016-11-30 22:40:00', 10.4),('2016-11-30 22:50:00', 10.8),('2016-11-30 23:00:00', 10.4),('2016-11-30 23:10:00', 10.6),
    ('2016-11-30 23:20:00', 10.1),('2016-11-30 23:30:00', 10.2),('2016-11-30 23:40:00', 10.6),('2016-11-30 23:50:00', 10.8),
    ('2016-12-01 00:00:00', 10.6),('2016-12-01 00:10:00', 10.2),('2016-12-01 00:20:00', 10.9),('2016-12-01 00:30:00', 10.3),
    ('2016-12-01 00:40:00', 10.3),('2016-12-01 00:50:00', 10.1),('2016-12-01 01:00:00', 10.7),('2016-12-01 01:10:00', 10.5),
    ('2016-12-01 01:20:00', 10.4),('2016-12-01 01:30:00', 10.7),('2016-12-01 01:40:00', 10.5),('2016-12-01 01:50:00', 10.7),
    ('2016-12-01 02:00:00', 10.8),('2016-12-01 02:10:00', 10.9),('2016-12-01 02:20:00', 10.9),('2016-12-01 02:30:00', 10.1),
    ('2016-12-01 02:40:00', 10.4),('2016-12-01 02:50:00', 10.7),('2016-12-01 03:00:00', 10.7),('2016-12-01 03:10:00', 10.5),
    ('2016-12-01 03:20:00', 10.2),('2016-12-01 03:30:00', 10.2),('2016-12-01 03:40:00', 10.8),('2016-12-01 03:50:00', 10.2),
    ('2016-12-01 04:00:00', 10.9),('2016-12-01 04:10:00', 10.4),('2016-12-01 04:20:00', 10.6),('2016-12-01 04:30:00', 11.0),
    ('2016-12-01 04:40:00', 10.4),('2016-12-01 04:50:00', 10.3),('2016-12-01 05:00:00', 10.7),('2016-12-01 05:10:00', 10.6),
    ('2016-12-01 05:20:00', 10.9),('2016-12-01 05:30:00', 11.0),('2016-12-01 05:40:00', 10.9),('2016-12-01 05:50:00', 10.0),
    ('2016-12-01 06:00:00', 10.8),('2016-12-01 06:10:00', 10.0),('2016-12-01 06:20:00', 10.1),('2016-12-01 06:30:00', 10.5),
    ('2016-12-01 06:40:00', 15.5),('2016-12-01 06:50:00', 15.7),('2016-12-01 07:00:00', 15.1),('2016-12-01 07:10:00', 15.6),
    ('2016-12-01 07:20:00', 15.5),('2016-12-01 07:30:00', 15.4),('2016-12-01 07:40:00', 15.7),('2016-12-01 07:50:00', 15.6),
    ('2016-12-01 08:00:00', 15.3),('2016-12-01 08:10:00', 15.6),('2016-12-01 08:20:00', 15.1),('2016-12-01 08:30:00', 15.6),
    ('2016-12-01 08:40:00', 15.9),('2016-12-01 08:50:00', 16.0),('2016-12-01 09:00:00', 15.4),('2016-12-01 09:10:00', 15.0),
    ('2016-12-01 09:20:00', 15.0),('2016-12-01 09:30:00', 15.4),('2016-12-01 09:40:00', 15.9),('2016-12-01 09:50:00', 15.6),
    ('2016-12-01 10:00:00', 15.7),('2016-12-01 10:10:00', 15.4),('2016-12-01 10:20:00', 15.2),('2016-12-01 10:30:00', 15.2),
    ('2016-12-01 10:40:00', 15.8),('2016-12-01 10:50:00', 15.4),('2016-12-01 11:00:00', 16.0),('2016-12-01 11:10:00', 15.9),
    ('2016-12-01 11:20:00', 15.1),('2016-12-01 11:30:00', 15.0),('2016-12-01 11:40:00', 15.0),('2016-12-01 11:50:00', 15.4),
    ('2016-12-01 12:00:00', 15.5),('2016-12-01 12:10:00', 15.3),('2016-12-01 12:20:00', 16.0),('2016-12-01 12:30:00', 15.1),
    ('2016-12-01 12:40:00', 15.5),('2016-12-01 12:50:00', 16.0),('2016-12-01 13:00:00', 15.7),('2016-12-01 13:10:00', 15.9),
    ('2016-12-01 13:20:00', 15.4),('2016-12-01 13:30:00', 15.3),('2016-12-01 13:40:00', 15.9),('2016-12-01 13:50:00', 15.8),
    ('2016-12-01 14:00:00', 15.4),('2016-12-01 14:10:00', 15.9),('2016-12-01 14:20:00', 15.3),('2016-12-01 14:30:00', 16.0),
    ('2016-12-01 14:40:00', 15.5),('2016-12-01 14:50:00', 15.0),('2016-12-01 15:00:00', 15.1),('2016-12-01 15:10:00', 16.0),
    ('2016-12-01 15:20:00', 15.8),('2016-12-01 15:30:00', 15.9),('2016-12-01 15:40:00', 15.4),('2016-12-01 15:50:00', 15.1),
    ('2016-12-01 16:00:00', 15.8),('2016-12-01 16:10:00', 15.2),('2016-12-01 16:20:00', 15.4),('2016-12-01 16:30:00', 15.8),
    ('2016-12-01 16:40:00', 15.8),('2016-12-01 16:50:00', 15.1),('2016-12-01 17:00:00', 15.3),('2016-12-01 17:10:00', 15.6),
    ('2016-12-01 17:20:00', 15.3),('2016-12-01 17:30:00', 15.8),('2016-12-01 17:40:00', 15.0),('2016-12-01 17:50:00', 15.3),
    ('2016-12-01 18:00:00', 15.5),('2016-12-01 18:10:00', 15.4),('2016-12-01 18:20:00', 15.3),('2016-12-01 18:30:00', 15.8),
    ('2016-12-01 18:40:00', 15.2),('2016-12-01 18:50:00', 15.9),('2016-12-01 19:00:00', 15.4),('2016-12-01 19:10:00', 15.3),
    ('2016-12-01 19:20:00', 15.1),('2016-12-01 19:30:00', 15.3),('2016-12-01 19:40:00', 15.9),('2016-12-01 19:50:00', 15.3),
    ('2016-12-01 20:00:00', 15.3),('2016-12-01 20:10:00', 15.2),('2016-12-01 20:20:00', 15.0),('2016-12-01 20:30:00', 15.3),
    ('2016-12-01 20:40:00', 15.1),('2016-12-01 20:50:00', 15.1),('2016-12-01 21:00:00', 15.6),('2016-12-01 21:10:00', 15.8),
    ('2016-12-01 21:20:00', 15.4),('2016-12-01 21:30:00', 15.2),('2016-12-01 21:40:00', 16.0),('2016-12-01 21:50:00', 15.5),
    ('2016-12-01 22:00:00', 15.4),('2016-12-01 22:10:00', 15.7),('2016-12-01 22:20:00', 15.3),('2016-12-01 22:30:00', 15.9),
    ('2016-12-01 22:40:00', 15.9),('2016-12-01 22:50:00', 15.2),('2016-12-01 23:00:00', 15.8),('2016-12-01 23:10:00', 15.9),
    ('2016-12-01 23:20:00', 20.9),('2016-12-01 23:30:00', 20.4),('2016-12-01 23:40:00', 20.3),('2016-12-01 23:50:00', 20.1),
    ('2016-12-02 00:00:00', 20.7),('2016-12-02 00:10:00', 20.7),('2016-12-02 00:20:00', 20.5),('2016-12-02 00:30:00', 20.4),
    ('2016-12-02 00:40:00', 20.4),('2016-12-02 00:50:00', 20.1),('2016-12-02 01:00:00', 20.2),('2016-12-02 01:10:00', 20.9),
    ('2016-12-02 01:20:00', 20.6),('2016-12-02 01:30:00', 20.0),('2016-12-02 01:40:00', 20.4),('2016-12-02 01:50:00', 20.2),
    ('2016-12-02 02:00:00', 20.6),('2016-12-02 02:10:00', 20.4),('2016-12-02 02:20:00', 20.5),('2016-12-02 02:30:00', 20.4),
    ('2016-12-02 02:40:00', 20.5),('2016-12-02 02:50:00', 20.7),('2016-12-02 03:00:00', 20.2),('2016-12-02 03:10:00', 20.2),
    ('2016-12-02 03:20:00', 20.1),('2016-12-02 03:30:00', 20.5),('2016-12-02 03:40:00', 20.5),('2016-12-02 03:50:00', 20.0),
    ('2016-12-02 04:00:00', 20.7),('2016-12-02 04:10:00', 20.8),('2016-12-02 04:20:00', 20.6),('2016-12-02 04:30:00', 20.4),
    ('2016-12-02 04:40:00', 20.5),('2016-12-02 04:50:00', 20.8),('2016-12-02 05:00:00', 20.1),('2016-12-02 05:10:00', 20.9),
    ('2016-12-02 05:20:00', 20.5),('2016-12-02 05:30:00', 20.4),('2016-12-02 05:40:00', 20.2),('2016-12-02 05:50:00', 20.4),
    ('2016-12-02 06:00:00', 20.8),('2016-12-02 06:10:00', 20.7),('2016-12-02 06:20:00', 20.9),('2016-12-02 06:30:00', 20.1),
    ('2016-12-02 06:40:00', 20.3),('2016-12-02 06:50:00', 20.2),('2016-12-02 07:00:00', 20.4),('2016-12-02 07:10:00', 20.7),
    ('2016-12-02 07:20:00', 20.4),('2016-12-02 07:30:00', 20.8),('2016-12-02 07:40:00', 20.8),('2016-12-02 07:50:00', 20.1),
    ('2016-12-02 08:00:00', 20.3),('2016-12-02 08:10:00', 20.7),('2016-12-02 08:20:00', 20.9),('2016-12-02 08:30:00', 21.0),
    ('2016-12-02 08:40:00', 20.2),('2016-12-02 08:50:00', 20.5),('2016-12-02 09:00:00', 20.2),('2016-12-02 09:10:00', 20.8),
    ('2016-12-02 09:20:00', 20.9),('2016-12-02 09:30:00', 20.5),('2016-12-02 09:40:00', 20.9),('2016-12-02 09:50:00', 20.7),
    ('2016-12-02 10:00:00', 20.3),('2016-12-02 10:10:00', 21.0),('2016-12-02 10:20:00', 20.5),('2016-12-02 10:30:00', 20.3),
    ('2016-12-02 10:40:00', 20.2),('2016-12-02 10:50:00', 20.3),('2016-12-02 11:00:00', 20.4),('2016-12-02 11:10:00', 20.4),
    ('2016-12-02 11:20:00', 21.0),('2016-12-02 11:30:00', 20.3),('2016-12-02 11:40:00', 20.3),('2016-12-02 11:50:00', 20.9),
    ('2016-12-02 12:00:00', 20.8),('2016-12-02 12:10:00', 20.9),('2016-12-02 12:20:00', 20.7),('2016-12-02 12:30:00', 20.7);
    
  2. 执行训练操作:

    SET search_path="$user",public,madlib;
    SET behavior_compat_options = 'bind_procedure_searchpath';
    select madlib.prophet_fit('public.ts_data', 'public.prophet_model', 
    $${'ds': 'date', 'y': 'value'}$$, -- 列名映射, prophet要求时间列名必须为'ds', 时序值列名'y'
    $${'growth': 'linear', 'changepoints': ['2016-11-30 05:40:00']}$$ -- 训练参数组合,如果有多个参数,请用元组方式传入
    );
    

    查询模型表:

     select id, y_type, params from public.prophet_model;
    
     id |      y_type      |                            params
    ----+------------------+---------------------------------------------------------------
      1 | double precision | {'changepoints': ['2016-11-30 05:40:00'], 'growth': 'linear'}
    

    在模型表中,记录着训练时间,结果类型,所用参数等。

  3. 执行预测操作

    select madlib.prophet_predict('public.prophet_model','public.prophet_output', 10, '10T');
    

    查看预测结果:

    select ds, yhat, yhat_lower, yhat_upper from public.prophet_output;
    
         ds     |     yhat      |  yhat_lower   |  yhat_upper
    ------------+---------------+---------------+---------------
     2016-12-02 | 20.6943848045 | 17.7671496048 | 23.4160694837
     2016-12-02 | 20.7408355633 | 17.9264413164 | 23.6426403933
     2016-12-02 | 20.7872863221 | 17.9298207895 | 23.4548814727
     2016-12-02 |  20.833737081 |  18.234443228 | 23.5317342873
     2016-12-02 | 20.8801878398 | 18.2471709649 | 23.8345735574
     2016-12-02 | 20.9266385986 | 18.1780101465 |  23.696087927
     2016-12-02 | 20.9730893575 | 18.4292088648 | 23.7209823631
     2016-12-02 | 21.0195401163 | 18.2623494126 | 23.7341427068
     2016-12-02 | 21.0659908751 | 18.1173966769 | 23.7919478206
     2016-12-02 |  21.112441634 | 18.5018042056 | 23.9508963879
    (10 rows)
    
意见反馈
编组 3备份
openGauss 2024-03-19 00:45:43
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