如何将Spark SQL模型变为在线服务,很多新手对此不是很清楚,为了帮助大家解决这个难题,下面小编将为大家详细讲解,有这方面需求的人可以来学习下,希望你能有所收获。
SparkSQL在机器学习场景中应用
第四范式已经在很多行业落地了上万个AI应用,比如在金融行业的反欺诈,媒体行业的新闻推荐,能源行业管道检测,而SparkSQL在这些AI应用中快速实现特征变换发挥着重要的作用
SparkSQL在特征变换主要有一下几类
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多表场景,用于表之间拼接操作,比如交易信息表去拼接账户表
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使用udf进行简单的特征变换,比如对时间戳进行hour函数处理
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使用时间窗口和udaf进行时序类特征处理,比如计算一个人最近1天的消费金额总和
SparkSQL到目前为止,解决很好的解决离线模型训练特征变换问题,但是随着AI应用的发展,大家对模型的期望不再只是得出离线调研效果,而是在真实的业务场景发挥出价值,而真实的业务场景是模型应用场景,它需要高性能,需要实时推理,这时候我们就会遇到以下问题
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多表数据离线到在线怎么映射,即批量训练过程中输入很多表,到在线环境这些表该以什么形式存在,这点也会影响整个系统架构,做得好能够提升效率,做得不好就会大大增加模型产生业务价值的成本
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SQL转换成实时执行成本高,因为在线推理需要高性能,而数据科学家可能做出成千上万个特征,每个特征都人肉转换,会大大增加的工程成本
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离线特征和在线特征保持一致困难,手动转换就会导致一致性能,而且往往很难一致
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离线效果很棒但是在线效果无法满足业务需求
在具体的反欺诈场景,模型应用要求tp99 20ms去检测一笔交易是否是欺诈,所以对模型应用性能要求非常高
第四范式特征工程数据库是如何解决这些问题
通过特征工程数据库让SparkSQL的能力得到了补充
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以数据库的形式,解决了离线表到在线的映射问题,我们对前面给出的答案就是离线表是怎么分布的,在线也就怎么分布
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通过同一套代码去执行离线和在线特征转换,让在线模型效果得到了保证
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数据科学家与业务开发团队的合作以sql为传递介质,而不再是手工去转换代码,大大提升模型迭代效率
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通过llvm加速的sql,相比scala实现的spark2.x和3.x在时序复杂特征场景能够加速2~3倍,在线通过in-memory的存储,能够保证sql能够在非常低延迟返回结果
快速将spark sql 模型变成实时服务demo
demo的模型训练场景为预测一次打车行程到结束所需要的时间,这里我们将使用fedb ,pyspark,lightgbm等工具最终搭建一个http 模型推理服务,这也会是spark在机器学习场景的实践
整个demo200多行代码,制作时间不超过半个小时
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train_sql.py 特征计算与训练, 80行代码
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predict_server.py 模型推理http服务, 129行代码
场景数据和特征介绍
整个训练数据如下样子
样例数据
id,vendor_id,pickup_datetime,dropoff_datetime,passenger_count,pickup_longitude,pickup_latitude,dropoff_longitude,dropoff_latitude,store_and_fwd_flag,trip_duration id3097625,1,2016-01-22 16:01:00,2016-01-22 16:15:16,2,-73.97746276855469,40.7613525390625,-73.95573425292969,40.772396087646484,N,856 id3196697,1,2016-01-28 07:20:18,2016-01-28 07:40:16,1,-73.98524475097656,40.75959777832031,-73.99615478515625,40.72945785522461,N,1198 id0224515,2,2016-01-31 00:48:27,2016-01-31 00:53:30,1,-73.98342895507812,40.7500114440918,-73.97383880615234,40.74980163574219,N,303 id3370903,1,2016-01-14 11:46:43,2016-01-14 12:25:33,2,-74.00027465820312,40.74786376953125,-73.86485290527344,40.77039337158203,N,2330 id2763851,2,2016-02-20 13:21:00,2016-02-20 13:45:56,1,-73.95218658447266,40.772220611572266,-73.9920425415039,40.74932098388672,N,1496 id0904926,1,2016-02-20 19:17:44,2016-02-20 19:33:19,4,-73.97344207763672,40.75189971923828,-73.98480224609375,40.76243209838867,N,935 id2026293,1,2016-02-25 01:16:23,2016-02-25 01:31:27,1,-73.9871597290039,40.68777847290039,-73.9115219116211,40.68180847167969,N,904 id1349988,1,2016-01-28 20:16:05,2016-01-28 20:21:36,1,-74.0028076171875,40.7338752746582,-73.9968032836914,40.743770599365234,N,331 id3218692,2,2016-02-17 16:43:27,2016-02-17 16:54:41,5,-73.98147583007812,40.77408218383789,-73.97216796875,40.76400375366211,N,674 `
场景特征变换sql脚本
特征变换
select trip_duration, passenger_count, sum `(pickup_latitude) over w as vendor_sum_pl,` max `(pickup_latitude) over w as vendor_max_pl,` min `(pickup_latitude) over w as vendor_min_pl,` avg `(pickup_latitude) over w as vendor_avg_pl,` sum `(pickup_latitude) over w2 as pc_sum_pl,` max `(pickup_latitude) over w2 as pc_max_pl,` min `(pickup_latitude) over w2 as pc_min_pl,` avg `(pickup_latitude) over w2 as pc_avg_pl ,` count `(vendor_id) over w2 as pc_cnt,` count `(vendor_id) over w as vendor_cnt` from {} window w as (partition by vendor_id order by pickup_datetime ROWS_RANGE BETWEEN 1d PRECEDING AND CURRENT ROW), w2 as (partition by passenger_count order by pickup_datetime ROWS_RANGE BETWEEN 1d PRECEDING AND CURRENT ROW) `
我们选择了vendor_id 和 passenger_count 两个纬度做时序特征
train_df = spark.sql(train_sql) # specify your configurations as a dict params = { 'boosting_type' `: 'gbdt' , 'objective' `: 'regression' , 'metric' `: { 'l2' , 'l1' }, 'num_leaves' `: 31 , 'learning_rate' `: 0.05 , 'feature_fraction' `: 0.9 , 'bagging_fraction' `: 0.8 , 'bagging_freq' `: 5 , 'verbose' `: 0` } print `( 'Starting training...' )` gbm = lgb.train(params, lgb_train, num_boost_round `= 20 ,` valid_sets `= lgb_eval, early_stopping_rounds `= 5 )` gbm.save_model( `'model.txt' )执行模型训练过程,最终产生model.txt
模型推理过程
导入数据代码
import def insert_row(line): row = line.split( `',' ) row[ `2 ]` `=` `'%dl' % int (datetime.datetime.strptime(row[ 2 ], '%Y-%m-%d %H:%M:%S' ).timestamp()` `*` `1000 )` row[ `3 ]` `=` `'%dl' % int (datetime.datetime.strptime(row[ 3 ], '%Y-%m-%d %H:%M:%S' ).timestamp()` `*` `1000 )` insert = "insert into t1 values('%s', %s, %s, %s, %s, %s, %s, %s, %s, '%s', %s);" `% tuple (row) driver.executeInsert( `'db_test' , insert) with open `( 'data/taxi_tour_table_train_simple.csv' , 'r' ) as fd: idx = 0 for line in fd: if idx = `= 0 : idx = idx + 1 continue insert_row(line.replace( `'n' , '')) idx = idx + 1 ` 注:train.csv为训练数据csv格式版本
模型推理逻辑
predict.py def` `post( self ): row = json.loads( `self .request.body) ok, req = fedb_driver.getRequestBuilder( `'db_test' , sql) if not ok or not req: self `.write( "fail to get req" )` return input_schema = req.GetSchema() if not input_schema: self `.write( "no schema found" )` return str_length = 0 for i in range `(input_schema.GetColumnCnt()):` if sql_router_sdk.DataTypeName(input_schema.GetColumnType(i)) = `= 'string' : str_length = str_length + len `(row.get(input_schema.GetColumnName(i), ''))` req.Init(str_length) for i in range `(input_schema.GetColumnCnt()):` tname = sql_router_sdk.DataTypeName(input_schema.GetColumnType(i)) if tname = `= 'string' : req.AppendString(row.get(input_schema.GetColumnName(i), '')) elif tname = `= 'int32' : req.AppendInt32( `int (row.get(input_schema.GetColumnName(i),` `0 )))` elif tname = `= 'double' : req.AppendDouble( `float (row.get(input_schema.GetColumnName(i),` `0 )))` elif tname = `= 'timestamp' : req.AppendTimestamp( `int (row.get(input_schema.GetColumnName(i),` `0 )))` else `:` req.AppendNULL() if not req.Build(): self `.write( "fail to build request" )` return ok, rs = fedb_driver.executeQuery( `'db_test' , sql, req) if not ok: self `.write( "fail to execute sql" )` return rs. `Next () ins = build_feature(rs) self `.write( "----------------ins---------------/n" )` self `.write( str (ins) + "n" ) duration = bst.predict(ins) self `.write( "---------------predict trip_duration -------------/n" )` self `.write( "%s s" % str (duration[ 0 ]))``
最终执行效果
python3 predict.py ----------------ins--------------- [[ 2. 40.774097 40.774097 40.774097 40.774097 40.774097 40.774097 40.774097 40.774097 1. 1. ]] ---------------predict trip_duration ------------- 859.3298781277192 s `
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