Data Warehouse Hardware - DW硬件需求计算

时间:2021-06-06 16:42:06

1. Disk I/O, 硬盘IO速度

  硬盘的IO速度一直都是数据库的瓶颈,所以有条件的情况下尽可能的使用高IO的磁盘。

  可以使用微软的工具SQLIO测试磁盘的IOPS

2. CPU的主频,

  DW和传统的OLTP数据库在使用场景上不一样。

  传统的OLTP数据库具有[事务小][并发多]的特点;而DW的数据库相比较具有[事务大][并发少]的特点。

  所以对比起来,传统的OLTP数据库可以使用[低主频][多核]的硬件架构,而DW建议使用[高主频][少核]方案。

  上述都是相对情况,对于不差钱的土豪,高主频,多核当然是更好的选择。

我们可以计算的是要满足具体的业务需求,需要多少CPU(Core),多少内存。

MCR,Maximum Consumption Rate,这是一个Core的吞吐量指标

3. 计算MCR

  可以使用下面的脚本计算出当前计算机的MCR

  

USE master;

-- Create a database for benchmark queries

IF EXISTS (SELECT * FROM sys.sysdatabases WHERE name = 'BenchmarkDB')

DROP DATABASE BenchMarkDB;

GO

CREATE DATABASE BenchMarkDB;

GO

USE BenchMarkDB;

-- Include a heap and a table with a clustered index

CREATE TABLE heap_table

(col1 integer identity,

 col2 integer,

 col3 varchar(50));

 CREATE TABLE clust_table

(col1 integer identity PRIMARY KEY CLUSTERED,

 col2 integer,

 col3 varchar(50));

-- Insert 100 rows to start with

DECLARE @i integer = 0;

WHILE @i < 101

BEGIN

   SET @i = @i + 1

   INSERT INTO heap_table VALUES (@i, CAST(@i%5 AS varchar))

   INSERT INTO clust_table VALUES (@i, CAST(@i%5 AS varchar))

END;

-- Now keep reinserting exponentially until the tables each contain 2 million rows

WHILE (SELECT COUNT(*) FROM clust_table) < 2000000

BEGIN

 INSERT INTO heap_table

 SELECT col2, col3 FROM clust_table;

 INSERT INTO clust_table

 SELECT col2, col3 FROM clust_table;

END;
USE BenchmarkDB

GO

SELECT SUM(Col2) FROM heap_table WHERE col1 % 3 = 1

GROUP BY col3;

SELECT SUM(Col2) FROM clust_table WHERE col1 % 3 = 1

GROUP BY col3;

SET STATISTICS IO ON;

SET STATISTICS TIME ON;

-- run these muliple times and take an average of the logical reads and CPU time

SELECT SUM(Col2) FROM heap_table WHERE col1 % 3 = 1

GROUP BY col3

OPTION (MAXDOP 1);

SELECT SUM(Col2) FROM clust_table WHERE col1 % 3 = 1

GROUP BY col3

OPTION (MAXDOP 1);

/* Max Consumption Rate (MCR) is the average of (logical reads / CPU time in seconds) * 8 / 1024

  (or put another way, the size of the table in MB / CPU time in seconds)

  This gives us the throughput of a core

  To estimate the no. of cores required, use the following formula:

  (Amount of data scanned in an average query / MCR) * Concurrent Sessions / Target response time

  For example:

 (18000 MB/200 MBs) * 10 users / 60s response time = 15 cores (round up to 16)   */

4. Memory内存需求

  最少1核对应4G内存,或者对每组CPU给64-128G内存

  

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