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:Performance whitepaper of ESSD-based instances

最終更新日:Apr 30, 2024

This topic describes the test environment, test tool, test method, and test results of a performance test on Tair ESSD-based instances.

Test environment

Item

Description

Region and zone

All tests are performed in Hangzhou Zone I.

Instance architecture

The standard master-replica architecture is used. For more information, see Standard architecture.

Virtual machine on which a stress testing tool is deployed

An Elastic Compute Service (ECS) instance of the ecs.g6e.13xlarge instance type is used. For more information, see Overview of instance families.

ESSD-based instance type

  • tair.essd.standard.xlarge

  • tair.essd.standard.2xlarge

  • tair.essd.standard.4xlarge

  • tair.essd.standard.8xlarge

  • tair.essd.standard.13xlarge

For more information about the instance types, see ESSD/SSD-based instances.

The performance test focuses on evaluating the performance of ESSD-based instances in the following scenarios:

  • Scenarios in which the memory size is larger than the data volume: Most data can be accessed from the memory. In these scenarios, the ratio of the memory size to the data volume is approximately 7:1.

  • Scenarios in which the data volume is larger than the memory size: Only part of the data is cached in the memory. Most access requests require read and write operations on disks. In these scenarios, the ratio of the memory size to the data volume is approximately 1:4.

Test tool

You can use open source YCSB to perform stress tests. YCSB is a Java tool that can be used to benchmark the performance of multiple types of databases. For more information about how to install and use YCSB, see YCSB.

In the test, the YCSB source code is modified to allow you to set the recordcount parameter to a LONG-typed value and test the string-related commands of Redis. To obtain the modified source code, download the YCSB source code package.

Workloads

  • Data loading: involves performing 100% SET operations on strings (write operations).

  • Uniform-Read: uses Workload A that consists of 100% GET operations on random strings (read operations). This workload aims to test read performance under harsh conditions.

  • Zipfian-Read: uses Workload C that follows a Zipfian distribution to test read performance in scenarios in which most read requests are sent to access a small portion of data. Most read scenarios belong to these scenarios.

  • Uniform-50%Read-50%Update: uses Workload A that consists of 50% SET operations on strings (update operations) and 50% GET operations on strings. This workload aims to test the performance of random updates.

For more information about workloads, see Core Workloads.

Test commands

The following script is used to test performance in scenarios where the data volume is larger than the memory size:

#! /bin/bash

ip=192.168.0.23
port=3100
timeout=30000
command_group=string
recordcount=640000000
run_operationcount=20000000
fieldcount=1
fieldlength=100
threads=32
load_sleep_time=600
run_sleep_time=60

echo "##################################### $command_group  ############################################"
#Load
./bin/ycsb load redis -s -P workloads/workloada -p "redis.host=${ip}" -p  "redis.port=${port}" -p "recordcount=${recordcount}" -p "operationcount=${recordcount}" -p "redis.timeout=${timeout}" -p "redis.command_group=${command_group}" -p "fieldcount=${fieldcount}" -p "fieldlength=${fieldlength}" -threads ${threads}
sleep ${load_sleep_time}

#Uniform-Read
./bin/ycsb run redis -s -P workloads/workloadc  -p "redis.host=${ip}" -p  "redis.port=${port}" -p "recordcount=${recordcount}" -p "operationcount=${run_operationcount}" -p "redis.timeout=${timeout}" -p "redis.command_group=${command_group}" -p "fieldcount=${fieldcount}" -p "fieldlength=${fieldlength}" -p "requestdistribution=uniform" -threads ${threads}
sleep ${run_sleep_time}

#Zipfian-Read
./bin/ycsb run redis -s -P workloads/workloadc  -p "redis.host=${ip}" -p  "redis.port=${port}" -p "recordcount=${recordcount}" -p "operationcount=${run_operationcount}" -p "redis.timeout=${timeout}" -p "redis.command_group=${command_group}" -p "fieldcount=${fieldcount}" -p "fieldlength=${fieldlength}" -p "requestdistribution=zipfian" -threads ${threads}
sleep ${run_sleep_time}

#Uniform-50%Read-50%Update
./bin/ycsb run redis -s -P workloads/workloada  -p "redis.host=${ip}" -p  "redis.port=${port}" -p "recordcount=${recordcount}" -p "operationcount=${run_operationcount}" -p "redis.timeout=${timeout}" -p "redis.command_group=${command_group}" -p "fieldcount=${fieldcount}" -p "fieldlength=${fieldlength}" -p "requestdistribution=uniform" -threads ${threads}
Table 1. Parameters

Parameter

Description

ip

The IP address of the Tair instance.

port

The service port of the Tair instance.

timeout

The timeout period of the test command. Unit: ms.

command_group

The type of data to be tested. Set this parameter to String.

recordcount

The amount of data prepared during the data loading phase.

run_operationcount

The amount of data involved in the operation. When you set this parameter, take note of the following rules:

  • In scenarios in which the memory size is larger than the data volume, set this parameter to the value of the recordcount parameter.

  • In scenarios in which the data volume is larger than the memory size, set this parameter to the value of the recordcount parameter divided by 32.

fieldcount

The number of fields. Set this parameter to 1.

fieldlength

The length of each field. Set this parameter to 100.

threads

The number of YCSB threads. Set this parameter based on the instance type.

Test results

Test metric

Description

QPS

The number of read and write operations that are processed per second.

Average Latency

The average latency of read or write operations. Unit: µs.

99th Percentile Latency

The highest latency for the fastest 99% of operations. Unit: µs. For example, if this parameter is set to 500 µs, 99% of the operations are processed within 500 µs.

Scenarios in which the memory size is larger than the data volume

内存大于数据场景的测试结果

Instance type

YCSB configuration

Workload

QPS

Average latency (µs)

99th percentile latency (µs)

tair.essd.standard.xlarge

recordcount=20000000

run_operationcount=20000000

threads=32

Load

36,740

851

1,595

Uniform-Read

103,890

294

907

Zipfian-Read

106,357

288

865

Uniform-50%Read-50%Update

46,610

Read: 530

Read: 1,108

Update: 795

Update: 1,684

tair.essd.standard.2xlarge

recordcount=40000000

run_operationcount=40000000

threads=50

Load

54,670

911

1,528

Uniform-Read

150,796

314

995

Zipfian-Read

151,110

314

977

Uniform-50%Read-50%Update

69,137

Read: 537

Read: 948

Update: 878

Update: 1,479

air.essd.standard.4xlarge

recordcount=80000000

run_operationcount=80000000

threads=100

Load

90,703

1,099

1,697

Uniform-Read

285,833

339

1,196

Zipfian-Read

288,750

335

1,162

Uniform-50%Read-50%Update

110,316

Read: 757

Read: 1,114

Update: 1,041

Update: 1,536

tair.essd.standard.8xlarge

recordcount=160000000

run_operationcount=160000000

threads=120

Load

117,581

1,011

1,692

Uniform-Read

477,099

242

784

Zipfian-Read

494,550

234

727

Uniform-50%Read-50%Update

196,245

Read: 519

Read: 829

Update: 691

Update: 1,096

tair.essd.standard.13xlarge

recordcount=240000000

run_operationcount=240000000

threads=160

Load

126,366

1,249

2,281

Uniform-Read

673,183

231

637

Zipfian-Read

691,383

230

652

Uniform-50%Read-50%Update

197,803

Read: 678

Read: 940

Update: 935

Update: 1,925

Scenarios in which the data volume is larger than the memory size

数据大于内存场景测试结果

Instance type

YCSB configuration

Workload

QPS

Average latency (µs)

99th percentile latency (µs)

tair.essd.standard.xlarge

recordcount=640000000

run_operationcount=20000000

threads=32

Load

25,561

1,245

3,497

Uniform-Read

25,727

1,239

2,042

Zipfian-Read

47,559

667

1,217

Uniform-50%Read-50%Update

19,731

Read: 1,576

Read: 6,383

Update: 1,639

Update: 6,487

tair.essd.standard.2xlarge

recordcount=1280000000

run_operationcount=40000000

threads=50

Load

42,287

1,179

3,465

Uniform-Read

35,794

1,394

1,880

Zipfian-Read

77,759

637

1,219

Uniform-50%Read-50%Update

28,656

Read: 1,716

Read: 8,863

Update: 1,761

Update: 8,951

air.essd.standard.4xlarge

recordcount=2560000000

run_operationcount=80000000

threads=100

Load

65,923

1,514

6,615

Uniform-Read

44,753

2,232

7,903

Zipfian-Read

120,337

826

1,382

Uniform-50%Read-50%Update

38,470

Read: 2,577

Read: 8,535

Update: 2,617

Update: 8,583

tair.essd.standard.8xlarge

recordcount=5120000000

run_operationcount=160000000

threads=120

Load

89,231

1,340

9,575

Uniform-Read

51,175

2,343

2,955

Zipfian-Read

131,317

911

1,573

Uniform-50%Read-50%Update

38,930

Read: 3,063

Read: 8,695

Update: 3,097

Update: 8,735

tair.essd.standard.13xlarge

recordcount=7680000000

run_operationcount=240000000

threads=160

Load

92,163

1,733

9,879

Uniform-Read

51,267

3,510

16,623

Zipfian-Read

138,522

1,152

2,131

Uniform-50%Read-50%Update

39,584

Read: 4,022

Read: 12,159

Update: 4,057

Update: 12,239

References

ESSD/SSD-based instances