4 Myths about in-memory databases busted · OSS, in-memory NoSQL k/v database/data-structure engine...
Transcript of 4 Myths about in-memory databases busted · OSS, in-memory NoSQL k/v database/data-structure engine...
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4 Myths about
in-memory databases busted
Yiftach Shoolman – Co-Founder & CTO @ Redis Labs @yiftachsh, @redislabsinc
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Background - Redis
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Created by Salvatore Sanfilippo (@antirez)
OSS, in-memory NoSQL k/v database/data-structure engine
# 1 # 2 # 3 # 12 Fastest growing
DB 2013-01 – to date:
DB-Engines
Most popular database on containers:
@DevOps.com & ClusterHQ
Top NoSQL databases: DB-Engines
Top tools developers love:
StackShare
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Backgroud – Redis Labs
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Founded in 2011. HQ in Mountain View CA, R&D in Tel-Aviv IL
The largest commercial company behind OSS Redis
• 5000+ paying customers
• 30,000+ free users
• 100,000+ databases under management
• ±200 new databases/day
Provide enterpsie class Redis deployement
• As a service – Redis Cloud
• On-premises – Redis Labs Enterprise Cluster (RLEC)
$28MM VC funding
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Why an in-memory operational DBMS ?
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Database App Servers
100msec = The new standard for E2E application response time, under any load
50msec = Average internet latency (round-trip)
50msec = Required app response time (includes processing & multi-DB access)
1msec = Required DB response time
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Why an in-memory analytics DBMS ?
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Query time:
Days/Hours
Disk-based
Query time:
Mins/Secs
RAM
RAM-based
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Myth #1 all in-memory databases
are equally fast
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How many ops/sec can a single EC2 instance do?
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1,000,000
0 200,000 400,000 600,000 800,000 1,000,000 1,200,000
1xc3.8xlarge EC2 instance
(1) Deployed in a VPC (2) Enhanced Network Interface
(ENI) enabled (3) Placement group enabled (4) IRQ Distribution enabled (5) Interrupt coalescing enabled (6) 4xNICs configured (7) Receive Packet Steering (RPS)
enabled
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How many ops/sec can a single EC2 instance do?
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1,228,432
1,000,000
0 200,000 400,000 600,000 800,000 1,000,000 1,200,000 1,400,000
1xc3.8xlarge EC2 instance Fully optimized (1) Deployed in a VPC (2) ENI enabled (3) Placement group enabled (4) IRQ Distribution enabled (5) Interrupt coalescing enabled (6) 4xNICs configured (7) RPS enabled
Not optimized (1) Deployed on Classic EC2 (2) No tuning (3) Reached packets/sec limit
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How many ops/sec can a single EC2 instance do?
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1,750,000
1,228,432
1,000,000
0 200,000 400,000 600,000 800,000 1,000,000 1,200,000 1,400,000 1,600,000 1,800,000 2,000,000
1xc3.8xlarge EC2 instance
Not optimized (1) Deployed on Classic EC2 (2) No tuning (3) Reached packets/sec limit
Half optimized (1) Deployed in a VPC (2) ENI enabled (3) RPS enabled (4) Only 1xNIC
Fully optimized (1) Deployed in a VPC (2) ENI enabled (3) Placement group enabled (4) IRQ Distribution enabled (5) Interrupt coalescing enabled (6) 4xNICs configured (7) RPS enabled
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How many ops/sec can a single EC2 instance do?
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2,000,000
1,750,000
1,228,432
1,000,000
0 500,000 1,000,000 1,500,000 2,000,000 2,500,000
1xc3.8xlarge EC2 instance
Not optimized (1) Deployed on Classic EC2 (2) No tuning (3) Reached packets/sec limit
Half optimized (1) Deployed in a VPC (2) ENI enabled (3) RPS enabled (4) Only 1xNIC
Fully optimized (1) Deployed in a VPC (2) ENI enabled (3) Placement group enabled (4) IRQ Distribution enabled (5) Interrupt coalescing enabled (6) 4xNICs configured (7) RPS enabled
Fully optimized
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How many servers to get 1M writes/sec on GCE?
300
0
50
100
150
200
250
300
350
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How many servers to get 1M writes/sec on GCE?
300
50 50
0
50
100
150
200
250
300
350
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How many servers to get 1M writes/sec on GCE?
300
50 50
2 0
50
100
150
200
250
300
350
In-memory databases 13
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Real-world write intensive app
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Hbase+Internal Cache vs. Hbase+Redis
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Same Redis core, same HW, different performance
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So why aren’t in-memory DBs equally fast?
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Most are written in C/C++…. but programming language isn’t the only thing to consider
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What affects in-memory DB performance?
(1) Complexity of processing commands
à How many lines of code per command ? What is the computation
complexity (e.g. in Redis most commands are O(1))?
(2) Query efficiency
à Is it limited to blob queries? Can you query a discrete value?
(3) Pipelining
à Can you send multiple requests at once to get lower latency and less
context switches?
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What affects in-memory DB performance?
(4) Protocol efficiency
à How long it takes to parse a request or to serialize a response
(5) TCP overhead
à Long-lived (connection pool) vs. short-lived connections
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What affects in-memory DB performance?
(6) Single-threaded or multi-threaded architecture
à Lock-free vs. parallel computing
(7) Shared-nothing (the best) vs. shared-something vs. shared-everything
(8) Built-in acceleration components
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Myth #2 A single node is not a cluster
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The truth: A single node can be a cluster
but not a HA cluster
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In the new containers/VMs world a cluster is:
A bunch of processes that
together look like one big
process
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A real-world example
A Binary Option platform; 400MB dataset; 1,000,000 ops/sec
A single node, 9 shards cluster
=
3 nodes, 9 shards cluster 24
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Myth #3 In-memory databases are
inconsistent and unreliable
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A few facts/questions about consistency
Almost all NoSQL databases (not just in-memory) ack the client before
commiting to disk
Almost all in-memory databases can commit to disk before they ack the
client
However, even if you ack after everything is committed:
• Is your driver memory buffer persistent and consistent?
• Is your storage system cache persistent and consistent?
Most databases are NOT bulletproof
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Most in-memory databases are async most of the time
Master
Storage
Slave
Storage
2 1
4
3
6 5
Application Async replication Async disk I/O
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Some of them can partially sync
Master
Storage
Slave
Storage
4 1
3
2
6 5
Application Sync replication Async disk I/O
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A few of them fully sync
Master
Storage
Slave
Storage
6 1
5
2
4 3
Application Sync replication Sync disk I/O
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CP
AP
CAP and in-memory databases
CA
Memcached
in-memory
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AP
Behavior during network splits
Y X X
Wri
te
Inconsistency
Read
CP
X X X
Full-consistency
Read
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Are in-memory databases reliable?
Redis Labs facts: • Provisioned 100s of TBs of RAM
• 500+ node failure events à 1 failure every 2 days
• ~30 complete data-center outages à 1 outage every month
• Users with high availability (HA) features enabled haven’t lost a single
byte of data
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Myth #4 In-memory databases
are expensive
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Real-world use case:
• 500+GB
• 400K writes/sec
• 1500 reads/sec
• 37.5KB average object size
Which one costs more?
No extra work at
app level
1.5Gbps 120Gbps
Tons of work at app level
Others
6-node cluster
30+ node cluster
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Redis Labs Aerospike/Couchbase Cassandra
Read
Write
Cost
Which one costs more (2)?
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Sometimes in-memory can be very expensive
#1 200GB
#2 200GB
#50 200GB
50 x r3.8xlarge instances
#51 200GB
#51 200GB
#100 200GB
1st replica for HA
#101 200GB
#102 200GB
#150 200GB
2nd replica for quorum
HA deployment of 10TB in-memory dataset on EC2
Total cost (reserved instances) = $2,132,250/yr
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Do we really need 2 replicas?
#1 200GB
#2 200GB
#50 200GB
50 x r3.8xlarge instances
#51 200GB
#51 200GB
#100 200GB
1 replica for HA
#101 15GB
Efficient HA deployment of 10TB in-memory dataset on EC2
Total cost (reserved instances) = $1,421,500/yr Savings = $710,750/yr
Redis Labs Patent Pending Technology
1 quorum server
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Can we save more?
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Price/performance of memory technologies
$10
$3
$1
0.10
1.00
10.00
100.00
1000.00
$0
$2
$4
$6
$8
$10
$12
DRAM SCM NAND (flash)
mic
ose
con
d
1GB memory - cost vs read/write performance
1 GB cost Read latency Write latency
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Redis on Flash
Flash (slow RAM)
RAM All keys + ‘hot’ values
‘cold’ values ● Asynchronous ● Multi-threaded
Flash used as a RAM extender and NOT as persistent storage
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How to achieve optimal price/performance
By dynamically setting RAM/Flash ratio
RAM
4410 GB 590 GB
88.2% 11.8%
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Single server performance - 10% in RAM / 90% in Flash
*IBM P8 with IBM FlashSystem 42
RAM Hits Ratio Ops/Sec Latency
Low latency scenarios
100% 1.35M 1.00 msec
80% 340K 1.07 msec
50% 200K 0.96 msec
20% 160K 1.00 msec
High throughput scenarios
100% 2.00M 2.40 msec
80% 671K 6.20 msec
50% 483K 10.00 msec
20% 366K 14.50 msec
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10TB Redis deployment on EC2
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Redis (on RAM) 2 replicas
Redis (on RAM) 1 replicas
Redis on Flash 1 replica
Instance type r3.8xlarge r3.8xlarge i2.8xlarge
# of instances 150 100 10
RAM 30TB 20TB 2TB
Flash - - 64TB
Persistent storage (EBS) 150TB 100TB 80TB
1yr costs (reserved instances)
$2,132,250 $1,421,500 $318,090
Yearly savings - $710,750 $1,814,160
Savings % - 33.33% 85.08%
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Summary
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4 myths about in-memory databases busted
All in-memory databases are NOT equally fast
You can create a single node in-memory cluster
In-memory databases can be consistent and reliable
With the right technology, in-memory databases are not expensive
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Thank you Click to get more info about
Redis, Redis Labs, Redis Cloud and RLEC