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Building Large, High Performance Databases with Redis Enterprise using Flash
Memory
Cihan BiyikogluVP Product Management - Redis Labs
Frank OberSolution Architect - Intel
Agenda
1. Introduction to Redis Labs
2. Building Large Databases with Redis• Redise and Redise Flash Architecture
3. Redise Flash Performance with Intel Optane• Emerging HW from Intel and Redise Flash Benchmark
Introduction To Redis Labs
Redis Labs – Home of Redis
• Founded in 2011• HQ in Mountain View CA, R&D center in Tel-Aviv IL
The commercial company behind Open Source Redis
Provider of the Redis Enterprise (Redise) technology, platform and products
Redise Cloud Private
Redis Labs Products
Redise Cloud Redise Pack ManagedRedise Pack
SERVICES SOFTWARE
Fully managed Redise service in VPCs within AWS, MS Azure, GCP
& IBM Softlayer
Fully managed Redise service on hosted servers within AWS, MS
Azure, GCP, IBM Softlayer, Heroku, CF & OpenShift
Downloadable Redise software for any enterprise datacenter or
cloud environment
Fully managed Redise Pack in private data centers
&& &
Building Large Database With Redis
Scaling Data with In-Memory Databases
Redise In-Memory Database BenefitsFastest data access – faster than disk based databases!
Stable & consistent performance as you scale!
But RAM is Expensive!
>10-20xRAM vs Flash
$ Cost/GB
Price/Performance – Memory Technology
$9
>$2
$1.0$0.4
DRAM NV-DIMM/PM NVME SSD SATA SSD
$ p
er G
B o
f St
ora
ge
$ Cost of 1 GB
Why Redise Flash?Massive Datasets with Near-Ram Latency
at a Drastically Lower Cost
• Optimized Read/Writes with RAM-Extension approach• Gain speed with smart data placement between RAM & Flash• Built for Cloud – take full advantage of “Ephemeral Storage”• Future proof for upcoming persisted-memory technology
Why Redise Flash?
Lower cost for large data sets
1024 GB RAM >80%
Lower Cost with RAM + Flash
Compared to all-in-RAM
100 GB RAM
924 GB Flash
Why Redise Flash
Redis on RAM Redise Flash
Dataset size 10 TB 10 TB
Database size with replication 30 TB 20 TB*
AWS instance type x1.32xlarge** i3.16xlarge***
Actual instance size (RAM, and RAM+Flash) 1.46 TB 3.66 TB
# of instances needed 21 6+1
Persistent Storage (EBS) 154 TB 110 TB
1 year cost (reserved instances) $1,595,643 $298,896
Savings - 81.27%* Redis Enterprise only needs 1 copy of the data because quorum issues are solved at the node level** x1 EC2 instances on AWS are optimized for memory $s with the cheapest RAM/GB*** i3 instances on AWS are optimized for flash access with NVMe Storage
10TB with AWS-EC2
Redise Architecture
Redise Technology – Cluster Architecture
Redise
Cluster Architecture
• Shared nothing cluster architecture◦ Single node type for simple scalability
• Fully compatible with open source commands & data structures◦ Simply change your Redis application
connection endpoint to Redise
Redise Technology – Node Architecture
Redise
Node Architecture
Cluster ManagerGovern Cluster, Orchestrate Failure Detection, Failover, Stats Collection & more
Redise
ShardsBased on Open Source
Redis
Secure UI & REST APIAllow programmable and visual administration over HTTPS
ProxyScale Connections &
Improve Application Performance
Redise Architecture- Single Threaded, In-memory
Engine with Persistence
- “Lock Free” architecture for fast execution
Connection Handler
Command Parser
Expiry
Eviction
Modules Dispatcher
Process Space
Disk IO (AOF, Snapshots)
Command Dispatcher
Background Services
Replication
Listener
Redis Event Loop
Redise Architecture
- Single Threaded, In-memory Engine with Persistence
- “Lock Free” architecture for fast execution
- In-memory, optimized for high speed access
- Persistence with AOF or Snapshot disk durability
“Strings”
“Hash”
“List”
“Sorted Set”
“Sets”
“Module Types”
-
…
…
Key
Key
Key
Key
Key
Key
Key
Key
Key
DISK
Storage Space
Listener
Connection Handler
Command Parser
Expiry
Eviction
Modules Dispatcher
Process Space
Disk IO (AOF, Snapshots)
Command Dispatcher
Background Services
Replication
Redis Event Loop
Redise Architecture
– Redise Flash Shard: ◦ Ability to extend RAM to Flash for
cheaper storage of data (Redise Flash)
Redise Flash Shard
“Sting”
“Sorted Set”
“Set”
-
-
Key
Key
Key
Key
Key
Key
Key
Key
Key
“List”
“Module Types”
-
“Hash”
DISK
Storage Space
Process Space
Listener
Connection Handler
Command Parser
Expiry
Eviction
Modules DispatcherDisk IO (AOF, Snapshots)
Command Dispatcher
Background Services
Replication
Redis Event Loop
Reading And Writing Data
Read/Write Operation with Redise
Proxy
23
1
4
Redise
Redis AppsRedis Apps
MasterShards
SlaveShards
1. App submits the operation. One of the proxies in Redise Receive the Operation
- Single Key Ops (GET,STRLEN,HSTRLEN etc)- Multi Key Ops (MGET, BRPOP, EXISTS, TOUCH, etc)
2. Proxy distributes the operations to the corresponding shards in parallel
3. All shards involved in the execution return data to proxy- Fetch values from Flash if not already in RAM- Replication triggers writes to slave shards
4. Proxy assemble responses back to App
DEMO
Redise Flash Performance
21
Redise Flash vs Disk Based Databases?Redise Flash Disk Based Databases
Hot Value HandlingNo IO Required
Keep hot values in RAMHeavy IO Required
Keeps writing to disk
Write PerformanceFaster Writes
Non-Durable Writes with RAM Extension approach*
Slower Writes Durable Writes (WAL, Redo logs etc)
Cloud Optimized
Fast Local Writes to Ephemeral Drive
Utilizes the Ephemeral Drive for fast local IO and Network IO for
durability
Slow Writes to Network AttachedStorage
CANNOT Utilizes the Ephemeral Drive for fast local IO
Future ProofReady for Persistent MemorySystems like Intel 3D-XPoint
Needs Re-Architecting
*Redis has durable writes configurable as part of the database configuration as well independent off of the RAM-Extended Flash writes
Redise Flash on Intel® Optane™ SSD vs P3700
2040
1380
590728
14264
0
500
1000
1500
2000
2500
95% 85% 50%
K O
ps/
sec
RAM Hit Ratio %
Optane
P3700
Up to
9x Higher Throughput
item size = 1000B; read/write = 50%/50%
Intel Optane & 3DXpoint
Frank OberSolution Architect - Intel
CPUDELAY MORELESSCOST HIGHERLOWER
Intel® 3D NAND technology
lower cost & higher density
“Warm Data”
Higher Performance
“HOT DATA”
Intel® Optane™ technology
26
Intel® Optane™ SSD DC P4800X
Throughput (IOPS)
Quality of Service
Latency
Breakthrough Performance
Predictably Fast Service
Responsive Under Load
Endurance
UltraEndurance
27
Intel® Optane™ SSD Use Cases
DRAM
PCIe*
PCIe
Intel® 3D NAND SSDs
Intel®
Optane™
SSD
Fast Storage
Intel®
Xeon®
‘memory
pool’DRAM
PCIe
Intel® 3D NAND SSDs
Intel® Optane™
SSD
DDRDDR
PCIe
Extend Memory
Intel®
Xeon®
*Other names and brands names may be claimed as the property of others
Engage• Get Started with Redis Enterprise?
Signup for Redise Cloud: https://redislabs.com/products/redis-cloud/Download Redise Pack: https://redislabs.com/downloads
• Participate in Previews of Upcoming Technology?Email: [email protected]
• Questions on Redis or Redis Enterprise (Redise)?StackOverflow: Tag with “Redis”https://stackoverflow.com/questions/tagged/redis
• Find Local Redis MeetupsMeetup.com: https://www.meetup.com/San-Francisco-Redis-Meetup/
Thank You!
Cihan BiyikogluVP Product Management - Redis Labs
Frank OberSolution Architect - Intel