Sharding Weather
 - Practical examples with big data and ElasticSearch

Transcript

1. 1 Sharding Weather
 Practical examples with big data and ElasticSearch

   Timmo Freudl-Gierke
 @timmo_8 September 2015

2. Agenda • Value Chains of a private Weather Company •

   Weather in numbers • How to forecast weather • Sharding Weather • Elastic Search PoC Measurements • Lessons Learned • Wrap Up & Prospect 2

3. Value Chain of a private Weather Company 3

4. Empowering the world to master the weather 4

5. 5 WeatherPro, AlertsPro, RainToday, MeteoEarth

6. 6

7. 7

8. Storm Chaser 8

9. 9

10. 10

11. 11

12. 12

13. Skyview (Live Demo) 13

14. Sky View 14

15. Weather in numbers 15

16. John von Neumann One of the designers of the electronic

    computer and a participant in the production of the first numerical weather prediction (forecast). 16

17. European Centre for Medium- Range Weather Forecasts 17

18. Numeric Weather Prediction Models 18

19. ECMWF Model 19 Issues per Day 2 Forecast Periods 57

    Resolution (horizontal) N640 => 0.25° x 0.25° => ~16 km Resolution (Grid Points) 2140702 Elevation Levels 10 Attributes 124 Volumen per day (GB) 1127,31

20. 5 models from different providers 20

21. Observations • WMO Weather Stations • 10k surface • 1k

    upper-air • 7k ships • 1k drifting buoys • 3k aircrafts • MeteoGroup Measurement Network • 1.5k Stations • Radar • Satellite 21

22. Opened last week 22

23. How to forecast weather 23

24. Today 24

25. Gridded Forecast Model 25 Horizontal Grid (Latitude / Longitude) Vertical

    Grid (Height or Pressure)

26. 26 Forecast Periods

27. 27 + => High Quality Weather Station Forecast Statistical Correction

    of Numeric Forecast

28. Challenges with Mobile Clients 28

29. Sunglasses or Umbrella? 29

30. 30 Weather Station Smart Phone User

31. 31 Tomorrow

32. Demand • High resolution • Hyper Local • On Demand

    32

33. Why not just doing it? • New Meteorological “Magic” necessary

    • “Modern” Technologies required • Turning everything upside down 33

34. A little bit of Meteorological Magic 34

35. Compute on 50+ Grid Points 35

36. 36 Topography

37. 37 Land Usage Affects http://overpass-turbo.eu

38. Technology Magic: On the fly calculation! 38

39. 39 Model Station Observations Magic Station Forecast Forecast
 User Pre-Processing

    Model Magic Forecast
 User On-the-Fly

40. Sharding Weather 40

41. Sharding 41 Sharding is the equivalent of "horizontal partitioning". 


    When you shard a database, you create replica's of the schema, and then divide what data is stored in each shard based on a shard key. https://www.quora.com/Whats-the-difference-between-sharding-and-partition

42. Linear Scalability 42 “Serve N times more requests just by

    
 adding N times more nodes.”

43. Weather Dimensions 43

44. Weather Dimensions 44 Weather Param Location Time

45. 45 Location

46. 46 Sharding Node

47. 47 Sharding Key = geohash

48. 48 Time

49. 49 Sharding Key = Forecast Period

50. 50 Weather Param

51. 51 Sharding Node Sharding Node Sharding Node Sharding Node Sharding

    Node temperature duepoint windspeed probability of rain … Sharding Key = weather parameter (name/id)

52. Elastic Search PoC Measurements 52

53. Elastic Search • NoSQL Database • search and analytics engine

    • designed for horizontal scalability • developer-friendly query language • structured, unstructured, and time-series data 53

54. Measurement Use Cases 54

55. 55 Use Case 1:
 Request Weather Forecast

56. 56 Use Case 2: Ingest Weather Forecast Model

57. PoC Architecture Physical Deployment View Elastic Search Node JMeter JMeter

    57 Computation Service Elastic Search Node Computation Service Elastic Search Node Elastic Search Node Elastic Search Node JMeter Load Balancer Computation Service 13x 3x 3x

58. Cluster Setup • JMeter • 1 master: c4.4xlarge • 2

    worker: c4.4xlarge • Docker • Elastic Load Balancer • Computation Service • 3 nodes t2.micro • Spring Boot • Docker • ElasticSearch cluster: • 3 master nodes: m4.xlarge • 10 data nodes: c4.4xlarge • Monthly cost: ~4,000 USD 58

59. Iterative Optimisation 59 Measure Analyse Results Find & Remove Bottleneck

    Redeploy

60. Default Sharding 60 # Documents Doc Size (B) AVG latency


    (ms) Throughput
 (req/s) CPU 1.000.000.000 470 298 263 350% • shard on artificial ID • Document contains • lat / lon • one forecast period • one elevation levels • one weather parameter

61. Default Sharding 61 Computation Service lat/lon+time get n surrounding 


    grid points • documents are equally distributed • n nodes must deliver data

62. Shard on Weather Parameter • Sharding Key = weather parameter

    (name/id) • 120 different parameter • Dependencies between parameter • Multiple parameter necessary to compute the “present weather” • Number of parameter required for computation 
 equals number of shards to deliver data 62

63. Sharding on Geo Location 63 • Sharding Key = Geohash

    • 470B Documents • 34 Shards • One node touched # Documents Requests/s AVG latency
 (ms) Throughput
 (req/s) 48.629.840 2000 26 619 48.629.840 8000 67 1114 Elastic Search does not support sharding on geo location. Custom hash function necessary.

64. Sharding on Forecast Period 64 • Sharding Key = 


    Forecast Period • 470B Documents • 100 Shards • One to 3 nodes touched # Documents Marvel Requests/s AVG latency
 (ms) Throughput
 (req/s) 48.629.840 ON 8000 28 2610 1.055.126.000 ON 8000 111 683 1.055.126.000 OFF 8000 80 960

65. How long does the ingestion process take? 65

66. Ingestion Numbers • 1:15 hours to download all chunks •

    Max need today: 71k documents / second • Shard Key = 
 Forecast Period 66 # Documents # Params # Elev. AVG 
 (documents/sec) 211.025.200 10 2 ~400k/s 1.055.126.000 50 10 ~67k/s

67. Lessons Learned 67

68. Know your domain. This is key for sharding. 68

69. Elastic Search will do the Job • transport client ->

    node client • dedicated master node • custom geo-hash function 69

70. AWS & Infrastructure • Infrastructure as code! • Enables faster

    re-configuration & re-deployments • 124 scripts at the end • Embedded (Senior) Operator / DBA is key • Fast deployment pipeline is key 
 for fast evolution of PoC 70

71. Meteorological Research together with Technology • Sandbox vs production ready

    code • Development Approach 
 (e.g. TDD, Pair Programming) • DevOps => MetDev 71

72. Team Vibes 72 Measure Analyse Results Remove Bottleneck Redeploy

73. Wrap Up & Prospect • Insights of a domain which

    affects everyone • Forecast in 200 ms for arbitrary global position • Future • Derived Values • Market specific forecasts • IoT (cars, mobiles, …) • Crowd sourcing 73

74. 74 Sharding Weather
 Practical examples with big data and ElasticSearch

    Timmo Freudl-Gierke
 @timmo_8 September 2015

75. 75 We are looking for Java Super Heroes Scrum RESTful

    SQL Email:[email protected] Subject: JAVA DEVELOPER - ENERGY