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We have recently started using Cassandra database in production. We have a single cross colo cluster of 24 nodes meaning 12 nodes in PHX and 12 nodes in SLC colo. We have a replication factor of 4 which means 2 copies will be there in each datacenter.

Below is the way by which keyspace and column families have been created by our Production DBA's.

create keyspace profile with placement_strategy = 'org.apache.cassandra.locator.NetworkTopologyStrategy' and strategy_options = {slc:2,phx:2};

create column family PROFILE_USER
with key_validation_class = 'UTF8Type'
and comparator = 'UTF8Type'
and default_validation_class = 'UTF8Type'
and gc_grace = 86400;

We are running Cassandra 1.2.2 and it has org.apache.cassandra.dht.Murmur3Partitioner, with KeyCaching, SizeTieredCompactionStrategy and Virtual Nodes enabled as well.

Machine Specifications for Cassandra production nodes-

16 cores, 32 threads
128GB RAM
4 x 600GB SAS in Raid 10, 1.1TB usable
2 x 10GbaseT NIC, one usable

Below is the result I am getting.

Read Latency(95th Percentile)      Number of Threads    Duration the program was running(in minutes)    Throughput(requests/seconds)    Total number of id's requested    Total number of columns requested
    9 milliseconds                         10                      30                                               1977                              3558701                        65815867

I am not sure what other things I should try it out with Cassandra to get much better read performance. I am assuming it is hitting the disk in my case. Should I try increasing the Replication Factor to some higher number? Any other suggestion?

I believe reading the data from HDD is around 6-12ms as compared to SSD's? In my case it is hitting the disk everytime I guess and enabling key cache is not working fine here. I cannot enable RowCache becasue it’s more efficient to use OS page cache. Maintaining row cache in JVM is very expensive, thus row cache is recommended for smaller number of rows, like <100K rows, only.

Is there any way I can verify whether keycaching is working fine in my case or not?

This is what I get when I do show schema for column family-

create column PROFILE
  with column_type = 'Standard'
  and comparator = 'UTF8Type'
  and default_validation_class = 'UTF8Type'
  and key_validation_class = 'UTF8Type'
  and read_repair_chance = 0.1
  and dclocal_read_repair_chance = 0.0
  and populate_io_cache_on_flush = false
  and gc_grace = 86400
  and min_compaction_threshold = 4
  and max_compaction_threshold = 32
  and replicate_on_write = true
  and compaction_strategy = 'org.apache.cassandra.db.compaction.SizeTieredCompactionStrategy'
  and caching = 'KEYS_ONLY'
  and compression_options = {'sstable_compression' : 'org.apache.cassandra.io.compress.SnappyCompressor'};

Is there anything I should make a change to get good read performance?

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your replication factor is 2. –  Schildmeijer May 13 '13 at 19:49
    
'nodetool cfstats' will show the key cache hit ratio –  Schildmeijer May 13 '13 at 19:51
    
rf is 4. But 2 in each data center. –  shortcut May 13 '13 at 20:02
    
Can you change to use SSD? Also enable the key cache, and monitor the hit rate, to get good performance > 80%. We are doing a read latency 99% < 10ms with a 7 nodes 32GB RAM, key cache hit rate ~=80% and ssd drives. –  hjarraya May 14 '13 at 11:50
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1 Answer 1

I am assuming it is hitting the disk in my case. Should I try increasing the Replication Factor to some higher number? Any other suggestion?

If your data is much larger than memory and your access is close to random you will be hitting disk. This is consistent with latencies of ~10ms.

Increasing the replication factor might help, although it will make your cache less efficient since each node will store more data. It is probably only worth doing if your read pattern is mostly random, your data is very large, you have low consistency requirements and your access is read heavy.

If you want to decrease read latency, you can use a lower consistency level. Reading at consistency level CL.ONE generally gives the lowest read latency at a cost of consistency. You will only get consistent reads at CL.ONE if writes are at CL.ALL. But if consistency is not required it is a good tradeoff.

If you want to increase read throughput, you can decrease read_repair_chance. This number specifies the probability that Cassandra performs a read repair on each read. Read repair involves reading from available replicas and updating any that have old values.

If reading at a low consistency level, read repair incurs extra read I/O so decreases throughput. It doesn't affect latency (for low consistency levels) since read repair is done asynchronously. Again, if consistency isn't important for your application, decrease read_repair_chance to maybe 0.01 to improve throughput.

Is there any way I can verify whether keycaching is working fine in my case or not?

Look at the output of 'nodetool info' and it will output a line like:

Key Cache : size 96468768 (bytes), capacity 96468992 (bytes), 959293 hits, 31637294 requests, 0.051 recent hit rate, 14400 save period in seconds

This gives you the key cache hit rate, which is quite low in the example above.

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