This page describes an older version of the product. The latest stable version is 16.4.

Utility


The benchmark example provides a good tool for running performance benchmarks on the cache in various scenarios. This program performs a loop of write/put and read/get or take/remove operations from a space according to a different set of parameters. The result is the average time it took to perform the operations. You can define a sampling rate to allow you to track the intermediate performance while the benchmark example is running. You may also dump the results into a file to be converted into graphs and analyzed using a spreadsheet and analysis tools.

You can find the benchmark in the <XAP Root>\tools\benchmark directory.

Typing run.bat -h in the console displays:

A detailed list of options for:

  • Setup
  • Performing operations
  • Operation options
  • Setting cluster topologies
  • Viewing statistics

Examples.

This print-out is displayed below:

Option arguments in square brackets [] are required;
Option arguments in triangular brackets <> are optional.

Setup:

-objecttype Defines the object type that will be written to the space. Usage: -objecttype ext

Other possible values are:

Option Description
entry Object implements net.jini.core.entry.Entry interface.
pojo Plain Java object
uid Object extends com.j_spaces.core.client.MetaDataEntry using the ClientUIDHandler.
fifo Object extends com.j_spaces.core.client.MetaDataEntry and sets FIFO=true.
ser Object implements net.jini.core.entry.Entry and java.io.Serializable interfaces.
Contains additional field with a complex list, therefore should NOT be compared with the following objects: entry, pojo, uid, fifo, jms
ext Object implements net.jini.core.entry.Entry and java.io.Externalizable interfaces.
Contains additional field with a complex list, therefore should NOT be compared with the following objects: entry, pojo, uid, fifo, jms
pojo-ext Plain Java object implements java.io.Externalizable interface.
Contains additional field with a complex list, therefore should NOT be compared with the following objects: entry, pojo, uid, fifo, jms
fifo-ext Object extends com.j_spaces.core.client.MetaDataEntry implements java.io.Externalizable interface and sets FIFO=true.
Contains additional field with a complex list, therefore should NOT be compared with the following objects: entry, pojo, uid, fifo, jms
uid-ext Object extends com.j_spaces.core.client.MetaDataEntry
implements java.io.Externalizable interface and using the ClientUIDHandler. Contains additional field with a complex list,
therefore should NOT be compared with the following objects: entry, pojo, uid, fifo, jms
mde-ext Object extends com.j_spaces.core.client.MetaDataEntry implements java.io.Externalizable interface.
Contains additional field with a complex list, therefore should NOT be compared with the following objects: entry, pojo, uid, fifo, jms
jms com.j_spaces.jms.GSSimpleMessageImpl, a basic JMS message which extends com.j_spaces.core.client.MetaDataEntry
implements java.io.Externalizable and javax.jms.Message interfaces.
For basic JMS send or sync/async receive, pass -write for JMS send, -take for JMS sync receive or -notify for JMS async receive.
-clean Clean space before benchmark starts
-url [url] Connection url; If none provided the one defined as part of the script file will be used
-f [FileName] dump results into file. Works with -showrate option. Default File name is BenchMarkResultDate_Time.
-pause Pauses once connection with space is established.
-exit Benchmark will hang once finished. When used with embedded space, space will still be alive.

Operations:

Option Description
write perform first operation as write/put
read perform second operation as read/get
update perform second operation as update (with uid)
take perform second/third operation as take/remove
all third perform all operations - first, second and then
execute [first/second ] enables execution of only first or second operation.
bench perform first-*second-second-third operation with uid

Options:

Option Description
-i number of iterations; default is 1000
-lease [time in ms] lease timeout in milliseconds of the write/put operation
-t [time in ms] timeout in milliseconds of the read/take/get/remove operations
-s [size in bytes] set byte size of the entry object.
-content changes the content value each iteration
-tr [number of threads] number of threads performing each operation
-rangefirst [from-to] will perform first operation with ids/keys between range
-rangesecond [from-to] will perform second operation with ids/keys between range
-repeatfirst [repeats] repeat times of first operation
-repeatsecond [repeats] repeat times of second operation
-m [batch size] specifies the batch size when performing batch operations
-rand will randomize second operation ids/keys in a range; default is by -i
-tx [nth-iteration] tx will be committed every nth-iteration; if zero, as specified by -i
-delaywrite [t ms] delays first operation every t milliseconds
-delayreadtake [t ms] delays second & third operation every t milliseconds
-writerate [Max Rate msg/sec] will limit the first operation rate (msg in 1 second) for all threads
-notify registers for notifications on all events
-parallel parallel execution of the operations
-clusteredoperation This parameter indicates if operation will be performed using a clustered proxy
-returnlease This parameter indicates if write operation will return a lease object

Transactions:

Option Description
tx 2000 Perform operation under local transaction, commit every 2000 operations.
dtx 1000 Perform operation under distributed transaction, commit every 1000 operations.

Topologies:

Option Description
-cache Turn on local cache mode; default is false
-map Map API - first/second/third operations as: put, get, remove.
-map -cache Map API with local cache.
-target [space name] Space name to perform second operations on (in a cluster configuration)
-hashtable use java.util.Hashtable API- first/second/third operations as: put,get, remove

Statistics:

Option Description
-showrate global throughput will be displayed every iteration cycle; default is 1000
-showthreadrate thread throughput will be displayed every iteration cycle; default is 1000
-stress [repeat times] runs the entire benchmark as many as ‘repeat times’ as stated

Examples:

Option Example
-f -f resultsfile.xsl -showrate
dump results into resultsfile.xsl
-execute -execute first
will perform only write/put operations
-execute -execute second
will perform only read operations
-execute -execute second -take
will perform only take operations
-bench -bench -map
will perform put,put(update),get,remove with uid
-bench -bench
will perform write,update,read,take with uid
-lease -i 1000 -lease 20000 -execute first
perform 1st operation with entry lease of 2 sec
-t -i 1000 -t 20000 -execute second
perform 2nd operation with timeout of 2 sec
-s -s 1000
define 1K size entries each
-content -i 1000 -content -s 1000
defines an entry with a changing content of 1K
-tr -i 1000 -tr 4
will perform 1000 iterations by each of the 4 threads
-rangefirst -rangefirst 1000-2000
will write/put ids/keys from 1000 to 2000
-rangesecond -rangesecond 1000-2000
will read/take/get/remove ids/keys from 1000 to 2000
-repeatfirst -i 1000 -repeatfirst 10
will write/put 10 times 1000 entries
-repeatsecond -i 1000 -repeatsecond 10
will read/get or take/remove 10 times 1000 entries
-m -m 100 -i 1000
will use 10 batches of 100 to perform operations on 1000 entries.
-rand -i 1000 -rand
will randomize second operation ids/keys from 0 to 1000
-rand -i 10000 -rand 40000
will randomize between ids/keys in the range of 0-40000
-rand -rangesecond 10000-25000 -rand
will randomize between 10000-25000
-writerate -i 100000 -writerate 50000 -tr 4
4 threads will write 100000 entries each with a maximum TP rate of 50000 msg/sec
-notify -notify -i 1000 -tr 5
will start 5 threads that will write and notify 1000 entries
-parallel -parallel -i 1000 -tr 5
will start 5 parallel threads, each performing 1000 operations
-clusteredoperation -clusteredoperation -i 100000
will write 100000 objects to entire cluster
-returnlease -returnlease -i 100000
will write 100000 objects with returning Lease object
-dtx-manager-url -dtx 1000 dtx-manager-url thunder1:3733
Use distributed transaction. Commit every 1000 operations.
Transaction Manager registered on LUS that is running on machine thunder1:3733
-cache -cache
will use local cache to remote space.
-map -map -all -i 1000
will put/get/remove 1000 entries.
-map -map -cache -i 1000 -repeatsecond 4
will put 1000 entries, first get from space, successive
gets from local cache.
-target -target rmi://host:port/container/space_name
will perform second operation this target space
-showrate -showrate 10000
will show TP every 10000 iterations
-showthreadrate -showthreadrate 10000
will show each thread-TP every 10000 iterations
-stress -map -all -stress 10
will run 10 cycles of map api put/get/remove
Note

The benchmark results are printed to an Excel file (using the FileName parameter), which allows you to easily sort your results. To do this, open your printed Excel file, and select Filter > AutoFilter from the Data menu at the top.

Note

The rangefirst and rangesecond parameters are supported only with single operations (and not with multiple/batch operations).

More Examples

The following example arguments should be passed to the runTest script after loading a remote Space using startAll script. e.g.

./run.sh jini://*/*/benchmarkSpace -read -i 1000

run.bat jini://*/*/benchmarkSpace -read -i 1000


The following example uses the XAP API, writes 1,000 Entries into the space, 1K each, and reads them back into the client.

-read -objecttype entry -i 1000 -s 1024

The following example uses the XAP API, writes 1,000 POJOs into the space, 1K each, and takes them from the space. A remote cache is accessed.

-take -objecttype pojo -i 1000 -s 1024

The following example uses the XAP API, writes 1,000 Entries into the space in FIFO mode Java version | .Net version , 1K each, and reads them back into the client three times.

-read -objecttype fifo -i 1000 -s 1024 -repeatsecond 3

The following example uses the Map API, puts 1,000 Entries into the space, 1K each, and gets them back into the client.

-map -read -i 1000 -s 1024

The following example uses the Map API, puts 1,000 Entries into the space, 1K each, and removes them from the space. A remote space is accessed.

-map -take -i 1000 -s 1024

The following example uses the Map API, puts 1,000 Entries into the space, 1K each, and gets them back into the client three times.

-map -read -i 1000 -s 1024 -repeatsecond 3

The following example uses the Map API, puts 100,000 Entries into the space, gets them back, and removes them from the space. Throughput is displayed every 10,000 operations.

-map -all -i 100000 -showrate 10000

The following example uses the JMS API, sends 10,000 JMS messages into the space (MessageProducer.send()), and receives them asynchronously (MessageListener.onMessage()) with notifications.

-i 100000 -notify -objecttype jms

The following example uses the JMS API, sends 100,000 JMS messages into the space (MessageProducer.send()), and receives them synchronously (MessageConsumer.receive()). Throughput is displayed every 10,000 operations.

-i 100000 -take -objecttype jms -showrate 10000