User Tools

Site Tools


difx:benchmarks

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Next revision
Previous revision
difx:benchmarks [2011/12/09 01:59]
adamdeller (Delete) difx:benchmarks renamed to results:benchmarks (Logical subdir structure)
difx:benchmarks [2015/10/21 10:08] (current)
Line 1: Line 1:
-This page is redirected ​to [[:​results:​benchmarks]].+ 
 +====== DiFX Benchmark Results ====== 
 + 
 +It is the intention of this page to provide a means of documenting historical benchmark results. ​ Each different dataset that anyone has used will form a subsection, consisting of a table containing the cluster used, the correlation parameters, the DiFX version and the time taken. 
 + 
 +If you are interested in a description of how to run benchmark tests, please see the [[benchmarking|benchmarking documentation]]
 + 
 +===== TC016A - module-based correlation ===== 
 + 
 +This was correlated with the current VLBA software correlator cluster (10 nodes, dual quad core Intel Xeon 5420 @ 2.5 GHz, 6MB shared L2 cache/CPU, 7 compute threads/​node),​ with the data played back off module, allowing read speeds up to ~950 Mbps/​station. ​ It was a 9 station experiment, and the primary goal was to compare DiFX1.5 with DiFX2.0 for large numbers of channels, and to benchmark the multiple phase centre code in DiFX2.0. ​ The dataset was 60 seconds long, and all were correlated in full polar mode.  Note that for DiFX1.5.2 the "​true"​ time should really be boosted by ~4% because the correlator shuts down a little early and ditches part of the last integration. 
 + 
 +|**DiFX version**|**#​ spectral points**|**#​ FFTs buffered**|**#​ phase centres**|**Time (s)**|**Notes** ​             | 
 +| DiFX-1.5.2 ​    | 128                 | 1 (N/A)           | 1                 | 60         ​| ​                      | 
 +| DiFX-1.5.2 ​    | 256                 | 1 (N/A)           | 1                 | 63         ​| ​                      | 
 +| DiFX-1.5.2 ​    | 1024                | 1 (N/A)           | 1                 | 222        |                       | 
 +| DiFX-1.5.2 ​    | 4096                | 1 (N/A)           | 1                 | 295        |                       | 
 +| DiFX-2.0 ​      | 16                  | 1                 | 1                 | 56         ​| ​                      | 
 +| DiFX-2.0 ​      | 128                 | 1                 | 1                 | 54         ​| ​                      | 
 +| DiFX-2.0 ​      | 256                 | 1                 | 1                 | 54         ​| ​                      | 
 +| DiFX-2.0 ​      | 1024                | 1                 | 1                 | 212        |                       | 
 +| DiFX-2.0 ​      | 4096                | 1                 | 1                 | 290        |                       | 
 +| DiFX-2.0 ​      | 16                  | 10                | 1                 | 54         ​| ​                      | 
 +| DiFX-2.0 ​      | 128                 | 10                | 1                 | 54         ​| ​                      | 
 +| DiFX-2.0 ​      | 256                 | 10                | 1                 | 66         ​| ​                      | 
 +| DiFX-2.0 ​      | 1024                | 10                | 1                 | 83         ​| ​                      | 
 +| DiFX-2.0 ​      | 4096                | 10                | 1                 | 157        |                       | 
 +| DiFX-2.0 ​      | 16                  | 25                | 1                 | 67         ​| ​                      | 
 +| DiFX-2.0 ​      | 4096                | 25                | 1                 | 150        |                       | 
 +| DiFX-2.0 ​      | 4096                | 10                | 10                | 154        |                       | 
 +| DiFX-2.0 ​      | 4096                | 10                | 30                | 167        |                       | 
 +| DiFX-2.0 ​      | 4096                | 10                | 100               | 178        |                       | 
 +| DiFX-2.0 ​      | 4096                | 10                | 500               | 405        | Mostly due to disk write speed limitations. "​Correlate"​ time was 244 seconds | 
 + 
 +DiFX2.0 is slightly faster for "​normal"​ correlation,​ but much faster for large numbers of channels when FFT buffering is turned on.  The scaling with number of phase centres is that 500 additional phase centres less than doubles the time taken for one phase centre, at least when comparing like numbers of spectral channels and neglecting the impact of writing to disk (which since these tests has been made much more efficient and should now no longer be a factor). ​ Thus, the main effect that needs to be taken into account when processing multiple phase centres is simply the cost of going to higher spectral resolution, which is a cost of ~x3. 
 + 
 +===== TC016A - file-based correlation ===== 
 + 
 +This dataset is not yet available from the ftp area.  It consists of 8 VLBA stations, 512 Mbps data (8x16 MHz bands). ​ Some ~15 minutes of data is available in total - for the tests described below, a subset consisting of 60 seconds was used. 
 + 
 +|**Cluster**|**#​ compute nodes**|**# threads/​node**|**DiFX version**|**#​ spectral points**|**#​ phase centres**|**Time (s)**|**Notes** ​  | 
 +| VLBA      | 10   | 2  | 1.5.1          | 128                 | 1                 | 160        | Full polar | 
 +| VLBA      | 10   | 2  | 2.0            | 128                 | 1                 | 146        | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 10   | 2  | 1.5.1          | 1024                | 1                 | 240        | Full polar | 
 +| VLBA      | 10   | 2  | 2.0            | 1024                | 1                 | 202        | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 10   | 2  | 2.0            | 1024                | 1                 | 175        | Full polar, 10 batched FFTs | 
 +| VLBA      | 10   | 2  | 1.5.1          | 4096                | 1                 | 400        | Full polar | 
 +| VLBA      | 10   | 2  | 2.0            | 4096                | 1                 | 402        | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 10   | 2  | 2.0            | 4096                | 1                 | 300        | Full polar, 10 batched FFTs | 
 +| VLBA      | 10   | 2  | 2.0            | 4096                | 100               | 327        | Full polar, 10 batched FFTs | 
 +| VLBA      | 5    | 4  | 1.5.1          | 128                 | 1                 | 164        | Full polar | 
 +| VLBA      | 5    | 4  | 2.0            | 128                 | 1                 | 145        | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 5    | 4  | 2.0            | 128                 | 1                 | 141        | Full polar, 10 batched FFTs | 
 +| VLBA      | 5    | 4  | 1.5.1          | 1024                | 1                 | 317        | Full polar | 
 +| VLBA      | 5    | 4  | 2.0            | 1024                | 1                 | 262        | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 5    | 4  | 2.0            | 1024                | 1                 | 184        | Full polar, 10 batched FFTs | 
 +| VLBA      | 5    | 4  | 1.5.1          | 4096                | 1                 | 570        | Full polar | 
 +| VLBA      | 5    | 4  | 2.0            | 4096                | 1                 | 598        | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 5    | 4  | 2.0            | 4096                | 1                 | 384        | Full polar, 10 batched FFTs | 
 +| VLBA      | 5    | 4  | 2.0            | 4096                | 1                 | 375        | Full polar, 25 batched FFTs | 
 +| VLBA      | 3    | 7  | 1.5.1          | 128                 | 1                 ​| ​           | Full polar | 
 +| VLBA      | 3    | 7  | 2.0            | 128                 | 1                 ​| ​           | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 3    | 7  | 1.5.1          | 1024                | 1                 ​| ​           | Full polar | 
 +| VLBA      | 3    | 7  | 2.0            | 1024                | 1                 | 534        | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 3    | 7  | 2.0            | 1024                | 1                 ​| ​           | Full polar, 10 batched FFTs | 
 +| VLBA      | 3    | 7  | 1.5.1          | 4096                | 1                 ​| ​           | Full polar | 
 +| VLBA      | 3    | 7  | 2.0            | 4096                | 1                 ​| ​           | Full polar, no FFT "​batching"​ | 
 +| VLBA      | 3    | 7  | 2.0            | 4096                | 1                 ​| ​           | Full polar, 10 batched FFTs | 
 + 
 +It should be noted that the 1.5.1 tests with the VLBA required some estimation, since 1.5.1 could not skip past the start of disk files and took ages to get to the right spot in the files, messing up the timing. ​ Note that the advantage of DiFX2.0 in large numbers of channels becomes more pronounced when the nodes have more threads (which reduces the amount of L2 cache each thread has).  For the same reasons, the advantage of DiFX2.0 would be greater for experiments with more antennas (there are usually 10 VLBA antennas, not 8).  Basically, DiFX2.0 holds the scaling apparent here much better to larger numbers of channels, Cores, or antennas, much better than DiFX1.5.1 can.  It should also be noted that the VLBA cluster only has 512 MB of RAM per CPU core. For large numbers of channels, this is getting uncomfortably tight. ​ For clusters where high spectral resolution is expected to be commonplace,​ 1GB of RAM per core might be better. ​ This is probably standard by now anyway.
difx/benchmarks.1323356347.txt.gz · Last modified: 2011/12/09 01:59 by adamdeller