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WFA TOOLS

WHAT IS THIS?

The WFA2-lib offers tools that exploits the different libraries features and serve as examples on how to use and exploit the library functions. Also, these tools serve for testing the library and benchmarking its performance against other state-of-the-art tools and libraries for pairwise alignment. If you are interested in benchmarking WFA2-lib and other algorithms (internal or external), checkout the branch benchmark.

1. GENERATE DATASET TOOL

The generate-dataset tool allows generating synthetic random datasets for testing and benchmarking purposes. This tool produces a simple output format (i.e., each pair of sequences in 2 lines) containing the pairs of sequences to be aligned using the align-benchmark tool. For example, the following command generates a dataset named 'sample.dataset.seq' of 5M pairs of 100 bases with an alignment error of 5% (i.e., 5 mismatches, insertions, or deletions per alignment).

$> ./bin/generate_dataset -n 5000000 -l 100 -e 0.05 -o sample.dataset.seq

Command-line Options

        --output|o <File>
          Filename/Path to the output dataset.
          
        --num-patterns|n <Integer>
          Total number of sequence-pairs generated (i.e., pattern+text).
          
        --length|l <Integer>
          Length of the generated pattern (ie., query or sequence) and text (i.e., target or reference)
          
        --length|l <Integer>
          Length of the pattern (pattern.length).
          
        --length-diff <Float>
          Length of the text as percentage of the pattern.length (default=1.0).
          
        --error|e <Float>
          Simulated errors (mismatch/insertion/deletion) as a percentage of the pattern.length (default=0.04). This parameter may modify the final length of the text.
          
        --indels <Integer1>,<Integer2>  
          Insert up to additional <Integer1> indels of <Integer2> (default=0,0)  
          
        --help|h
          Outputs a succinct manual for the tool.

2. ALIGNMENT BENCHMARK TOOL

Introduction to Alignment Benchmarking

The WFA2-lib includes the benchmarking tool align-benchmark to test and compare the performance of various pairwise alignment implementations. This tool takes as input a dataset containing pairs of sequences (i.e., pattern and text) to align. Patterns are preceded by the '>' symbol and texts by the '<' symbol. Example:

>ATTGGAAAATAGGATTGGGGTTTGTTTATATTTGGGTTGAGGGATGTCCCACCTTCGTCGTCCTTACGTTTCCGGAAGGGAGTGGTTAGCTCGAAGCCCA
<GATTGGAAAATAGGATGGGGTTTGTTTATATTTGGGTTGAGGGATGTCCCACCTTGTCGTCCTTACGTTTCCGGAAGGGAGTGGTTGCTCGAAGCCCA
>CCGTAGAGTTAGACACTCGACCGTGGTGAATCCGCGACCACCGCTTTGACGGGCGCTCTACGGTATCCCGCGATTTGTGTACGTGAAGCAGTGATTAAAC
<CCTAGAGTTAGACACTCGACCGTGGTGAATCCGCGATCTACCGCTTTGACGGGCGCTCTACGGTATCCCGCGATTTGTGTACGTGAAGCGAGTGATTAAAC
[...]

Once you have the dataset ready, you can run the align-benchmark tool to benchmark the performance of a specific pairwise alignment method. For example, the WFA algorithm:

$> ./bin/align_benchmark -i sample.dataset.seq -a gap-affine-wfa
...processed 10000 reads (benchmark=125804.398 reads/s;alignment=188049.469 reads/s)
...processed 20000 reads (benchmark=117722.406 reads/s;alignment=180925.031 reads/s)
[...]
...processed 5000000 reads (benchmark=113844.039 reads/s;alignment=177325.281 reads/s)
[Benchmark]
=> Total.reads            5000000
=> Time.Benchmark        43.92 s  (    1   call,  43.92  s/call {min43.92s,Max43.92s})
  => Time.Alignment      28.20 s  ( 64.20 %) (    5 Mcalls,   5.64 us/call {min438ns,Max47.05ms})

The align-benchmark tool will finish and report overall benchmark time (including reading the input, setup, checking, etc.) and the time taken by the algorithm (i.e., Time.Alignment). If you want to measure the accuracy of the alignment method, you can add the option --check and all the alignments will be verified.

$> ./bin/align_benchmark -i sample.dataset.seq -a gap-affine-wfa --check
...processed 10000 reads (benchmark=14596.232 reads/s;alignment=201373.984 reads/s)
...processed 20000 reads (benchmark=13807.268 reads/s;alignment=194224.922 reads/s)
[...]
...processed 5000000 reads (benchmark=10625.568 reads/s;alignment=131371.703 reads/s)
[Benchmark]
=> Total.reads            5000000
=> Time.Benchmark         7.84 m  (    1   call, 470.56  s/call {min470.56s,Max470.56s})
  => Time.Alignment      28.06 s  (  5.9 %) (    5 Mcalls,   5.61 us/call {min424ns,Max73.61ms})
[Accuracy]
 => Alignments.Correct        5.00 Malg        (100.00 %) (samples=5M{mean1.00,min1.00,Max1.00,Var0.00,StdDev0.00)}
 => Score.Correct             5.00 Malg        (100.00 %) (samples=5M{mean1.00,min1.00,Max1.00,Var0.00,StdDev0.00)}
   => Score.Total           147.01 Mscore uds.            (samples=5M{mean29.40,min0.00,Max40.00,Var37.00,StdDev6.00)}
     => Score.Diff            0.00 score uds.  (  0.00 %) (samples=0,--n/a--)}
 => CIGAR.Correct             0.00 alg         (  0.00 %) (samples=0,--n/a--)}
   => CIGAR.Matches         484.76 Mbases      ( 96.95 %) (samples=484M{mean1.00,min1.00,Max1.00,Var0.00,StdDev0.00)}
   => CIGAR.Mismatches        7.77 Mbases      (  1.55 %) (samples=7M{mean1.00,min1.00,Max1.00,Var0.00,StdDev0.00)}
   => CIGAR.Insertions        7.47 Mbases      (  1.49 %) (samples=7M{mean1.00,min1.00,Max1.00,Var0.00,StdDev0.00)}
   => CIGAR.Deletions         7.47 Mbases      (  1.49 %) (samples=7M{mean1.00,min1.00,Max1.00,Var0.00,StdDev0.00)}

Using the --check option, the tool will report Alignments.Correct (i.e., total alignments that are correct, not necessarily optimal), and Score.Correct (i.e., total alignments that have the optimal score). Note that the overall benchmark time will increase due to the overhead introduced by the checking routine, however the Time.Alignment should remain the same.

Algorithms & Implementations Summary

Summary of algorithms/methods implemented within the benchmarking tool. If you are interested in benchmarking WFA with other algorithms implemented or integrated into the WFA library, checkout branch benchmark.

Algorithm Name Code-name Distance Output Library
WFA Indel (LCS) indel-wfa Indel Alignment WFA2-lib
Bit-Parallel-Myers (BPM) edit-bpm Edit Alignment WFA2-lib
DP Edit edit-dp Edit Alignment WFA2-lib
DP Edit (Banded) edit-dp-banded Edit Alignment WFA2-lib
WFA Edit edit-wfa Edit Alignment WFA2-lib
DP Gap-linear (NW) gap-linear-nw Gap-linear Alignment WFA2-lib
WFA Gap-linear gap-linear-wfa Gap-linear Alignment WFA2-lib
DP Gap-affine (SWG) gap-affine-swg Gap-affine Alignment WFA2-lib
DP Gap-affine Banded (SWG Banded) gap-affine-swg-banded Gap-affine Alignment WFA2-lib
WFA Gap-affine gap-affine-wfa Gap-affine Alignment WFA2-lib
DP Gap-affine Dual-Cost gap-affine2p-dp Gap-affine (2P) Alignment WFA2-lib
WFA Gap-affine Dual-Cost gap-affine2p-wfa Gap-affine (2P) Alignment WFA2-lib
  • DP: Dynamic Programming
  • SWG: Smith-Waterman-Gotoh
  • NW: Needleman-Wunsch

Command-line Options

- Input

          --algorithm|a <algorithm-code-name> 
            Selects pair-wise alignment algorithm/implementation.
                                                       
          --input|i <File>
            Filename/path to the input SEQ file. That is, file containing the sequence pairs to
            align. Sequences are stored one per line, grouped by pairs where the pattern is 
            preceded by '>' and text by '<'.
            
          --output|o <File>
            Filename/path of the output file containing a brief report of the alignment. Each line
            corresponds to the alignment of one input pair with the following tab-separated fields:
            <SCORE>  <CIGAR>
          
          --output-full <File> 
            Filename/path of the output file containing a report of the alignment. Each line
            corresponds to the alignment of one input pair with the following tab-separated fields:
            <PATTERN-LENGTH>  <TEXT-LENGTH>  <SCORE>  <PATTERN>  <TEXT>  <CIGAR>

- Penalties & Span

          --lineal-penalties|p M,X,I
            Selects gap-lineal penalties for those alignment algorithms that use this penalty model.
            Example: --lineal-penalties="0,1,2"
              M - Match penalty
              X - Mismatch penalty
              I - Indel penalty
                
          --affine-penalties|g M,X,O,E
            Selects gap-affine penalties for those alignment algorithms that use this penalty model.
            Example: --affine-penalties="0,4,2,6" 
              M - Match penalty
              X - Mismatch penalty
              O - Open penalty
              E - Extend penalty
          
          --affine2p-penalties M,X,O1,E1,O2,E2 
            Select gap-affine dual-cost penalties for those alignment algorithms that use this  
            penalty model. Example: --affine2p-penalties="0,4,2,6,20,2" 
              M  - Match penalty
              X  - Mismatch penalty
              O1 - Open penalty (gap 1)
              E1 - Extend penalty (gap 1)
              O2 - Open penalty (gap 2)
              E2 - Extend penalty (gap 2)
          
          --ends-free P0,Pf,T0,Tf
            Determines the maximum ends length to allow for free in the ends-free alignment mode.
            Example: --ends-free="100,100,0,0"
              P0 - Pattern begin (for free)
              Pf - Pattern end (for free)
              T0 - Text begin (for free)
              Tf - Text end (for free)
          

- Wavefront parameters

          --minimum-wavefront-length <INT>
            Selects the minimum wavefront length to trigger the WFA-Adapt reduction method.
            
          --maximum-difference-distance <INT>
            Selects the maximum difference distance for the WFA-Adapt reduction method.  

- Others

          --bandwidth <INT>
            Selects the bandwidth size for those algorithms that use bandwidth strategy. 
            
          --num-threads|t <INT>
            Sets the number of threads to use to align the sequences. If the multithreaded mode is
            enabled, the input is read in batches of multiple sequences and aligned using the number
            of threads configured. 
            
          --batch-size <INT>
            Selects the number of pairs of sequences to read per batch in the multithreaded mode.
            
          --check|c 'correct'|'score'|'alignment'                    
            Activates the verification of the alignment results. 
          
          --check-distance 'edit'|'gap-lineal'|'gap-affine'
            Select the alignment-model to use for verification of the results.
          
          --check-bandwidth <INT>
            Sets a bandwidth for the simple verification functions.

          --help|h
            Outputs a succinct manual for the tool.

AUTHORS

Santiago Marco-Sola - [email protected]

REPORTING BUGS

Feedback and bug reporting it's highly appreciated. Please report any issue or suggestion on github or by email to the main developer ([email protected]).

LICENSE

WFA Tools are distributed under MIT licence.