Notable changes to BWA-MEM:
-
Fixed a segmentation fault due to an alignment bridging the forward-reverse boundary. This is a bug.
-
Use the PacBio heuristic to map contigs to the reference genome. The old heuristic evaluates the necessity of full extension for each chain. This may not work in long low-complexity regions. The PacBio heuristic performs SSE2-SW around each short seed. It works better. Note that the heuristic is only applied to long query sequences. For Illumina reads, the output is identical to the previous version.
(0.7.10: 13 July 2014, r789)
This release brings several major changes to BWA-MEM. Notably, BWA-MEM now formally supports PacBio read-to-reference alignment and experimentally supports PacBio read-to-read alignment. BWA-MEM also runs faster at a minor cost of accuracy. The speedup is more significant when GRCh38 is in use. More specifically:
-
Support PacBio subread-to-reference alignment. Although older BWA-MEM works with PacBio data in principle, the resultant alignments are frequently fragmented. In this release, we fine tuned existing methods and introduced new heuristics to improve PacBio alignment. These changes are not used by default. Users need to add option "-x pacbio" to enable the feature.
-
Support PacBio subread-to-subread alignment (EXPERIMENTAL). This feature is enabled with option "-x pbread". In this mode, the output only gives the overlapping region between a pair of reads without detailed alignment.
-
Output alternative hits in the XA tag if there are not so many of them. This is a BWA-backtrack feature.
-
Support mapping to ALT contigs in GRCh38 (EXPERIMENTAL). We provide a script to postprocess hits in the XA tag to adjust the mapping quality and generate new primary alignments to all overlapping ALT contigs. We would NOT recommend this feature for production uses.
-
Improved alignments to many short reference sequences. Older BWA-MEM may generate an alignment bridging two or more adjacent reference sequences. Such alignments are split at a later step as postprocessing. This approach is complex and does not always work. This release forbids these alignments from the very beginning. BWA-MEM should not produce an alignment bridging two or more reference sequences any more.
-
Reduced the maximum seed occurrence from 10000 to 500. Reduced the maximum rounds of Smith-Waterman mate rescue from 100 to 50. Added a heuristic to lower the mapping quality if a read contains seeds with excessive occurrences. These changes make BWA-MEM faster at a minor cost of accuracy in highly repetitive regions.
-
Added an option "-Y" to use soft clipping for supplementary alignments.
-
Bugfix: incomplete alignment extension in corner cases.
-
Bugfix: integer overflow when aligning long query sequences.
-
Bugfix: chain score is not computed correctly (almost no practical effect)
-
General code cleanup
-
Added FAQs to README
Changes in BWA-backtrack:
- Bugfix: a segmentation fault when an alignment stands out of the end of the last chromosome.
(0.7.9: 19 May 2014, r783)
Changes in BWA-MEM:
-
Bugfix: off-diagonal X-dropoff (option -d) not working as intended. Short-read alignment is not affected.
-
Bugfix: unnecessarily large bandwidth used during global alignment, which reduces the mapping speed by -5% for short reads. Results are not affected.
-
Bugfix: when the matching score is not one, paired-end mapping quality is inaccurate.
-
When the matching score (option -A) is changed, scale all score-related options accordingly unless overridden by users.
-
Allow to specify different gap open (or extension) penalties for deletions and insertions separately.
-
Allow to specify the insert size distribution.
-
Better and more detailed debugging information.
With the default setting, 0.7.8 and 0.7.7 gave identical output on one million 100bp read pairs.
(0.7.8: 31 March 2014, r455)
This release fixes incorrect MD tags in the BWA-MEM output.
A note about short-read mapping to GRCh38. The new human reference genome GRCh38 contains 60Mbp program generated alpha repeat arrays, some of which are hard masked as they cannot be localized. These highly repetitive arrays make BWA-MEM -50% slower. If you are concerned with the performance of BWA-MEM, you may consider to use option "-c2000 -m50". On simulated data, this setting helps the performance at a very minor cost on accuracy. I may consider to change the default in future releases.
(0.7.7: 25 Feburary 2014, r441)
Changes in BWA-MEM:
-
Changed the way mapping quality is estimated. The new method tends to give the same alignment a higher mapping quality. On paired-end reads, the change is minor as with pairing, the mapping quality is usually high. For short single-end reads, the difference is considerable.
-
Improved load balance when many threads are spawned. However, bwa-mem is still not very thread efficient, probably due to the frequent heap memory allocation. Further improvement is a little difficult and may affect the code stability.
-
Allow to use different clipping penalties for 5'- and 3'-ends. This helps when we do not want to clip one end.
-
Print the @PG line, including the command line options.
-
Improved the band width estimate: a) fixed a bug causing the band width extimated from extension not used in the final global alignment; b) try doubled band width if the global alignment score is smaller. Insufficient band width leads to wrong CIGAR and spurious mismatches/indels.
-
Added a new option -D to fine tune a heuristic on dropping suboptimal hits. Reducing -D increases accuracy but decreases the mapping speed. If unsure, leave it to the default.
-
Bugfix: for a repetitive single-end read, the reported hit is not randomly distributed among equally best hits.
-
Bugfix: missing paired-end hits due to unsorted list of SE hits.
-
Bugfix: incorrect CIGAR caused by a defect in the global alignment.
-
Bugfix: incorrect CIGAR caused by failed SW rescue.
-
Bugfix: alignments largely mapped to the same position are regarded to be distinct from each other, which leads to underestimated mapping quality.
-
Added the MD tag.
There are no changes to BWA-backtrack in this release. However, it has a few known issues yet to be fixed. If you prefer BWA-track, It is still advised to use bwa-0.6.x.
While I developed BWA-MEM, I also found a few issues with BWA-SW. It is now possible to improve BWA-SW with the lessons learned from BWA-MEM. However, as BWA-MEM is usually better, I will not improve BWA-SW until I find applications where BWA-SW may excel.
(0.7.6: 31 January 2014, r432)
Fixed a bug in BWA-backtrack which leads to off-by-one mapping errors in rare cases.
(0.7.5a: 30 May 2013, r405)
Changes in all components:
-
Improved error checking on memory allocation and file I/O. Patches provided by Rob Davies.
-
Updated README.
-
Bugfix: return code is zero upon errors.
Changes in BWA-MEM:
-
Changed the way a chimeric alignment is reported (conforming to the upcoming SAM spec v1.5). With 0.7.5, if the read has a chimeric alignment, the paired or the top hit uses soft clipping and is marked with neither 0x800 nor 0x100 bits. All the other hits part of the chimeric alignment will use hard clipping and be marked with 0x800 if option "-M" is not in use, or marked with 0x100 otherwise.
-
Other hits part of a chimeric alignment are now reported in the SA tag, conforming to the SAM spec v1.5.
-
Better method for resolving an alignment bridging two or more short reference sequences. The current strategy maps the query to the reference sequence that covers the middle point of the alignment. For most applications, this change has no effects.
Changes in BWA-backtrack:
-
Added a magic number to .sai files. This prevents samse/sampe from reading corrupted .sai (e.g. a .sai file containing LSF log) or incompatible .sai generated by a different version of bwa.
-
Bugfix: alignments in the XA:Z: tag were wrong.
-
Keep track of #ins and #del during backtracking. This simplifies the code and reduces errors in rare corner cases. I should have done this in the early days of bwa.
In addition, if you use BWA-MEM or the fastmap command of BWA, please cite:
- Li H. (2013) Aligning sequence reads, clone sequences and assembly contigs with BWA-MEM. arXiv:1303.3997v2 [q-bio.GN].
Thank you.
(0.7.5: 29 May 2013, r404)
This is a bugfix release. Most of bugs are considered to be minor which only occur very rarely.
-
Bugfix: wrong CIGAR when a query sequence bridges three or more target sequences. This only happens when aligning reads to short assembly contigs.
-
Bugfix: leading "D" operator in CIGAR.
-
Extend more seeds for better alignment around tandem repeats. This is also a cause of the leading "D" operator in CIGAR.
-
Bugfix: SSE2-SSW may occasionally find incorrect query starting position around tandem repeat. This will lead to a suboptimal CIGAR in BWA-MEM and a wrong CIGAR in BWA.
-
Bugfix: clipping penalty does not work as is intended when there is a gap towards the end of a read.
-
Fixed an issue caused by a bug in the libc from Mac/Darwin. In Darwin, fread() is unable to read a data block longer than 2GB due to an integer overflow bug in its implementation.
Since version 0.7.4, BWA-MEM is considered to reach similar stability to BWA-backtrack for short-read mapping.
(0.7.4: 23 April, r385)
In 0.7.3, the wrong CIGAR bug was only fixed in one scenario, but not fixed in another corner case.
(0.7.3a: 15 March 2013, r367)
Changes to BWA-MEM:
-
Bugfix: pairing score is inaccurate when option -A does not take the default value. This is a very minor issue even if it happens.
-
Bugfix: occasionally wrong CIGAR. This happens when in the alignment there is a 1bp deletion and a 1bp insertion which are close to the end of the reads, and there are no other substitutions or indels. BWA-MEM would not do a gapped alignment due to the bug.
-
New feature: output other non-overlapping alignments in the XP tag such that we can see the entire picture of alignment from one SAM line. XP gives the position, CIGAR, NM and mapQ of each aligned subsequence of the query.
BWA-MEM has been used to align -300Gbp 100-700bp SE/PE reads. SNP/indel calling has also been evaluated on part of these data. BWA-MEM generally gives better pre-filtered SNP calls than BWA. No significant issues have been observed since 0.7.2, though minor improvements or bugs (e.g. the bug fixed in this release) are still possible. If you find potential issues, please send bug reports to [email protected] (free registration required).
In addition, more detailed description of the BWA-MEM algorithm can be found at https://github.com/lh3/mem-paper.
(0.7.3: 15 March 2013, r366)
Emergent bug fix: 0.7.0 and 0.7.1 give a wrong sign to TLEN. In addition, flagging 'properly paired' also gets improved a little.
(0.7.2: 9 March 2013, r351)
Changes to BWA-MEM:
-
Bugfix: rare segmentation fault caused by a partial hit to the end of the last sequence.
-
Bugfix: occasional mis-pairing given an interleaved fastq.
-
Bugfix: wrong mate information when the mate is unmapped. SAM generated by BWA-MEM can now be validated with Picard.
-
Improved the performance and accuracy for ultra-long query sequences. Short-read alignment is not affected.
Changes to other components:
-
In BWA-backtrack and BWA-SW, replaced the code for global alignment, Smith-Waterman and SW extension. The performance and accuracy of the two algorithms stay the same.
-
Added an experimental subcommand to merge overlapping paired ends. The algorithm is very conservative: it may miss true overlaps but rarely makes mistakes.
An important note is that like BWA-SW, BWA-MEM may output multiple primary alignments for a read, which may cause problems to some tools. For aligning sequence reads, it is advised to use '-M' to flag extra hits as secondary. This option is not the default because multiple primary alignments are theoretically possible in sequence alignment.
(0.7.1: 8 March 2013, r347)
This release comes with a new alignment algorithm, BWA-MEM, for 70bp-1Mbp query sequences. BWA-MEM essentially seeds alignments with a variant of the fastmap algorithm and extends seeds with banded affine-gap-penalty dynamic programming (i.e. the Smith-Waterman-Gotoh algorithm). For typical Illumina 100bp reads or longer low-divergence query sequences, BWA-MEM is about twice as fast as BWA and BWA-SW and is more accurate. It also supports split alignments like BWA-SW and may optionally output multiple hits like BWA. BWA-MEM does not guarantee to find hits within a certain edit distance, but BWA is not efficient for such task given longer reads anyway, and the edit-distance criterion is arguably not as important in long-read alignment.
In addition to the algorithmic improvements, BWA-MEM also implements a few handy features in practical aspects:
-
BWA-MEM automatically switches between local and glocal (global wrt reads; local wrt reference) alignment. It reports the end-to-end glocal alignment if the glocal alignment is not much worse than the optimal local alignment. Glocal alignment reduces reference bias.
-
BWA-MEM automatically infers pair orientation from a batch of single-end alignments. It allows more than one orientations if there are sufficient supporting reads. This feature has not been tested on reads from Illumina jumping library yet. (EXPERIMENTAL)
-
BWA-MEM optionally takes one interleaved fastq for paired-end mapping. It is possible to convert a name-sorted BAM to an interleaved fastq on the fly and feed the data stream to BWA-MEM for mapping.
-
BWA-MEM optionally copies FASTA/Q comments to the final SAM output, which helps to transfer individual read annotations to the output.
-
BWA-MEM supports more advanced piping. Users can now run: (bwa mem ref.fa '<bzcat r1.fq.bz2' '<bzcat r2.fq.bz2') to map bzip'd read files without replying on bash features.
-
BWA-MEM provides a few basic APIs for single-end mapping. The 'example.c' program in the source code directory implements a full single-end mapper in 50 lines of code.
The BWA-MEM algorithm is in the beta phase. It is not advised to use BWA-MEM for production use yet. However, when the implementation becomes stable after a few release cycles, existing BWA users are recommended to migrate to BWA-MEM for 76bp or longer Illumina reads and long query sequences. The original BWA short-read algorithm will not deliver satisfactory results for 150bp+ Illumina reads. Change of mappers will be necessary sooner or later.
(0.7.0 beta: 28 Feburary 2013, r313)
This is largely a bug-fix release. Notable changes in BWA-short and BWA-SW:
-
Bugfix: BWA-SW may give bad alignments due to incorrect band width.
-
Bugfix: A segmentation fault due to an out-of-boundary error. The fix is a temporary solution. The real cause has not been identified.
-
Attempt to read index from prefix.64.bwt, such that the 32-bit and 64-bit index can coexist.
-
Added options '-I' and '-S' to control BWA-SW pairing.
(0.6.2: 19 June 2012, r126)
Notable changes to BWA-short:
-
Bugfix: duplicated alternative hits in the XA tag.
-
Bugfix: when trimming enabled, bwa-aln trims 1bp less.
-
Disabled the color-space alignment. 0.6.x is not working with SOLiD reads at present.
Notable changes to BWA-SW:
-
Bugfix: segfault due to excessive ambiguous bases.
-
Bugfix: incorrect mate position in the SE mode.
-
Bugfix: rare segfault in the PE mode
-
When macro _NO_SSE2 is in use, fall back to the standard Smith-Waterman instead of SSE2-SW.
-
Optionally mark split hits with lower alignment scores as secondary.
Changes to fastmap:
-
Bugfix: infinite loop caused by ambiguous bases.
-
Optionally output the query sequence.
(0.6.1: 28 November 2011, r104)
The 0.6.0 release comes with two major changes. Firstly, the index data structure has been changed to support genomes longer than 4GB. The forward and reverse backward genome is now integrated in one index. This change speeds up BWA-short by about 20% and BWA-SW by 90% with the mapping acccuracy largely unchanged. A tradeoff is BWA requires more memory, but this is the price almost all mappers that index the genome have to pay.
Secondly, BWA-SW in 0.6.0 now works with paired-end data. It is more accurate for highly unique reads and more robust to long indels and structural variations. However, BWA-short still has edges for reads with many suboptimal hits. It is yet to know which algorithm is the best for variant calling.
0.5.10 is a bugfix release only and is likely to be the last release in the 0.5 branch unless I find critical bugs in future.
Other notable changes:
-
Added the 'fastmap' command that finds super-maximal exact matches. It does not give the final alignment, but runs much faster. It can be a building block for other alignment algorithms. [0.6.0 only]
-
Output the timing information before BWA exits. This also tells users that the task has been finished instead of being killed or aborted. [0.6.0 only]
-
Sped up multi-threading when using many (>20) CPU cores.
-
Check I/O error.
-
Increased the maximum barcode length to 63bp.
-
Automatically choose the indexing algorithm.
-
Bugfix: very rare segfault due to an uninitialized variable. The bug also affects the placement of suboptimal alignments. The effect is very minor.
This release involves quite a lot of tricky changes. Although it has been tested on a few data sets, subtle bugs may be still hidden. It is NOT recommended to use this release in a production pipeline. In future, however, BWA-SW may be better when reads continue to go longer. I would encourage users to try the 0.6 release. I would also like to hear the users' experience. Thank you.
(0.6.0: 12 November 2011, r85)
Notable changes:
-
Feature: barcode support via the '-B' option.
-
Feature: Illumina 1.3+ read format support via the '-I' option.
-
Bugfix: RG tags are not attached to unmapped reads.
-
Bugfix: very rare bwasw mismappings
-
Recommend options for PacBio reads in bwasw help message.
Also, since January 13, the BWA master repository has been moved to github:
The revision number has been reset. All recent changes will be first committed to this repository.
(0.5.9: 24 January 2011, r16)
Notable changes in bwasw:
-
Output unmapped reads.
-
For a repetitive read, choose a random hit instead of a fixed one. This is not well tested.
Notable changes in bwa-short:
-
Fixed a bug in the SW scoring system, which may lead to unexpected gaps towards the end of a read.
-
Fixed a bug which invalidates the randomness of repetitive reads.
-
Fixed a rare memory leak.
-
Allowed to specify the read group at the command line.
-
Take name-grouped BAM files as input.
Changes to this release are usually safe in that they do not interfere with the key functionality. However, the release has only been tested on small samples instead of on large-scale real data. If anything weird happens, please report the bugs to the bio-bwa-help mailing list.
(0.5.9rc1: 10 December 2010, r1561)
Notable changes in bwasw:
- Fixed an issue of missing alignments. This should happen rarely and only when the contig/read alignment is multi-part. Very rarely, bwasw may still miss a segment in a multi-part alignment. This is difficult to fix, although possible.
Notable changes in bwa-short:
-
Discard the SW alignment when the best single-end alignment is much better. Such a SW alignment may caused by structural variations and forcing it to be aligned leads to false alignment. This fix has not been tested thoroughly. It would be great to receive more users feedbacks on this issue.
-
Fixed a typo/bug in sampe which leads to unnecessarily large memory usage in some cases.
-
Further reduced the chance of reporting 'weird pairing'.
(0.5.8: 8 June 2010, r1442)
This release only has an effect on paired-end data with fat insert-size distribution. Users are still recommended to update as the new release improves the robustness to poor data.
-
The fix for 'weird pairing' was not working in version 0.5.6, pointed out by Carol Scott. It should work now.
-
Optionally output to a normal file rather than to stdout (by Tim Fennel).
(0.5.7: 1 March 2010, r1310)
Notable changes in bwa-short:
-
Report multiple hits in the SAM format at a new tag XA encoded as: (chr,pos,CIGAR,NM;)*. By default, if a paired or single-end read has 4 or fewer hits, they will all be reported; if a read in a anomalous pair has 11 or fewer hits, all of them will be reported.
-
Perform Smith-Waterman alignment also for anomalous read pairs when both ends have quality higher than 17. This reduces false positives for some SV discovery algorithms.
-
Do not report "weird pairing" when the insert size distribution is too fat or has a mean close to zero.
-
If a read is bridging two adjacent chromsomes, flag it as unmapped.
-
Fixed a small but long existing memory leak in paired-end mapping.
-
Multiple bug fixes in SOLiD mapping: a) quality "-1" can be correctly parsed by solid2fastq.pl; b) truncated quality string is resolved; c) SOLiD read mapped to the reverse strand is complemented.
-
Bwa now calculates skewness and kurtosis of the insert size distribution.
-
Deploy a Bayesian method to estimate the maximum distance for a read pair considered to be paired properly. The method is proposed by Gerton Lunter, but bwa only implements a simplified version.
-
Export more functions for Java bindings, by Matt Hanna (See: http://www.broadinstitute.org/gsa/wiki/index.php/Sting_BWA/C_bindings)
-
Abstract bwa CIGAR for further extension, by Rodrigo Goya.
(0.5.6: 10 Feburary 2010, r1303)
This is a bug fix release:
-
Fixed a serious bug/typo in aln which does not occur given short reads, but will lead to segfault for >500bp reads. Of course, the aln command is not recommended for reads longer than 200bp, but this is a bug anyway.
-
Fixed a minor bug/typo which leads to incorrect single-end mapping quality when one end is moved to meet the mate-pair requirement.
-
Fixed a bug in samse for mapping in the color space. This bug is caused by quality filtration added since 0.5.1.
(0.5.5: 10 November 2009, r1273)
Since this version, the default seed length used in the "aln" command is changed to 32.
Notable changes in bwa-short:
-
Added a new tag "XC:i" which gives the length of clipped reads.
-
In sampe, skip alignments in case of a bug in the Smith-Waterman alignment module.
-
In sampe, fixed a bug in pairing when the read sequence is identical to its reverse complement.
-
In sampe, optionally preload the entire FM-index into memory to reduce disk operations.
Notable changes in dBWT-SW/BWA-SW:
-
Changed name dBWT-SW to BWA-SW.
-
Optionally use "hard clipping" in the SAM output.
(0.5.4: 9 October 2009, r1245)
Fixed a critical bug in bwa-short: reads mapped to the reverse strand are not complemented.
(0.5.3: 15 September 2009, r1225)
Notable changes in bwa-short:
-
Optionally trim reads before alignment. See the manual page on 'aln -q' for detailed description.
-
Fixed a bug in calculating the NM tag for a gapped alignment.
-
Fixed a bug given a mixture of reads with some longer than the seed length and some shorter.
-
Print SAM header.
Notable changes in dBWT-SW:
- Changed the default value of -T to 30. As a result, the accuracy is a little higher for short reads at the cost of speed.
(0.5.2: 13 September 2009, r1223)
Notable changes in the short read alignment component:
- Fixed a bug in samse: do not write mate coordinates.
Notable changes in dBWT-SW:
-
Randomly choose one alignment if the read is a repetitive.
-
Fixed a flaw when a read is mapped across two adjacent reference sequences. However, wrong alignment reports may still occur rarely in this case.
-
Changed the default band width to 50. The speed is slower due to this change.
-
Improved the mapping quality a little given long query sequences.
(0.5.1: 2 September 2009, r1209)
This release implements a novel algorithm, dBWT-SW, specifically designed for long reads. It is 10-50 times faster than SSAHA2, depending on the characteristics of the input data, and achieves comparable alignment accuracy while allowing chimera detection. In comparison to BLAT, dBWT-SW is several times faster and much more accurate especially when the error rate is high. Please read the manual page for more information.
The dBWT-SW algorithm is kind of developed for future sequencing technologies which produce much longer reads with a little higher error rate. It is still at its early development stage. Some features are missing and it may be buggy although I have evaluated on several simulated and real data sets. But following the "release early" paradigm, I would like the users to try it first.
Other notable changes in BWA are:
-
Fixed a rare bug in the Smith-Waterman alignment module.
-
Fixed a rare bug about the wrong alignment coordinate when a read is poorly aligned.
-
Fixed a bug in generating the "mate-unmap" SAM tag when both ends in a pair are unmapped.
(0.5.0: 20 August 2009, r1200)
Interestingly, the integer overflow bug claimed to be fixed in 0.4.7 has not in fact. Now I have fixed the bug. Sorry for this and thank Quan Long for pointing out the bug (again).
(0.4.9: 19 May 2009, r1075)
One change to "aln -R". Now by default, if there are no more than '-R' equally best hits, bwa will search for suboptimal hits. This change affects the ability in finding SNPs in segmental duplications.
I have not tested this option thoroughly, but this simple change is less likely to cause new bugs. Hope I am right.
(0.4.8: 18 May 2009, r1073)
Notable changes:
-
Output SM (single-end mapping quality) and AM (smaller mapping quality among the two ends) tag from sam output.
-
Improved the functionality of stdsw.
-
Made the XN tag more accurate.
-
Fixed a very rare segfault caused by integer overflow.
-
Improve the insert size estimation.
-
Fixed compiling errors for some Linux systems.
(0.4.7: 12 May 2009, r1066)
This release improves the SOLiD support. First, a script for converting SOLiD raw data is provided. This script is adapted from solid2fastq.pl in the MAQ package. Second, a nucleotide reference file can be directly used with 'bwa index'. Third, SOLiD paired-end support is completed. Fourth, color-space reads will be converted to nucleotides when SAM output is generated. Color errors are corrected in this process. Please note that like MAQ, BWA cannot make use of the primer base and the first color.
In addition, the calculation of mapping quality is also improved a little bit, although end-users may barely observe the difference.
(0.4.6: 9 March 2009, r915)
Not much happened, but I think it would be good to let the users use the latest version.
Notable changes (Thank Bob Handsaker for catching the two bugs):
-
Improved bounary check. Previous version may still give incorrect alignment coordinates in rare cases.
-
Fixed a bug in SW alignment when no residue matches. This only affects the 'sampe' command.
-
Robustly estimate insert size without setting the maximum on the command line. Since this release 'sampe -a' only has an effect if there are not enough good pairs to infer the insert size distribution.
-
Reduced false PE alignments a little bit by using the inferred insert size distribution. This fix may be more important for long insert size libraries.
(0.4.5: 18 Feburary 2009, r829)
This is mainly a bug fix release. Notable changes are:
-
Imposed boundary check for extracting subsequence from the genome. Previously this causes memory problem in rare cases.
-
Fixed a bug in failing to find whether an alignment overlapping with N on the genome.
-
Changed MD tag to meet the latest SAM specification.
(0.4.4: 15 Feburary 2009, r815)
Notable changes:
-
Treat an ambiguous base N as a mismatch. Previous versions will not map reads containing any N.
-
Automatically choose the maximum allowed number of differences. This is important when reads of different lengths are mixed together.
-
Print mate coordinate if only one end is unmapped.
-
Generate MD tag. This tag encodes the mismatching positions and the reference bases at these positions. Deletions from the reference will also be printed.
-
Optionally dump multiple hits from samse, in another concise format rather than SAM.
-
Optionally disable iterative search. This is VERY SLOOOOW, though.
-
Fixed a bug in generate SAM.
(0.4.3: 22 January 2009, r787)
Aaron Quinlan found a bug in the indexer: the bwa indexer segfaults if there are no comment texts in the FASTA header. This is a critical bug. Nothing else was changed.
(0.4.2: 9 January 2009, r769)
I am sorry for the quick updates these days. I like to set a milestone for BWA and this release seems to be. For paired end reads, BWA also does Smith-Waterman alignment for an unmapped read whose mate can be mapped confidently. With this strategy BWA achieves similar accuracy to maq. Benchmark is also updated accordingly.
(0.4.1: 7 January 2009, r760)
In comparison to the release two days ago, this release is mainly tuned for performance with some tricks I learnt from Bowtie. However, as the indexing format has also been changed, I have to increase the version number to 0.4.0 to emphasize that DATABASE MUST BE RE-INDEXED with 'bwa index'.
-
Improved the speed by about 20%.
-
Added multi-threading to 'bwa aln'.
(0.4.0: 6 January 2009, r756)
-
Added paired-end support by separating SA calculation and alignment output.
-
Added SAM output.
-
Added evaluation to the documentation.
(0.3.0: 4 January 2009, r741)
-
Take the subsequence at the 5'-end as seed. Seeding strategy greatly improves the speed for long reads, at the cost of missing a few true hits that contain many differences in the seed. Seeding also increase the memory by 800MB.
-
Fixed a bug which may miss some gapped alignments. Fixing the bug also slows the speed a little.
(0.2.0: 15 August 2008, r428)
-
Give accurate CIGAR string.
-
Add a simple interface to SW/NW alignment
(0.1.6: 08 August 2008, r414)
- Improve the speed. This version is expected to give the same results.
(0.1.5: 27 July 2008, r400)
-
Fixed a bug which may cause missing gapped alignments.
-
More clearly define what alignments can be found by BWA (See manual). Now BWA runs a little slower because it will visit more potential gapped alignments.
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A bit code clean up.
(0.1.4: 22 July 2008, r387)
Improve the speed with some tricks on retrieving occurences. The results should be exactly the same as that of 0.1.2.
(0.1.3: 21 July 2008, r382)
Support gapped alignment. Codes for ungapped alignment has been removed.
(0.1.2: 17 July 2008, r371)
This is the first release of BWA, Burrows-Wheeler Alignment tool. Please read man page for more information about this software.
(0.1.1: 03 June 2008, r349)