Login
Logged in as anonymous /
My BiBiServ
/
Logout
Search
?
Navigation
Tools
Alignment
AltAVist
ClustalW
dca
Dialign
E2G
JAli
OMA
PoSSuMsearch
PoSSuMsearch2
SWIFT Suit
Evolutionary Relationships
ConCysFind
Roci
ROCOCO
Rose
SplitsTree
Genome Comparison
AGenDA
AggloIndel
CEGeD
CG-CAT
DCJ
FFGC
Gecko
GEvolutionS
GraphTeams
MGA
newdist
REPuter
SBBI
TCRProfiler
Others
acdc
AGT-SDP
AIM
BPR
Decomp
Fly_Pres
Intronserter
jPREdictor
libfid
Metrans
mkESA
mmfind
MoRAine
Phase4
PREdictor
SciBrow
TALP
Trace2PS
Unwords
Wotd
XenDB
Primer Design
genefisher2
RNA
Shapes Studio
KnotInFrame
pAliKiss
pKiss
pknotsRG
RapidShapes
RNAalishapes
RNAshapes
aCMs
GUUGle
InSilicoDicer
Locomotif
paRNAss
planACstar
RNAforester
RNAhybrid
RNAsifter
Previous Results
Framework/Cloud
Education
Dynamic Programming
ADP
Sequence Analysis
SADR
Administration
BiBiServ policies
BiBiServ Team
Impressum
license
privacy policy
Statuscodes
Wotd
Welcome
Download
References
Authors: S. Kurtz, R. Giegerich, J. Stoye
Wotd is an implementation of the ''lazy'' write-only top-down construction algorithm of suffix trees using a very space-efficient representation.
Users of Wotd are requested to cite :
Giegerich, Robert and Kurtz, Stefan and Stoye, Jens
Efficient implementation of lazy suffix trees
, Software - Practise and Experience, 2003
built on March 4 2015 (1:d0ba4790fd33)
PoSSuMsearch2
RNAhybrid
SciBrow
References
Statuscodes
mmfind
DCJ
Impressum
ROCOCO
aCMs
pKiss
RNAforester
mkESA
acdc
license
AGenDA
RapidShapes
libfid
WebService Linklist
genefisher2
pAliKiss
Gecko
Rose
Welcome
Trace2PS
AggloIndel
ADP
KnotInFrame
PREdictor
SBBI
Wotd
Download
OMA
Wotd
planACstar
TCRProfiler
References
Welcome
GraphTeams
AIM
Unwords
Fly_Pres
TALP
Metrans
Locomotif
pknotsRG
BPR
RNAsifter
Download
BiBiServ Team
Previous Results
SplitsTree
privacy policy
XenDB
RNAalishapes
ClustalW
PoSSuMsearch
jPREdictor
Bellman's GAP Cafe
paRNAss
Decomp
SWIFT Suit
BiBiServ policies
dca
Dialign
JAli
RNAshapes
Welcome
MoRAine
ConCysFind
GUUGle
SADR
CG-CAT
E2G
MGA
REPuter
GEvolutionS
Wotd
CEGeD
newdist
Phase4
FFGC
Roci
Intronserter
AltAVist
InSilicoDicer
AGT-SDP