scalable visual comparison of biological trees and sequences
DESCRIPTION
Scalable Visual Comparison of Biological Trees and Sequences. Tamara Munzner University of British Columbia Department of Computer Science. Imager. Outline. Accordion Drawing information visualization technique TreeJuxtaposer tree comparison SequenceJuxtaposer sequence comparison - PowerPoint PPT PresentationTRANSCRIPT
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Scalable Visual Comparison of Biological Trees and Sequences
Tamara Munzner
University of British Columbia
Department of Computer Science
Imager
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Outline
• Accordion Drawing– information visualization technique
• TreeJuxtaposer– tree comparison
• SequenceJuxtaposer– sequence comparison
• PRISAD– generic accordion drawing framework
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Accordion Drawing• rubber-sheet navigation
– stretch out part of surface, the rest squishes
– borders nailed down– Focus+Context technique
• integrated overview, details
– old idea• [Sarkar et al 93],
[Robertson et al 91]
• guaranteed visibility– marks always visible– important for scalability – new idea
• [Munzner et al 03]
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Guaranteed Visibility
• marks are always visible• easy with small datasets
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Guaranteed Visibility Challenges
• hard with larger datasets
• reasons a mark could be invisible
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Guaranteed Visibility Challenges
• hard with larger datasets
• reasons a mark could be invisible– outside the window
• AD solution: constrained navigation
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Guaranteed Visibility Challenges
• hard with larger datasets
• reasons a mark could be invisible– outside the window
• AD solution: constrained navigation
– underneath other marks• AD solution: avoid 3D
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Guaranteed Visibility Challenges
• hard with larger datasets
• reasons a mark could be invisible– outside the window
• AD solution: constrained navigation
– underneath other marks• AD solution: avoid 3D
– smaller than a pixel• AD solution: smart culling
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Guaranteed Visibility: Small Items
• Naïve culling may not draw all marked items
GV no GV
Guaranteed visibilityof marks
No guaranteed visibility
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Guaranteed Visibility: Small Items
• Naïve culling may not draw all marked items
GV no GV
Guaranteed visibilityof marks
No guaranteed visibility
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Outline
• Accordion Drawing– information visualization technique
• TreeJuxtaposer
– tree comparison
• SequenceJuxtaposer– sequence comparison
• PRISAD– generic accordion drawing framework
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Phylogenetic/Evolutionary Tree
M Meegaskumbura et al., Science 298:379 (2002)
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Common Dataset Size Today
M Meegaskumbura et al., Science 298:379 (2002)
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Future Goal: 10M node Tree of Life
David Hillis, Science 300:1687 (2003)
Plants
Protists
Fungi
Animals
You arehere
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Paper Comparison: Multiple Trees
focus
context
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TreeJuxtaposer• side by side comparison of evolutionary trees • [video]
– video/software downloadable from http://olduvai.sf.net/tj
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TJ Contributions• first interactive tree comparison system
– automatic structural difference computation– guaranteed visibility of marked areas
• scalable to large datasets– 250,000 to 500,000 total nodes– all preprocessing subquadratic– all realtime rendering sublinear
• scalable to large displays (4000 x 2000)
• introduced – guaranteed visibility, accordion drawing
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Structural Comparison
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
bird
lungfish
salamander
frog
mammal
turtle
snake
lizard
crocodile
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Matching Leaf Nodes
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
bird
lungfish
salamander
frog
mammal
turtle
snake
lizard
crocodile
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Matching Leaf Nodes
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
bird
lungfish
salamander
frog
mammal
turtle
snake
lizard
crocodile
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Matching Leaf Nodes
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
bird
lungfish
salamander
frog
mammal
turtle
snake
lizard
crocodile
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Matching Interior Nodes
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
bird
lungfish
salamander
frog
mammal
turtle
snake
lizard
crocodile
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Matching Interior Nodes
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
bird
lungfish
salamander
frog
mammal
turtle
snake
lizard
crocodile
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Matching Interior Nodes
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
mammal
lungfish
salamander
frog
bird
turtle
snake
lizard
crocodile
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Matching Interior Nodes
rayfinned fish
lungfish
salamander
frog
mammal
turtle
bird
crocodile
lizard
snake
rayfinned fish
bird
lungfish
salamander
frog
mammal
turtle
snake
lizard
crocodile
?
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Previous Work
• tree comparison– RF distance [Robinson and Foulds 81]– perfect node matching [Day 85]– creation/deletion [Chi and Card 99]– leaves only [Graham and Kennedy 01]
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Similarity Score: S(m,n)
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{ }FE,D,n =)(L{ }FE,m =)(L
T1 T2A
B
C
D
E
F
A
C
B
D
F
Em n
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Best Corresponding Node
• – computable in O(n log2 n)– linked highlighting
T1 T2A
B
C
D
E
F
A
C
B
D
F
Em BCN(m) = n
1/32/3
2/6
00
0
0
0
0
1/2
1/2
)),(( vSv margmax)mBCN(2T∈=
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• – Matches intuition
1≠))BCN(,( whichfor Nodes vvS
Marking Structural DifferencesT1 T2A
B
C
D
E
F
A
C
B
D
F
Em n
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Outline
• Accordion Drawing– information visualization technique
• TreeJuxtaposer– tree comparison
• SequenceJuxtaposer– sequence comparison
• PRISAD– generic accordion drawing framework
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Genomic Sequences• multiple aligned sequences of DNA• now commonly browsed with web apps
– zoom and pan with abrupt jumps– previous work
• Ensembl [Hubbard 02], UCSC Genome Browser [Kent 02], NCBI [Wheeler 02]
• investigate benefits of accordion drawing– showing focus areas in context– smooth transitions between states– guaranteed visibility for globally visible
landmarks
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SequenceJuxtaposer
• comparing multiple aligned gene sequences• provides searching, difference calculation• [video]
– video/software downloadable from http://olduvai.sf.net/tj
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Searching
• search for motifs– protein/codon search– regular expressions supported
• results marked with guaranteed visibility
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Differences
• explore differences between aligned pairs– slider controls difference threshold in realtime
• results marked with guaranteed visibility
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SJ Contributions• fluid tree comparison system
– showing multiple focus areas in context– guaranteed visibility of marked areas
• thresholded differences, search results
• scalable to large datasets– 2M nucleotides– all realtime rendering sublinear
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Outline
• Accordion Drawing– information visualization technique
• TreeJuxtaposer– tree comparison
• SequenceJuxtaposer– sequence comparison
• PRISAD– generic accordion drawing framework
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Goals of PRISAD
• generic AD infrastructure– tree and sequence applications
• PRITree is TreeJuxtaposer using PRISAD• PRISeq is SequenceJuxtaposer using PRISAD
• efficiency– faster rendering: minimize overdrawing– smaller memory footprint
• correctness– rendering with no gaps: eliminate overculling
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PRISAD Navigation
• generic navigation infrastructure– application independent– uses deformable grid– split lines
• Grid lines define object boundaries
– horizontal and vertical separate• Independently movable
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Split line hierarchy
• data structure supports navigation, picking, drawing• two interpretations
– linear ordering
– hierarchical subdivision
A B C D E F
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PRISAD Architecture
world-space discretization• preprocessing
• initializing data structures• placing geometry
screen-space rendering• frame updating
• analyzing navigation state• drawing geometry
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World-space Discretization
interplay between infrastructure and application
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• application-specific layout of dataset– non-overlapping objects
• initialize PRISAD split line hierarchies– objects aligned by split lines
Laying Out & Initializing
A A C C
A T T T68
12
34 5
97
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4
2
• application-specific layout of dataset– non-overlapping objects
• initialize PRISAD split line hierarchies– objects aligned by split lines
Laying Out & Initializing
A A C C
A T T T68
12
34 5
97
4
5
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Gridding
• each geometric object assigned its four encompassing split line boundaries
A A C C
A T T T
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Mapping
• PRITree mapping initializes leaf references– bidirectional O(1) reference between leaves and
split lines
13
468
25
973
4
12
5
84
95
63
52
21 Map
68
25
9
Split line Leaf index
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Screen-space Rendering
control flow to draw each frame
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Partitioning
• partition object set into bite-sized ranges– using current split line screen-space positions
• required for every frame
– subdivision stops if region smaller than 1 pixel• or if range contains only 1 object
1234
5
[1,2]
[3,4]
[5]
{ [1,2], [3,4], [5] }
Queue of ranges
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Seeding
• reordering range queue result from partition– marked regions get priority in queue
• drawn first to provide landmarks
1234
5
[1,2]
[3,4]
[5]
{ [1,2], [3,4], [5] }
{ [3,4], [5], [1,2] }
ordered queue
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Drawing Single Range
• each enqueued object range drawn according to application geometry– selection for trees– aggregation for sequences
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PRITree Range Drawing
• select suitable leaf in each range
• draw path from leaf to the root– ascent-based tree drawing
– efficiency: minimize overdrawing • only draw one path per range
1234
5
[3,4]{ [3,4], [5], [1,2] }
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Rendering Dense Regions
– correctness: eliminate overculling• bad leaf choices would result in misleading gaps
– efficiency: maximize partition size to reduce rendering• too much reduction would result in gaps
Intended rendering Partition size too big
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Rendering Dense Regions
– correctness: eliminate overculling• bad leaf choices would result in misleading gaps
– efficiency: maximize partition size to reduce rendering• too much reduction would result in gaps
Intended rendering Partition size too big
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PRITree Skeleton
• guaranteed visibility of marked subtrees during progressive rendering
first frame: one path per marked group
full scene: entire marked subtrees
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PRISeq Range Drawing: Aggregation
• aggregate range to select box color for each sequence– random select to break ties
A A C C
A T T T
[1,4]
A
T
[1,4]
T T T C T
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PRISeq Range Drawing
• collect identical nucleotides in column– form single box to represent identical objects
• attach to split line hierarchy cache• lazy evaluation
• draw vertical column
A
T
T
T
A
{ A:[1,1], T:[2,3] }
1
2
3
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PRISAD Performance
• PRITree vs. TreeJuxtaposer (TJ)
• synthetic and real datasets
– complete binary trees• lowest branching factor• regular structure
– star trees• highest possible branching factor
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InfoVis Contest Benchmarks• two 190K node trees• directly compare TJ and PT
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OpenDirectory benchmarks• two 480K node trees• too large for TJ, PT results only
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PRITree Rendering Time Performance
TreeJuxtaposer renders all nodes for star trees• branching factor k leads to O(k) performance
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PRITree Rendering Time Performance
TreeJuxtaposer renders all nodes for star trees• branching factor k leads to O(k) performance
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PRITree Rendering Time Performance
InfoVis 2003 Contest dataset• 5x rendering speedup
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PRITree Rendering Time Performance
a closer look at the fastest rendering times
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PRITree Rendering Time Performance
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PRITree handles 4 million nodes in under 0.4 seconds• TreeJuxtaposer takes twice as long to render 1 million nodes
Detailed Rendering Time Performance
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Detailed Rendering Time PerformanceTreeJuxtaposer valley from overculling
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Memory Performancelinear memory usage for both applications
• 4-5x more efficient for synthetic datasets
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Memory Performance1GB difference for InfoVis contest comparison
• marked range storage changes improve scalability
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Performance Comparison
• PRITree vs. TreeJuxtaposer– detailed benchmarks against identical TJ
functionality• 5x faster, 8x smaller footprint• handles over 4M node trees
• PRISeq vs. SequenceJuxtaposer– 15x faster rendering, 20x smaller memory size– 44 species * 17K nucleotides = 770K items– 6400 species * 6400 nucleotides = 40M items
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Future Work
• future work– editing and annotating datasets– PRISAD support for application specific actions
• logging, replay, undo, other user actions
– develop process or template for building applications
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PRISAD Contributions
• infrastructure for efficient, correct, and generic accordion drawing
• efficient and correct rendering – screen-space partitioning tightly bounds overdrawing and
eliminates overculling
• first generic AD infrastructure– PRITree renders 5x faster than TJ– PRISeq renders 20x larger datasets than SJ
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Joint Work• TreeJuxtaposer
– François Guimbretière, Serdar Taşiran, Li Zhang, Yunhong Zhou• SIGGRAPH 2003
• SequenceJuxtaposer– James Slack, Kristian Hildebrand, Katherine St.John
• German Conference on Bioinformatics 2004
• TJC/TJC-Q– Dale Beermann, Greg Humphreys
• EuroVis 2005
• PRISAD– James Slack, Kristian Hildebrand
• IEEE InfoVis Symposium 2005• Information Visualization journal, to appear
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Open Source
• software freely available from http://olduvai.sourceforge.net– SequenceJuxtaposer
olduvai.sf.net/sj– TreeJuxtaposer
olduvai.sf.net/tj– requires Java and OpenGL
• JOGL bindings for TJ, GL4Java for SJ (JOGL coming soon)
• papers, talks, videos also from http://www.cs.ubc.ca/~tmm
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Other Projects
• Focus+Context evaluation– high-level user studies of systems– low-level visual search and memory
• graph drawing
• dimensionality reduction