Neighborhood Graph and Tree for Indexing High-dimensional Data
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ngt - proximity search for high dimensional data
$ ngt command [options] index [additional arguments]
Note:
When the environment variable POSIXLY_CORRECT is set on some platforms such as Cygwin or macOS, you should specifiy options before the command as follows.
$ ngt [options] command index [additional arguments]
ngt provides high-speed nearest neighbor searches against a large volume of data (several million to several 10 million items of data) in high dimensional vector data space (several ten to several thousand dimensions).
command is one of:
Make and initialize the specified directory as an index, and insert the specified data to the index.
$ ngt create -d no_of_dimensions [-p no_of_threads] [-b no_of_batch_processes]
[-i index_type] [-g graph_type] [-t edge_reduction_threshold]
[-e search_range_coefficient] [-E no_of_edges] [-S no_of_edges_at_search_time]
[-o object_type] [-D distance_function] [-n no_of_registration_data]
index [registration_data]
index
Specify the name of the directory for the index to be generated. The generated directory consists of multiple files for the index.
registration_data
Specify the vector data to be registered. These data shall consist of one object (data item) per line and each dimensional element shall be delimited by a space or tab. If omitted, the specified directory is just generated and initialized as the index.
-d no_of_dimensions
Specify the number of dimensions of registration data. Specification is unnecessary if each row of the registration data file consists only of dimensional elements. However, if attribute information or other types of data follow the dimensional elements, such subsequent data will be ignored based on the number of dimensions specified here.
-p no_of_threads (default = 24, recomended value = number of cores)
Specify the number of threads to be used for parallel processing at generation time.
-b no_of_batch_processes (default = recomended value = 200)
Specify the number of objects for batch processing, which is normally performed for a fixed number of objects. It is generally not necessary to specify this option.
-i index_type (g|t)
Select between creation of graph only or graph and tree.
- g: Generate only a graph index. At search time, the search start node in the graph is randomly determined.
- t: Generate a tree index in addition to a graph index. At search time, the search start node in the graph is determined using the tree. (default/recommended)
-g graph_type
Specifies the type of graph index.
- a: Generate ANNG. Enables high-speed registration. (default/recommended)
- k: Generate KNNG. Registration is very slow. (for experimental use—not recommended)
- b: Generate BKNNG. Registration is very slow, but search has high level of performance. (for experimental use—not recommended)
-t edge_reduction_threshold (default = recomended value = 0)
Specify the increase in number of edges that acts as a criterion for executing excess-edge reduction processing. Although excess-edge reduction processing can only be used when selecting ANNG, it involves heavy processing and is essential unnecessary unless there is a need to reduce the amount of consumed memory as much as possible. Specifying 0 here prevents the execution of excess-edge reduction processing.
-e search_range_coefficient (default = recomended value = 0.1)
When specifying ANNG or BKNNG, neighboring nodes connected to an item of registration data (node) by edges are obtained by searching and combined by edges. This option specifies the magnification coefficient of the search range at search time.
-E no_of_edges (default = 10)
Specify the number of initial edges of each node at graph generation time. Once an index has been generated, the number of edges of each node will be equal to or greater than this specified number in the case of an ANNG or BKNNG and equal to this specified number in the case of a KNNG.
-S no_of_edges_at_search_time (default = 40)
Specify the number of edges at search time accompanying or following index generation. This value is used when not specifying the number of edges by the search command. It is specified to conduct searches by a number of edges less than the actual number of edges of each node in the graph. Since a large number of edges may be generated in the case of ANNG or BKNNG, limiting the number of edges can help improve search performance. Specifying 0 here indicates that the number of edges is not to be limited (that all actual edges are to be used).
-o object_type
Specify the data object type.
- c: 1 byte unsigned integer
- f: 4 byte floating point number (default)
-D distance_function
Specify the distance function as follows.
- 1: L1 distance
- 2: L2 distance (default)
- a: Angle distance
- A: Normalized angle distance. The specified data are automatically normalized to be appended to the index.
- c: Cosine similarity
- C: Normalized cosine similarity. The specified data are automatically normalized to be appended to the index.
- h: Hamming distance. 1 byte unsigned integer should be specified for the data object type.
- j: Jaccard distance. 1 byte unsigned integer should be specified for the data object type.
-n no_of_registration_data
Specify the number of data items to be registered. If not specified, all data in the specified file will be registered.
Append the specified data to the specified index.
$ ngt append [-p no_of_threads] [-d no_of_dimensions] [-n no_of_registration_data]
index registration_data
index
Specify the name of the existing index.
registration_data
Specify the vector data to be registered. These data shall consist of one object (data item) per line and each dimensional element shall be delimited by a space or tab.
-p no_of_threads (default = recomended value = 24)
Specify the number of threads to be used for parallel processing at generation time.
-d no_of_dimensions
Specify the number of dimensions of registration data. Specification is unnecessary if each row of the registration data file consists only of dimensional elements. However, if attribute information or other types of data follow the dimensional elements, such subsequent data will be ignored based on the number of dimensions specified here.
-n no_of_registration_data
Specify the number of data items to be registered. If not specified, all data in the specified file will be registered.
Search the index using the specified query data.
$ ngt search [-i index_type] [-e search_range_coefficient] [-n no_of_search_results]
[-E max_no_of_edges] [-r search_radius] index query_data
index
Specify the name of the existing index.
query_data
Specify the name of the file containing query data. This file shall consist of one item of query data per line and each dimensional element of that data item shall be delimited by a space or tab the same as registration data. Each search shall be sequentially performed when providing multiple queries.
-i index_type (g|t|s)
Select between using of graph only or graph and tree.
- g: Use only a graph index. May be specified even if a tree exists. The search start point in the graph is randomly determined.
- t: Use a tree index in addition to a graph index. An error occurs if no tree exists. The search start point in the graph is determined using the tree. Enables high-speed searches compared with graph only. (default/recommended)
- s: Perform a linear search using no index.
-e search_range_coefficient (default = recomended value = 0.1)
Specify the magnification coefficient of the search range. A larger value means greater accuracy but slower searching, while a smaller value means a drop in accuracy but faster searching. While it is desirable to adjust this value within the range of 0 - 0.3, a negative value may also be specified.
-n no_of_search_results (default: 20)
Specify the number of search results.
-E max_no_of_edges (default = value specified with the create command or 40)
Specify the maximum number of edges to be used in the search. This option is specified when conducting a search with fewer edges than the number of edges of each node on the graph. Since a large number of edges can be generated in the case of an ANNG or BKNNG, limiting the number of edges in this way tends to improve search performance. Specifying zero here indicates no limitation of the number of edges (use all actual edges).
-r search_radius (default = infinite circle)
Specifys the search range in terms of the radius of a circle.
Remove the specified object from the index.
$ ngt remove [-d object_id_specification_method] index object_id
index
Specify the name of the existing index.
object_id
Specify the ID of the object to be removed.
-d object_id_specification_method (f|d) (default = f)
Specify the method for specifying the ID of the object to be removed. Specifying f indicates that the following object-ID specification is to be treated as a file name. That file shall consist of one entry per line, each indicting the ID of an object to be removed. Specifying d indicates that the following object-ID specification is to be treated simply as an object-ID referring to the object to be removed.
Prune long edges in the graph of the index. Although this command shortens the query time, to further shorten the query time, the path adjustment of the following command reconstruct graph is recommended.
$ ngt prune -e no_of_forcedly_pruned_edges -s no_of_selectively_pruned_edge index
index
Specify the name of the existing index.
-e no_of_forcedly_pruned_edges
Specify the maximum number of edges for each node. Excess edges over the specified number are removed for each node in descending of edge length.
-s no_of_selectively_pruned_edge
Specify the number (rank) of edges that should not be removed for each node. If the rank of an edge in ascending order of edge length for each node exceeds the specified number and the edge has alternative paths, the edge is removed.
no_of_forcedly_pruned_edges should be greater than no_of_selectively_pruned_edges.
construct the index with the reconstructed graph from the specified index.
$ ngt reconstruct-graph [-m mode] [-I graph_type] -o no_of_original_edges -i no_of_reverse_edge input_index reconstructed_index
input_index
Specify the name of the existing index.
reconstructed_index
Specify the name of the reconstructed index.
-o no_of_original_edges
Specify the number of edges for each node to add to the reconstructed graph from the original graph. The specified number also means the lower bound of the outdegrees of the reconstructed graph.
-i no_of_reverse_edges
Specify the number of edges for each node to add to the reconstructed graph from the original graph. Unlike no_of_original_edges, after the direction of the edges are reveresed, the edges are added to the reconstructed graph. The specified number also means the lower bound of the indegrees of the reconstructed graph.
-m mode
Specify the mode of the path adjustment.
- s: no path adjustment.
- S: path adjustment.
-I graph_type
Specify the type of the specified index as input_index. For not ANNG, the index is converted to ANNG before graph reconstruction.
- a: ANNG
- o: The others
Construct an index for 128-dimensional, 1-byte-integer data:
$ cd (NGT_TOP_DIR)
$ ngt create -d 128 -o c index ./data/sift-dataset-5k.tsv
Data loading time=0.160748 (sec) 160.748 (msec)
# of objects=5000
Index creation time=0.379659 (sec) 379.659 (msec)
Perform a neighborhood search by three queries specified in a file:
$ cd (NGT_TOP_DIR)
$ ngt search -n 20 index ./data/sift-query-3.tsv
Query No.1
Rank ID Distance
1 3031 239.332
2 4079 240.002
3 3164 244.504
4 3718 246.763
5 157 251.094
6 2422 251.185
7 1313 251.34
8 379 252.446
9 3521 260.158
10 2594 261.132
11 4627 262.381
12 2159 263.471
13 3519 264.909
14 1764 265.136
15 4400 266.156
16 2717 266.914
17 3168 269.637
18 4236 270.673
19 4700 272.725
20 679 272.973
Query Time= 0.000472 (sec), 0.472 (msec)
Query No.2
Rank ID Distance
1 2726 291.983
2 924 296.987
3 3638 298.585
4 858 300.376
5 1453 306.805
6 174 307.789
7 2992 308.485
8 2980 308.93
9 1525 309.49
10 244 309.816
11 910 310.446
12 3310 310.585
13 2433 311.482
14 1633 311.735
15 3761 312.44
16 407 313.252
17 4546 313.876
18 697 315.108
19 34 315.563
20 2189 316.193
Query Time= 0.000478 (sec), 0.478 (msec)
Query No.3
Rank ID Distance
1 762 194.286
2 1046 212.695
3 4906 215.244
4 2905 216.539
5 4142 219.479
6 1879 219.616
7 4398 223.352
8 3842 223.468
9 233 224.127
10 2794 224.366
11 2476 224.804
12 1848 225.803
13 3364 226.561
14 4098 226.74
15 3023 228.884
16 4113 229.325
17 1036 232.852
18 1740 233.144
19 2302 233.818
20 2440 233.91
Query Time= 0.00018 (sec), 0.18 (msec)
Average Query Time= 0.000376667 (sec), 0.376667 (msec), (0.00113/3)
$ ngt create -i t -g a -S 0 -e 0.0 -E no_of_edges -d dimensionality_of_data -o data_type -D distatnce_type anng-index vector-data.dat
$ ngt reconstruct-graph -m S -o outdegree -i indegree anng-index onng-index
e.g.
$ ngt create -i t -g a -S 0 -e 0.0 -E 100 -d 128 -o c -D 2 anng-index vector-data.dat
$ ngt reconstruct-graph -m S -o 10 -i 120 anng-index onng-index
$ ngt create -i g|t -g a -S 0 -e 0.1 -E no_of_edges -d dimensionality_of_data -o data_type -D distatnce_type panng-index vector-data.dat
$ ngt prune -e no_of_forcedly_pruned_edges -s no_of_selectively_pruned_edges panng-index
e.g.
$ ngt create -i t -g a -S 0 -e 0.1 -E 10 -d 128 -o c -D 2 panng-index vector-data.dat
$ ngt prune -e 60 -s 30 panng-index
$ ngt create -i t -g a -S 0 -e 0.1 -E no_of_edges(k) -d dimensionality_of_data -o data_type -D distance_type anngt-index vector-data.dat
e.g.
$ ngt create -i t -g a -S 0 -e 0.1 -E 16 -d 128 -o c -D 2 anngt-index vector-data.dat
$ ngt create -i g -g a -S 0 -e 0.1 -E no_of_edges(k) -d dimensionality_of_data -o data_type -D distance_type anng-index vector-data.dat
e.g.
$ ngt create -i g -g a -S 0 -e 0.1 -E 16 -d dimensionality_of_data -o data_type -D distance_type anng-index vector-data.dat
$ ngt create -i g -g k -S 0 -E no_of_edges(k) -d dimensionality_of_data -o data_type -D distance_type knng-index vector-data.dat
e.g.
$ ngt create -i g -g k -S 0 -E 20 -d 128 -o c -D 2 knng-index vector-data.dat