pgBadger :: PostgreSQL Log Analyzer

Global information

Generated on Thu Sep 5 04:10:04 2024
Log file: /project/archive/log/postgres/dbdev51/postgresql.log-20240904
Parsed 15,119 log entries in 3s
Log start from 2024-09-04 00:02:14 to 2024-09-04 23:58:16

Global Stats

17 Number of unique normalized queries
19 Number of queries
42s642ms Total query duration
2024-09-04 05:45:12 First query
2024-09-04 05:48:56 Last query
1 queries/s at 2024-09-04 05:48:42 Query peak

42s642ms Total query duration
0ms Prepare/parse total duration
0ms Bind total duration
42s642ms Execute total duration

0 Number of events
0 Number of unique normalized events
0 Max number of times the same event was reported
0 Number of cancellation

0 Total number of automatic vacuums
0 Total number of automatic analyzes

0 Number temporary file
0 Max size of temporary file
0.00 B Average size of temporary file

1,884 Total number of sessions
40 sessions at 2024-09-04 23:38:10 Session peak
40d30m56s Total duration of sessions
30m35s Average duration of sessions
0 Average queries per session
22ms Average queries duration per session
30m35s Average idle time per session

1,884 Total number of connections
9 connections/s at 2024-09-04 05:45:08 Connection peak
2 Total number of databases

SQL Traffic

Key values

1 queries/s Query Peak
2024-09-04 05:48:42 Date

SELECT Traffic

Key values

1 queries/s Query Peak
2024-09-04 05:48:42 Date

INSERT/UPDATE/DELETE Traffic

Key values

1 queries/s Query Peak
2024-09-04 05:45:14 Date

Queries duration

Key values

42s642ms Total query duration

Prepared queries ratio

Key values

0.00 Ratio of bind vs prepare
0.00 % Ratio between prepared and "usual" statements

General Activity

Day	Hour	Count	Min duration	Max duration	Avg duration	Latency Percentile(90)	Latency Percentile(95)	Latency Percentile(99)
Sep 04	00	0	0ms	0ms	0ms	0ms	0ms	0ms
	01	0	0ms	0ms	0ms	0ms	0ms	0ms
	02	0	0ms	0ms	0ms	0ms	0ms	0ms
	03	0	0ms	0ms	0ms	0ms	0ms	0ms
	04	0	0ms	0ms	0ms	0ms	0ms	0ms
	05	19	0ms	4s209ms	2s244ms	0ms	15s39ms	23s77ms
	06	0	0ms	0ms	0ms	0ms	0ms	0ms
	07	0	0ms	0ms	0ms	0ms	0ms	0ms
	08	0	0ms	0ms	0ms	0ms	0ms	0ms
	09	0	0ms	0ms	0ms	0ms	0ms	0ms
	10	0	0ms	0ms	0ms	0ms	0ms	0ms
	11	0	0ms	0ms	0ms	0ms	0ms	0ms
	12	0	0ms	0ms	0ms	0ms	0ms	0ms
	13	0	0ms	0ms	0ms	0ms	0ms	0ms
	14	0	0ms	0ms	0ms	0ms	0ms	0ms
	15	0	0ms	0ms	0ms	0ms	0ms	0ms
	16	0	0ms	0ms	0ms	0ms	0ms	0ms
	17	0	0ms	0ms	0ms	0ms	0ms	0ms
	18	0	0ms	0ms	0ms	0ms	0ms	0ms
	19	0	0ms	0ms	0ms	0ms	0ms	0ms
	20	0	0ms	0ms	0ms	0ms	0ms	0ms
	21	0	0ms	0ms	0ms	0ms	0ms	0ms
	22	0	0ms	0ms	0ms	0ms	0ms	0ms
	23	0	0ms	0ms	0ms	0ms	0ms	0ms

Day	Hour	SELECT	Average Duration	Latency Percentile(90)	Latency Percentile(95)	Latency Percentile(99)
Sep 04	00	0	0ms	0ms	0ms	0ms
	01	0	0ms	0ms	0ms	0ms
	02	0	0ms	0ms	0ms	0ms
	03	0	0ms	0ms	0ms	0ms
	04	0	0ms	0ms	0ms	0ms
	05	17	2s242ms	0ms	0ms	23s77ms
	06	0	0ms	0ms	0ms	0ms
	07	0	0ms	0ms	0ms	0ms
	08	0	0ms	0ms	0ms	0ms
	09	0	0ms	0ms	0ms	0ms
	10	0	0ms	0ms	0ms	0ms
	11	0	0ms	0ms	0ms	0ms
	12	0	0ms	0ms	0ms	0ms
	13	0	0ms	0ms	0ms	0ms
	14	0	0ms	0ms	0ms	0ms
	15	0	0ms	0ms	0ms	0ms
	16	0	0ms	0ms	0ms	0ms
	17	0	0ms	0ms	0ms	0ms
	18	0	0ms	0ms	0ms	0ms
	19	0	0ms	0ms	0ms	0ms
	20	0	0ms	0ms	0ms	0ms
	21	0	0ms	0ms	0ms	0ms
	22	0	0ms	0ms	0ms	0ms
	23	0	0ms	0ms	0ms	0ms

Day	Hour	Average Duration	Latency Percentile(90)	Latency Percentile(95)	Latency Percentile(99)
Sep 04	00	0ms	0ms	0ms	0ms
	01	0ms	0ms	0ms	0ms
	02	0ms	0ms	0ms	0ms
	03	0ms	0ms	0ms	0ms
	04	0ms	0ms	0ms	0ms
	05	0ms	0ms	0ms	0ms
	06	0ms	0ms	0ms	0ms
	07	0ms	0ms	0ms	0ms
	08	0ms	0ms	0ms	0ms
	09	0ms	0ms	0ms	0ms
	10	0ms	0ms	0ms	0ms
	11	0ms	0ms	0ms	0ms
	12	0ms	0ms	0ms	0ms
	13	0ms	0ms	0ms	0ms
	14	0ms	0ms	0ms	0ms
	15	0ms	0ms	0ms	0ms
	16	0ms	0ms	0ms	0ms
	17	0ms	0ms	0ms	0ms
	18	0ms	0ms	0ms	0ms
	19	0ms	0ms	0ms	0ms
	20	0ms	0ms	0ms	0ms
	21	0ms	0ms	0ms	0ms
	22	0ms	0ms	0ms	0ms
	23	0ms	0ms	0ms	0ms

Day	Hour	Bind	Bind/Prepare	Percentage of prepare
Sep 04	00	0	0.00	0.00%
	01	0	0.00	0.00%
	02	0	0.00	0.00%
	03	0	0.00	0.00%
	04	0	0.00	0.00%
	05	19	19.00	0.00%
	06	0	0.00	0.00%
	07	0	0.00	0.00%
	08	0	0.00	0.00%
	09	0	0.00	0.00%
	10	0	0.00	0.00%
	11	0	0.00	0.00%
	12	0	0.00	0.00%
	13	0	0.00	0.00%
	14	0	0.00	0.00%
	15	0	0.00	0.00%
	16	0	0.00	0.00%
	17	0	0.00	0.00%
	18	0	0.00	0.00%
	19	0	0.00	0.00%
	20	0	0.00	0.00%
	21	0	0.00	0.00%
	22	0	0.00	0.00%
	23	0	0.00	0.00%

Day	Hour	Count	Average / Second
Sep 04	00	80	0.02/s
	01	80	0.02/s
	02	75	0.02/s
	03	79	0.02/s
	04	77	0.02/s
	05	85	0.02/s
	06	80	0.02/s
	07	79	0.02/s
	08	79	0.02/s
	09	80	0.02/s
	10	79	0.02/s
	11	80	0.02/s
	12	78	0.02/s
	13	73	0.02/s
	14	77	0.02/s
	15	74	0.02/s
	16	77	0.02/s
	17	75	0.02/s
	18	80	0.02/s
	19	80	0.02/s
	20	80	0.02/s
	21	78	0.02/s
	22	80	0.02/s
	23	79	0.02/s

Day	Hour	Count	Average Duration	Average idle time
Sep 04	00	80	30m39s	30m39s
	01	80	30m38s	30m38s
	02	75	30m42s	30m42s
	03	79	30m38s	30m38s
	04	77	30m39s	30m39s
	05	85	28m46s	28m45s
	06	80	30m37s	30m37s
	07	79	30m39s	30m39s
	08	79	30m42s	30m42s
	09	80	30m38s	30m38s
	10	79	30m39s	30m39s
	11	80	30m41s	30m41s
	12	78	30m38s	30m38s
	13	73	30m55s	30m55s
	14	77	30m41s	30m41s
	15	74	30m38s	30m38s
	16	77	30m40s	30m40s
	17	75	30m40s	30m40s
	18	80	30m38s	30m38s
	19	80	30m41s	30m41s
	20	80	30m40s	30m40s
	21	78	30m38s	30m38s
	22	80	30m41s	30m41s
	23	79	30m40s	30m40s

↑ Back to the top of the General Activity table

Established Connections

Key values

9 connections Connection Peak
2024-09-04 05:45:08 Date

Connections per database

Key values

ctddev51 Main Database
1,884 connections Total

Chart
Table

Database	User	Count
ctddev51		1,884
	editeu	1,128
	pubeu	756

Connections per user

Key values

editeu Main User
1,884 connections Total

Chart
Table

User	Count
editeu	1,128
pubeu	756

Connections per host

Key values

10.12.5.53 Main host with 380 connections
1,884 Total connections

Chart
Table

Host	Count
10.12.5.47	376
10.12.5.53	380
10.12.5.54	376
10.12.5.55	376
10.12.5.56	376

Simultaneous sessions

Key values

40 sessions Session Peak
2024-09-04 23:38:10 Date

Histogram of session times

Key values

1,873 1800000-3600000ms duration

Chart
Table

Range	Count	Percentage
0ms-500ms	1	0.05%
500ms-1s	0	0.00%
1s-30s	0	0.00%
30s-1m	3	0.16%
1m-10m	1	0.05%
10m-30m	6	0.32%
30m-1h	1,873	99.42%
1h-8h	0	0.00%
> 8h	0	0.00%

Sessions per database

Key values

ctddev51 Main Database
1,884 sessions Total

Chart
Table

Database	Count	Total Duration	Average Duration
ctddev51	1,884	40d30m56s	30m35s

Sessions per user

Key values

editeu Main User
1,884 sessions Total

Chart
Table

User	Count	Total Duration	Average Duration
editeu	1,128	24d33m28s	30m40s
pubeu	756	15d23h57m28s	30m28s

Sessions per host

Key values

10.12.5.53 Main Host
1,884 sessions Total

Chart
Table

Host	Count	Total Duration	Average Duration
10.12.5.47	376	8d11m20s	30m40s
10.12.5.53	380	7d23h47m10s	30m16s
10.12.5.54	376	8d10m17s	30m39s
10.12.5.55	376	8d11m17s	30m40s
10.12.5.56	376	8d10m49s	30m40s

Sessions per application

Key values

unknown Main Application
1,884 sessions Total

Chart
Table

Application	Count	Total Duration	Average Duration
unknown	1,884	40d30m56s	30m35s

Checkpoints Buffers

Key values

64 buffers Checkpoint Peak
2024-09-04 06:10:50 Date
6.516 seconds Highest write time
0.001 seconds Sync time

Checkpoints Wal files

Key values

0 files Wal files usage Peak
2024-09-04 06:10:50 Date

Checkpoints distance

Key values

0.77 Mo Distance Peak
2024-09-04 06:10:50 Date

Checkpoints Activity

Day	Hour	Written buffers	Write time	Sync time	Total time
Sep 04	00	0	0s	0s	0s
	01	0	0s	0s	0s
	02	0	0s	0s	0s
	03	0	0s	0s	0s
	04	0	0s	0s	0s
	05	0	0s	0s	0s
	06	64	6.516s	0.001s	6.533s
	07	0	0s	0s	0s
	08	0	0s	0s	0s
	09	0	0s	0s	0s
	10	0	0s	0s	0s
	11	0	0s	0s	0s
	12	0	0s	0s	0s
	13	0	0s	0s	0s
	14	0	0s	0s	0s
	15	0	0s	0s	0s
	16	0	0s	0s	0s
	17	0	0s	0s	0s
	18	0	0s	0s	0s
	19	0	0s	0s	0s
	20	0	0s	0s	0s
	21	0	0s	0s	0s
	22	0	0s	0s	0s
	23	0	0s	0s	0s

Day	Hour	Synced files	Longest sync	Average sync
Sep 04	00	0	0s	0s
	01	0	0s	0s
	02	0	0s	0s
	03	0	0s	0s
	04	0	0s	0s
	05	0	0s	0s
	06	8	0.001s	0.001s
	07	0	0s	0s
	08	0	0s	0s
	09	0	0s	0s
	10	0	0s	0s
	11	0	0s	0s
	12	0	0s	0s
	13	0	0s	0s
	14	0	0s	0s
	15	0	0s	0s
	16	0	0s	0s
	17	0	0s	0s
	18	0	0s	0s
	19	0	0s	0s
	20	0	0s	0s
	21	0	0s	0s
	22	0	0s	0s
	23	0	0s	0s

Day	Hour	Avg time (sec)
Sep 04	00	0s
	01	0s
	02	0s
	03	0s
	04	0s
	05	0s
	06	0s
	07	0s
	08	0s
	09	0s
	10	0s
	11	0s
	12	0s
	13	0s
	14	0s
	15	0s
	16	0s
	17	0s
	18	0s
	19	0s
	20	0s
	21	0s
	22	0s
	23	0s

Day	Hour	Mean distance	Mean estimate
Sep 04	00	0.00 kB	0.00 kB
	01	0.00 kB	0.00 kB
	02	0.00 kB	0.00 kB
	03	0.00 kB	0.00 kB
	04	0.00 kB	0.00 kB
	05	0.00 kB	0.00 kB
	06	395.00 kB	2,040.00 kB
	07	0.00 kB	0.00 kB
	08	0.00 kB	0.00 kB
	09	0.00 kB	0.00 kB
	10	0.00 kB	0.00 kB
	11	0.00 kB	0.00 kB
	12	0.00 kB	0.00 kB
	13	0.00 kB	0.00 kB
	14	0.00 kB	0.00 kB
	15	0.00 kB	0.00 kB
	16	0.00 kB	0.00 kB
	17	0.00 kB	0.00 kB
	18	0.00 kB	0.00 kB
	19	0.00 kB	0.00 kB
	20	0.00 kB	0.00 kB
	21	0.00 kB	0.00 kB
	22	0.00 kB	0.00 kB
	23	0.00 kB	0.00 kB

↑ Back to the top of the Checkpoint Activity table

Checkpoint causes

Key values

time (1) Main checkpoint cause
1 checkpoints Total

Chart
Table

Cause	Number of checkpoints
time	1
Total	1

Size of temporary files

Key values

0 Temp Files size Peak
Date

Size of temporary files (5 minutes period)

Number of temporary files

Key values

0 per second Temp Files Peak
Date

Number of temporary files (5 minutes period)

Temporary Files Activity

Temp Files

Day	Hour	Count	Total size	Average size
Sep 04	00	0	0	0
	01	0	0	0
	02	0	0	0
	03	0	0	0
	04	0	0	0
	05	0	0	0
	06	0	0	0
	07	0	0	0
	08	0	0	0
	09	0	0	0
	10	0	0	0
	11	0	0	0
	12	0	0	0
	13	0	0	0
	14	0	0	0
	15	0	0	0
	16	0	0	0
	17	0	0	0
	18	0	0	0
	19	0	0	0
	20	0	0	0
	21	0	0	0
	22	0	0	0
	23	0	0	0

↑ Back to the top of the Temporary Files Activity table

Vacuums / Analyzes Distribution

Key values

0 sec Highest CPU-cost vacuum
Table
Database
Date
0 sec Highest CPU-cost analyze
Table
Database
Date

Autovacuum actions (5 minutes period)

Average Autovacuum Duration

Key values

0 sec Highest CPU-cost vacuum
Table
Database
Date

Average Autovacuum Duration (5 minutes average)

Analyzes per table

Key values

unknown (0) Main table analyzed (database )
0 analyzes Total

Chart
Table

Analyzes per tables

Table	Number of analyzes
NO DATASET

Vacuums per table

Key values

unknown (0) Main table vacuumed on database
0 vacuums Total

Chart
Table

Vacuums per tables

		Index	Buffer usage			Skipped		WAL usage
Table	Vacuums	scans	hits	misses	dirtied	pins	frozen	records	full page	bytes
NO DATASET

Tuples removed per table

Key values

unknown (0) Main table with removed tuples on database
0 tuples Total removed

Chart
Table

Tuples removed per tables

		Index	Tuples			Pages
Table	Vacuums	scans	removed	remain	not yet removable	removed	remain
NO DATASET

Pages removed per table

Key values

unknown (0) Main table with removed pages on database unknown
0 pages Total removed

Chart
Table

Pages removed per tables

Table	Number of vacuums	Index scans	Tuples removed	Pages removed
NO DATASET

Autovacuum Activity

Vacuums / Analyzes

Day	Hour	VACUUMs	ANALYZEs
Sep 04	00	0	0
	01	0	0
	02	0	0
	03	0	0
	04	0	0
	05	0	0
	06	0	0
	07	0	0
	08	0	0
	09	0	0
	10	0	0
	11	0	0
	12	0	0
	13	0	0
	14	0	0
	15	0	0
	16	0	0
	17	0	0
	18	0	0
	19	0	0
	20	0	0
	21	0	0
	22	0	0
	23	0	0

↑ Back to the top of the Autovacuum Activity table

Locks by types

Key values

unknown Main Lock Type
0 locks Total

Chart
Table

Type of locks

Type	Object	Count	Total Duration	Average Duration (s)
NO DATASET

Most frequent waiting queries (N)

Rank	Count	Total time	Min time	Max time	Avg duration	Query
NO DATASET

Queries that waited the most

Rank	Wait time	Query
NO DATASET

Queries by type

Key values

17 Total read queries
2 Total write queries

Chart
Table

Type	Count	Percentage
SELECT	17	89.47%
INSERT	0	0.00%
UPDATE	0	0.00%
DELETE	0	0.00%
COPY FROM	0	0.00%
COPY TO	0	0.00%
CTE	2	10.53%
DDL	0	0.00%
TCL	0	0.00%
CURSOR	0	0.00%

Queries by database

Key values

unknown Main database
14 Requests
31s461ms (unknown)
Main time consuming database

Chart
Table

Database	Request type	Count	Duration
ctddev51	Total	5	11s181ms
	cte	1	3s450ms
	select	4	7s730ms
unknown	Total	14	31s461ms
	cte	1	1s74ms
	select	13	30s386ms

Queries by user

Key values

unknown Main user
30 Requests

Queries Chart
Table

User	Request type	Count	Duration
pubeu	Total	9	21s77ms
	cte	2	6s932ms
	select	7	14s145ms
unknown	Total	30	1m5s
	cte	2	2s180ms
	select	28	1m3s

Duration by user

Key values

1m5s (unknown) Main time consuming user

Duration Chart
Table

User	Request type	Count	Duration
pubeu	Total	9	21s77ms
	cte	2	6s932ms
	select	7	14s145ms
unknown	Total	30	1m5s
	cte	2	2s180ms
	select	28	1m3s

Queries by host

Key values

unknown Main host
39 Requests
1m27s (unknown)
Main time consuming host

Chart
Table

Host	Request type	Count	Duration
unknown	Total	39	1m27s
	cte	4	9s112ms
	select	35	1m17s

Queries by application

Key values

unknown Main application
19 Requests
42s642ms (unknown)
Main time consuming application

Chart
Table

Application	Request type	Count	Duration
unknown	Total	19	42s642ms
	cte	2	4s525ms
	select	17	38s117ms

Number of cancelled queries

Key values

0 per second Cancelled query Peak
2024-09-04 19:04:42 Date

Number of cancelled queries (5 minutes period)

Histogram of query times

Key values

19 1000-10000ms duration

Chart
Table

Range	Count	Percentage
0-1ms	0	0.00%
1-5ms	0	0.00%
5-10ms	0	0.00%
10-25ms	0	0.00%
25-50ms	0	0.00%
50-100ms	0	0.00%
100-500ms	0	0.00%
500-1000ms	0	0.00%
1000-10000ms	19	100.00%
> 10000ms	0	0.00%

Slowest individual queries

Rank	Duration	Query
1	4s209ms	SELECT /* BatchChemGODAO / 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1291235)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi; [ Date:* 2024-09-04 05:48:28 - Bind query: yes ]
2	3s942ms	SELECT /* CIQH.getIxnCacheQuery / gcr.ixn_id, NULL, NULL, NULL FROM gene_chem_reference gcr WHERE / CIQH.getIxnWhereCore / gcr.gene_id = ANY (ARRAY (( SELECT / IQH.getMasterDiseaseWhereEquals.Name.Gene / gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases')); [ Date:* 2024-09-04 05:47:20 - Database: ctddev51 - User: pubeu - Bind query: yes ]
3	3s924ms	SELECT /* AdvancedGeneQueryDAO.getData / g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT() OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore / gcr.gene_id = ANY (ARRAY (( SELECT / IQH.getMasterDiseaseWhereEquals.Name.Gene / gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50; [ Date:* 2024-09-04 05:47:25 - Bind query: yes ]
4	3s869ms	select distinct /* ChemPhenotypesAssnsDAO / associatedTerm.nm \|\| '^' \|\| o.cd \|\| '^' \|\| associatedTerm.nm_html \|\| '^' \|\| associatedTerm.acc_txt \|\| '^' \|\| associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id \|\| '\|' \|\| associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm \|\| '^' \|\| 'go' \|\| '^' \|\| phenotypeTerm.nm_html \|\| '^' \|\| phenotypeTerm.acc_txt \|\| '^' \|\| phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm \|\| '^' \|\| 'taxon' \|\| '^' \|\| taxonTerm.nm_html \|\| '^' \|\| taxonTerm.acc_txt \|\| '^' \|\| taxonTerm.acc_db_cd \|\| '^' \|\| COALESCE(taxonTerm.secondary_nm, ''), '\|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html \|\| '^' \|\| anatomyTerm.acc_txt \|\| '^' \|\| ia.level_seq \|\| '^' \|\| anatomyTerm.acc_db_cd \|\| '^' \|\| anatomyTerm.nm, '\|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '\|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT() OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50; [ Date:* 2024-09-04 05:48:48 - Bind query: yes ]
5	3s813ms	select distinct /* ChemPhenotypesAssnsDAO / associatedTerm.nm \|\| '^' \|\| o.cd \|\| '^' \|\| associatedTerm.nm_html \|\| '^' \|\| associatedTerm.acc_txt \|\| '^' \|\| associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id \|\| '\|' \|\| associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm \|\| '^' \|\| 'go' \|\| '^' \|\| phenotypeTerm.nm_html \|\| '^' \|\| phenotypeTerm.acc_txt \|\| '^' \|\| phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm \|\| '^' \|\| 'taxon' \|\| '^' \|\| taxonTerm.nm_html \|\| '^' \|\| taxonTerm.acc_txt \|\| '^' \|\| taxonTerm.acc_db_cd \|\| '^' \|\| COALESCE(taxonTerm.secondary_nm, ''), '\|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html \|\| '^' \|\| anatomyTerm.acc_txt \|\| '^' \|\| ia.level_seq \|\| '^' \|\| anatomyTerm.acc_db_cd \|\| '^' \|\| anatomyTerm.nm, '\|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '\|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT() OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50; [ Date:* 2024-09-04 05:48:52 - Bind query: yes ]
6	3s450ms	WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '589967' UNION ALL SELECT n.object_id, n.id, CAST(path \|\| n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants / DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path; [ Date:* 2024-09-04 05:45:12 - Database: ctddev51 - User: pubeu - Bind query: yes ]
7	3s370ms	SELECT /* AdvancedIxnQueryDAO.getData / g.nm geneSymbol, g.id geneId, g.acc_txt geneAcc, g.acc_db_cd geneAccDbCd, c.nm chemNm, c.nm_html chemNmhtml, c.acc_txt chemAcc, c.secondary_nm casRN, c.id chemId, i.id ixnId, i.ixn_prose_txt ixnProse, i.ixn_prose_html ixnProseHtml, i.actions_txt ixnActions, COUNT(DISTINCT gcr.reference_id) refCount, COUNT(DISTINCT gcr.taxon_id) taxonCount, COUNT() OVER () fullRowCount FROM gene_chem_reference gcr INNER JOIN ixn i ON gcr.ixn_id = i.id INNER JOIN term g ON gcr.gene_id = g.id INNER JOIN term c ON gcr.chem_id = c.id WHERE /* CIQH.getIxnWhereCore / gcr.gene_id = ANY (ARRAY (( SELECT / IQH.getMasterPathwayWhereEquals.Name / tp.term_id FROM term_pathway tp WHERE UPPER(tp.pathway_nm) LIKE 'METABOLISM' AND tp.object_type_id = 4))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases')) GROUP BY g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id ORDER BY g.nm_sort, c.nm_sort, i.sort_txt LIMIT 50; [ Date:* 2024-09-04 05:47:32 - Bind query: yes ]
8	2s220ms	select distinct phenotypeTerm.nm AS goNm, phenotypeTerm.nm_html AS goNmHtml, phenotypeTerm.acc_txt AS goAcc, diseaseTerm.nm AS diseaseNm, diseaseTerm.nm_html AS diseaseNmHtml, diseaseTerm.acc_txt AS diseaseAcc, diseaseTerm.acc_db_cd AS diseaseAccDbCd, chemTerm.nm AS chemNm, chemTerm.nm_html AS chemNmHtml, chemTerm.acc_txt AS chemAcc, geneTerm.nm AS geneSymbol, geneTerm.nm_html AS geneSymbolHtml, geneTerm.acc_txt AS geneAcc, COUNT() OVER () fullRowCount from PHENOTYPE_TERM_REFERENCE viaChemPTR, PHENOTYPE_TERM_REFERENCE viaGenePTR, TERM phenotypeTerm, TERM diseaseTerm, TERM geneTerm, TERM chemTerm where viaChemPTR.via_term_id IN ( select baseTerm.id from term baseTerm WHERE baseTerm.object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC') and viaGenePTR.via_term_id IN ( select baseTerm.id from term baseTerm WHERE baseTerm.object_type_id = 4 and upper(baseTerm.nm) LIKE 'BCL2') and phenotypeTerm.id = ANY (ARRAY ( select baseTerm.id from term baseTerm WHERE baseTerm.object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and viaChemPTR.phenotype_id = phenotypeTerm.id and viaChemPTR.term_object_type_id = 3 and viaChemPTR.term_id = diseaseTerm.id and viaChemPTR.via_term_object_type_id = 2 and viaChemPTR.via_term_id = chemTerm.id and viaChemPTR.term_id = viaGenePTR.term_id and viaChemPTR.phenotype_id = viaGenePTR.phenotype_id and viaGenePTR.via_term_object_type_id = 4 and viaGenePTR.via_term_id = geneTerm.id and exists ( select 1 from gene_chem_reference where gene_id = geneTerm.id and chem_id = chemTerm.id) GROUP BY phenotypeTerm.nm, phenotypeTerm.nm_html, phenotypeTerm.acc_txt, diseaseTerm.nm, diseaseTerm.nm_html, diseaseTerm.acc_txt, diseaseTerm.acc_db_cd, chemTerm.nm, chemTerm.nm_html, chemTerm.acc_txt, geneTerm.nm, geneTerm.nm_html, geneTerm.acc_txt order by chemTerm.nm LIMIT 50; [ Date:* 2024-09-04 05:48:56 - Bind query: yes ]
9	1s443ms	SELECT /* AdvancedGeneQueryDAO.getData / g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT() OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore / gcr.taxon_id = ANY (ARRAY ( SELECT / CIQH.getIxnTaxonWhereEquals.Name / dp.descendant_object_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id WHERE UPPER(t.nm) LIKE 'FELIS CATUS' AND t.object_type_id = 1)) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50; [ Date:* 2024-09-04 05:47:28 - Bind query: yes ]
10	1s406ms	SELECT DISTINCT stressorTerm.nm as chemNm, stressorTerm.nm_html as chemNmHtml, stressorTerm.nm_sort as chemNmSort, stressorTerm.acc_txt as chemAcc, ( SELECT STRING_AGG(distinct stressorSrcType.nm \|\| '^' \|\| stressorSrcType.cd, '\|')) as stressorSrcTypeNm, stressor.src_details as stressorSrcDetails, stressor.sample_qty as stressorSampleQty, stressor.note as stressorNote, receptor.qty as nbrReceptors, receptor.description as receptors, receptor.note as receptorNotes, receptorTerm.nm \|\| '^' \|\| ( select cd from object_type where id = receptor.object_type_id) \|\| '^' \|\| receptorTerm.nm_html \|\| '^' \|\| receptorTerm.acc_txt \|\| '^' \|\| receptorTerm.acc_db_cd as receptorTerms, ( SELECT STRING_AGG(distinct receptorTobaccoUse.tobacco_use_nm \|\| '^' \|\| receptorTobaccoUse.pct, ' \| ')) as smokerStatus, receptor.age as ageRange, receptor.age_uom_nm as ageUOMNm, receptor.age_qualifier_nm as ageQualifierNm, receptor.gender_nm as genderNmSearch, receptor.id receptorID, ( SELECT STRING_AGG(pct \|\| '^' \|\| gender_nm \|\| '^' \|\| gender_nm_html, '\|') from exp_receptor_gender where exp_receptor_id = receptor.id) as genderDetails, ( SELECT STRING_AGG(DISTINCT receptorRace.race_nm \|\| '^' \|\| receptorRace.pct, ' \| ')) as receptorRace, ( SELECT STRING_AGG(DISTINCT eventAssayMethod.nm, ' \| ')) as assayMethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumAccTxt, ( SELECT STRING_AGG(DISTINCT eventProject.project_nm, ' \| ')) as associatedStudyTitles, event.collection_start_yr \|\| '-' \|\| event.collection_end_yr as collectionStartAndEndYr, event.detection_limit as detectionLimit, event.detection_limit_uom as detectionLimitUOM, event.detection_freq as detectionFreq, event.note as eventNote, ( SELECT STRING_AGG(DISTINCT eventLocation.geographic_region_nm, ' \| ')) as stateOrProvince, ( SELECT STRING_AGG(DISTINCT eventLocation.locality_txt, ' \| ')) as localityTxt, ( SELECT STRING_AGG(distinct country.nm, ' \| ')) as studyCountries, exposureMarkerTerm.nm \|\| '^' \|\| ( select cd from object_type where id = exposureMarkerTerm.object_type_id) \|\| '^' \|\| exposureMarkerTerm.nm_html \|\| '^' \|\| exposureMarkerTerm.acc_txt \|\| '^' \|\| exposureMarkerTerm.acc_db_cd as assayedMarkers, event.exp_marker_lvl as assayLevel, assay_uom as measurement, assay_measurement_stat as measurementStat, assay_note as assayNote, eiot.description as outcomeRltnp, diseaseTerm.nm \|\| '^' \|\| 'disease' \|\| '^' \|\| diseaseTerm.nm_html \|\| '^' \|\| diseaseTerm.acc_txt \|\| '^' \|\| diseaseTerm.acc_db_cd as diseaseField, phenotypeTerm.nm \|\| '^' \|\| 'go' \|\| '^' \|\| phenotypeTerm.nm_html \|\| '^' \|\| phenotypeTerm.acc_txt \|\| '^' \|\| phenotypeTerm.acc_db_cd as phenotypeField, outcome.phenotype_action_degree_type_nm as phenotypeActionDegreeTypeNm, e.reference_acc_txt \|\| '^' \|\| r.abbr_authors_txt \|\| '^' \|\| r.pub_start_yr as ref, r.abbr_authors_txt as abbrAuthorsTxt, ( SELECT STRING_AGG(DISTINCT expStudyFactor.study_factor_nm, ' \| ')) as studyFactorNms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html \|\| '^' \|\| anatomyTerm.acc_txt \|\| '^' \|\| anatomyTerm.id \|\| '^' \|\| anatomyTerm.acc_db_cd \|\| '^' \|\| anatomyTerm.nm, '\|')) as anatomyTerms, outcome.note as outcomeNote, eventLocation.exp_event_id as eventID, COUNT() OVER () fullRowCount FROM exposure e inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join exp_event event ON e.exp_event_id = event.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot ON outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id inner join reference r ON e.reference_id = r.id left outer join exp_stressor_stressor_src esss ON stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorSrcType ON esss.exp_stressor_src_type_id = stressorSrcType.id left outer join exp_receptor_tobacco_use receptorTobaccoUse ON receptor.id = receptorTobaccoUse.exp_receptor_id left outer join exp_receptor_race receptorRace ON receptor.id = receptorRace.exp_receptor_id left outer join exp_event_assay_method eventAssayMethod ON event.id = eventAssayMethod.exp_event_id left outer join exp_event_location eventLocation ON event.id = eventLocation.exp_event_id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id Left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id left outer join country ON eventLocation.country_id = country.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join reference_exp referenceExp on e.reference_acc_txt = referenceExp.reference_acc_txt and e.reference_acc_db_id = referenceExp.reference_acc_db_id left outer join exp_study_factor expStudyFactor on referenceExp.id = expStudyFactor.reference_exp_id where outcome.disease_id in ( select descendant_object_id from dag_path where ancestor_object_id = '2071900') or receptorTerm.id in ( select descendant_object_id from dag_path where ancestor_object_id = '2071900') GROUP BY chemNm, chemNmHtml, chemNmSort, chemAcc, stressorSrcDetails, stressorSampleQty, stressorNote, receptorTerms, medium, mediumAccTxt, assayedMarkers, assayLevel, measurement, measurementStat, assayNote, outcomeRltnp, diseaseField, phenotypeField, phenotypeActionDegreeTypeNm, ref, r.abbr_authors_txt, collectionStartAndEndYr, receptorID, detectionLimit, detectionLimitUOM, detectionFreq, eventNote, outcomeNote, eventID order by chemNmSort LIMIT 50; [ Date:* 2024-09-04 05:48:44 - Bind query: yes ]
11	1s373ms	SELECT /* ReferenceGeneGeneIxnsDAO / fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT() OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50; [ Date: 2024-09-04 05:48:10 - Database: ctddev51 - User: pubeu - Bind query: yes ]
12	1s361ms	SELECT DISTINCT stressorTerm.nm as chemNm, stressorTerm.nm_html as chemNmHtml, stressorTerm.nm_sort as chemNmSort, stressorTerm.acc_txt as chemAcc, ( SELECT STRING_AGG(distinct stressorSrcType.nm \|\| '^' \|\| stressorSrcType.cd, '\|')) as stressorSrcTypeNm, stressor.src_details as stressorSrcDetails, stressor.sample_qty as stressorSampleQty, stressor.note as stressorNote, receptor.qty as nbrReceptors, receptor.description as receptors, receptor.note as receptorNotes, receptorTerm.nm \|\| '^' \|\| ( select cd from object_type where id = receptor.object_type_id) \|\| '^' \|\| receptorTerm.nm_html \|\| '^' \|\| receptorTerm.acc_txt \|\| '^' \|\| receptorTerm.acc_db_cd as receptorTerms, ( SELECT STRING_AGG(distinct receptorTobaccoUse.tobacco_use_nm \|\| '^' \|\| receptorTobaccoUse.pct, ' \| ')) as smokerStatus, receptor.age as ageRange, receptor.age_uom_nm as ageUOMNm, receptor.age_qualifier_nm as ageQualifierNm, receptor.gender_nm as genderNmSearch, receptor.id receptorID, ( SELECT STRING_AGG(pct \|\| '^' \|\| gender_nm \|\| '^' \|\| gender_nm_html, '\|') from exp_receptor_gender where exp_receptor_id = receptor.id) as genderDetails, ( SELECT STRING_AGG(DISTINCT receptorRace.race_nm \|\| '^' \|\| receptorRace.pct, ' \| ')) as receptorRace, ( SELECT STRING_AGG(DISTINCT eventAssayMethod.nm, ' \| ')) as assayMethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumAccTxt, ( SELECT STRING_AGG(DISTINCT eventProject.project_nm, ' \| ')) as associatedStudyTitles, event.collection_start_yr \|\| '-' \|\| event.collection_end_yr as collectionStartAndEndYr, event.detection_limit as detectionLimit, event.detection_limit_uom as detectionLimitUOM, event.detection_freq as detectionFreq, event.note as eventNote, ( SELECT STRING_AGG(DISTINCT eventLocation.geographic_region_nm, ' \| ')) as stateOrProvince, ( SELECT STRING_AGG(DISTINCT eventLocation.locality_txt, ' \| ')) as localityTxt, ( SELECT STRING_AGG(distinct country.nm, ' \| ')) as studyCountries, exposureMarkerTerm.nm \|\| '^' \|\| ( select cd from object_type where id = exposureMarkerTerm.object_type_id) \|\| '^' \|\| exposureMarkerTerm.nm_html \|\| '^' \|\| exposureMarkerTerm.acc_txt \|\| '^' \|\| exposureMarkerTerm.acc_db_cd as assayedMarkers, event.exp_marker_lvl as assayLevel, assay_uom as measurement, assay_measurement_stat as measurementStat, assay_note as assayNote, eiot.description as outcomeRltnp, diseaseTerm.nm \|\| '^' \|\| 'disease' \|\| '^' \|\| diseaseTerm.nm_html \|\| '^' \|\| diseaseTerm.acc_txt \|\| '^' \|\| diseaseTerm.acc_db_cd as diseaseField, phenotypeTerm.nm \|\| '^' \|\| 'go' \|\| '^' \|\| phenotypeTerm.nm_html \|\| '^' \|\| phenotypeTerm.acc_txt \|\| '^' \|\| phenotypeTerm.acc_db_cd as phenotypeField, outcome.phenotype_action_degree_type_nm as phenotypeActionDegreeTypeNm, e.reference_acc_txt \|\| '^' \|\| r.abbr_authors_txt \|\| '^' \|\| r.pub_start_yr as ref, r.abbr_authors_txt as abbrAuthorsTxt, ( SELECT STRING_AGG(DISTINCT expStudyFactor.study_factor_nm, ' \| ')) as studyFactorNms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html \|\| '^' \|\| anatomyTerm.acc_txt \|\| '^' \|\| anatomyTerm.id \|\| '^' \|\| anatomyTerm.acc_db_cd \|\| '^' \|\| anatomyTerm.nm, '\|')) as anatomyTerms, outcome.note as outcomeNote, eventLocation.exp_event_id as eventID, COUNT() OVER () fullRowCount FROM exposure e inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join exp_event event ON e.exp_event_id = event.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot ON outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id inner join reference r ON e.reference_id = r.id left outer join exp_stressor_stressor_src esss ON stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorSrcType ON esss.exp_stressor_src_type_id = stressorSrcType.id left outer join exp_receptor_tobacco_use receptorTobaccoUse ON receptor.id = receptorTobaccoUse.exp_receptor_id left outer join exp_receptor_race receptorRace ON receptor.id = receptorRace.exp_receptor_id left outer join exp_event_assay_method eventAssayMethod ON event.id = eventAssayMethod.exp_event_id left outer join exp_event_location eventLocation ON event.id = eventLocation.exp_event_id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id Left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id left outer join country ON eventLocation.country_id = country.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join reference_exp referenceExp on e.reference_acc_txt = referenceExp.reference_acc_txt and e.reference_acc_db_id = referenceExp.reference_acc_db_id left outer join exp_study_factor expStudyFactor on referenceExp.id = expStudyFactor.reference_exp_id where outcome.phenotype_id in ( select descendant_object_id from dag_path where ancestor_object_id = '1211542') or receptorTerm.id in ( select descendant_object_id from dag_path where ancestor_object_id = '1211542') GROUP BY chemNm, chemNmHtml, chemNmSort, chemAcc, stressorSrcDetails, stressorSampleQty, stressorNote, receptorTerms, medium, mediumAccTxt, assayedMarkers, assayLevel, measurement, measurementStat, assayNote, outcomeRltnp, diseaseField, phenotypeField, phenotypeActionDegreeTypeNm, ref, r.abbr_authors_txt, collectionStartAndEndYr, receptorID, detectionLimit, detectionLimitUOM, detectionFreq, eventNote, outcomeNote, eventID order by chemNmSort LIMIT 50; [ Date:* 2024-09-04 05:48:41 - Database: ctddev51 - User: pubeu - Bind query: yes ]
13	1s304ms	SELECT /* GeneBrowseTermsDAO / t.nm, t.nm_html nmHtml, t.secondary_nm secondaryNm, t.acc_txt acc, 'name:' \|\| t.nm accQueryStr, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_phenotypes hasPhenotypes, COUNT() OVER () fullRowCount FROM term t WHERE t.object_type_id = '4' AND REGEXP_REPLACE(UPPER(SUBSTRING(t.nm, 1, 1)), '[^A-Z]', '#') = 'A' ORDER BY t.nm_sort LIMIT 100; [ Date: 2024-09-04 05:47:09 - Bind query: yes ]
14	1s298ms	SELECT COALESCE(d.abbr_display, d.nm_display) nm # 015, d.description # 015, COALESCE(d.abbr, d.nm) anchor # 015, get_homepage_url (d.id) url # 015 FROM db d # 015 WHERE d.id IN (# 015 SELECT l.db_id # 015 FROM db_link l # 015 WHERE l.type_cd = 'X' # 015 AND l.object_type_id = 4) # 015 ORDER BY 1; [ Date: 2024-09-04 05:48:34 - Bind query: yes ]
15	1s223ms	SELECT DISTINCT stressorTerm.nm as chemNm, stressorTerm.nm_html as chemNmHtml, stressorTerm.nm_sort as chemNmSort, stressorTerm.acc_txt as chemAcc, ( SELECT STRING_AGG(distinct stressorSrcType.nm \|\| '^' \|\| stressorSrcType.cd, '\|')) as stressorSrcTypeNm, stressor.src_details as stressorSrcDetails, stressor.sample_qty as stressorSampleQty, stressor.note as stressorNote, receptor.qty as nbrReceptors, receptor.description as receptors, receptor.note as receptorNotes, receptorTerm.nm \|\| '^' \|\| ( select cd from object_type where id = receptor.object_type_id) \|\| '^' \|\| receptorTerm.nm_html \|\| '^' \|\| receptorTerm.acc_txt \|\| '^' \|\| receptorTerm.acc_db_cd as receptorTerms, ( SELECT STRING_AGG(distinct receptorTobaccoUse.tobacco_use_nm \|\| '^' \|\| receptorTobaccoUse.pct, ' \| ')) as smokerStatus, receptor.age as ageRange, receptor.age_uom_nm as ageUOMNm, receptor.age_qualifier_nm as ageQualifierNm, receptor.gender_nm as genderNmSearch, receptor.id receptorID, ( SELECT STRING_AGG(pct \|\| '^' \|\| gender_nm \|\| '^' \|\| gender_nm_html, '\|') from exp_receptor_gender where exp_receptor_id = receptor.id) as genderDetails, ( SELECT STRING_AGG(DISTINCT receptorRace.race_nm \|\| '^' \|\| receptorRace.pct, ' \| ')) as receptorRace, ( SELECT STRING_AGG(DISTINCT eventAssayMethod.nm, ' \| ')) as assayMethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumAccTxt, ( SELECT STRING_AGG(DISTINCT eventProject.project_nm, ' \| ')) as associatedStudyTitles, event.collection_start_yr \|\| '-' \|\| event.collection_end_yr as collectionStartAndEndYr, event.detection_limit as detectionLimit, event.detection_limit_uom as detectionLimitUOM, event.detection_freq as detectionFreq, event.note as eventNote, ( SELECT STRING_AGG(DISTINCT eventLocation.geographic_region_nm, ' \| ')) as stateOrProvince, ( SELECT STRING_AGG(DISTINCT eventLocation.locality_txt, ' \| ')) as localityTxt, ( SELECT STRING_AGG(distinct country.nm, ' \| ')) as studyCountries, exposureMarkerTerm.nm \|\| '^' \|\| ( select cd from object_type where id = exposureMarkerTerm.object_type_id) \|\| '^' \|\| exposureMarkerTerm.nm_html \|\| '^' \|\| exposureMarkerTerm.acc_txt \|\| '^' \|\| exposureMarkerTerm.acc_db_cd as assayedMarkers, event.exp_marker_lvl as assayLevel, assay_uom as measurement, assay_measurement_stat as measurementStat, assay_note as assayNote, eiot.description as outcomeRltnp, diseaseTerm.nm \|\| '^' \|\| 'disease' \|\| '^' \|\| diseaseTerm.nm_html \|\| '^' \|\| diseaseTerm.acc_txt \|\| '^' \|\| diseaseTerm.acc_db_cd as diseaseField, phenotypeTerm.nm \|\| '^' \|\| 'go' \|\| '^' \|\| phenotypeTerm.nm_html \|\| '^' \|\| phenotypeTerm.acc_txt \|\| '^' \|\| phenotypeTerm.acc_db_cd as phenotypeField, outcome.phenotype_action_degree_type_nm as phenotypeActionDegreeTypeNm, e.reference_acc_txt \|\| '^' \|\| r.abbr_authors_txt \|\| '^' \|\| r.pub_start_yr as ref, r.abbr_authors_txt as abbrAuthorsTxt, ( SELECT STRING_AGG(DISTINCT expStudyFactor.study_factor_nm, ' \| ')) as studyFactorNms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html \|\| '^' \|\| anatomyTerm.acc_txt \|\| '^' \|\| anatomyTerm.id \|\| '^' \|\| anatomyTerm.acc_db_cd \|\| '^' \|\| anatomyTerm.nm, '\|')) as anatomyTerms, outcome.note as outcomeNote, eventLocation.exp_event_id as eventID, COUNT() OVER () fullRowCount FROM exposure e inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join exp_event event ON e.exp_event_id = event.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot ON outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id inner join reference r ON e.reference_id = r.id left outer join exp_stressor_stressor_src esss ON stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorSrcType ON esss.exp_stressor_src_type_id = stressorSrcType.id left outer join exp_receptor_tobacco_use receptorTobaccoUse ON receptor.id = receptorTobaccoUse.exp_receptor_id left outer join exp_receptor_race receptorRace ON receptor.id = receptorRace.exp_receptor_id left outer join exp_event_assay_method eventAssayMethod ON event.id = eventAssayMethod.exp_event_id left outer join exp_event_location eventLocation ON event.id = eventLocation.exp_event_id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id Left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id left outer join country ON eventLocation.country_id = country.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join reference_exp referenceExp on e.reference_acc_txt = referenceExp.reference_acc_txt and e.reference_acc_db_id = referenceExp.reference_acc_db_id left outer join exp_study_factor expStudyFactor on referenceExp.id = expStudyFactor.reference_exp_id where exposureMarkerTerm.id = '1433030' or receptorTerm.id = '1433030' GROUP BY chemNm, chemNmHtml, chemNmSort, chemAcc, stressorSrcDetails, stressorSampleQty, stressorNote, receptorTerms, medium, mediumAccTxt, assayedMarkers, assayLevel, measurement, measurementStat, assayNote, outcomeRltnp, diseaseField, phenotypeField, phenotypeActionDegreeTypeNm, ref, r.abbr_authors_txt, collectionStartAndEndYr, receptorID, detectionLimit, detectionLimitUOM, detectionFreq, eventNote, outcomeNote, eventID order by chemNmSort LIMIT 50; [ Date:* 2024-09-04 05:48:42 - Bind query: yes ]
16	1s156ms	SELECT /* ReferenceGeneGeneIxnsDAO / fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT() OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50; [ Date: 2024-09-04 05:48:09 - Bind query: yes ]
17	1s145ms	SELECT /* ChemExposureStudiesAssnsDAO / e.reference_acc_txt \|\| '^' \|\| r.abbr_authors_txt \|\| '^' \|\| r.pub_start_yr as ref, ( SELECT STRING_AGG(DISTINCT expStudyFactor.study_factor_nm, ' \| ')) as studyFactorNms, ( SELECT STRING_AGG(DISTINCT eventProject.project_nm, ' \| ')) as associatedStudyTitles, ( SELECT STRING_AGG(distinct stressorTerm.nm \|\| '^' \|\| ( select cd from object_type where id = stressorTerm.object_type_id) \|\| '^' \|\| stressorTerm.nm_html \|\| '^' \|\| stressorTerm.acc_txt \|\| '^' \|\| stressorTerm.acc_db_cd, '\|')) as stressorAgents, ( SELECT STRING_AGG(distinct COALESCE(receptorTerm.nm, '') \|\| '^' \|\| COALESCE(( select cd from object_type where id = receptorTerm.object_type_id), '') \|\| '^' \|\| COALESCE(receptorTerm.nm_html, '') \|\| '^' \|\| COALESCE(receptorTerm.acc_txt, '') \|\| '^' \|\| COALESCE(receptorTerm.acc_db_cd, '') \|\| '^' \|\| receptor.description, '\|')) as receptors, ( SELECT STRING_AGG(distinct country.nm, ' \| ')) as studyCountries, ( SELECT STRING_AGG(distinct location.locality_txt, ' \| ')) as localities, ( SELECT STRING_AGG(distinct event.medium_nm \|\| '^' \|\| COALESCE(event.medium_term_acc_txt, ''), ' \| ')) as assayMediums, ( SELECT STRING_AGG(distinct exposureMarkerTerm.nm \|\| '^' \|\| ( select cd from object_type where id = exposureMarkerTerm.object_type_id) \|\| '^' \|\| exposureMarkerTerm.nm_html \|\| '^' \|\| exposureMarkerTerm.acc_txt \|\| '^' \|\| exposureMarkerTerm.acc_db_cd, '\|')) as assayedMarkers, ( SELECT STRING_AGG(distinct diseaseTerm.nm \|\| '^' \|\| ( select cd from object_type where id = diseaseTerm.object_type_id) \|\| '^' \|\| diseaseTerm.nm_html \|\| '^' \|\| diseaseTerm.acc_txt \|\| '^' \|\| diseaseTerm.acc_db_cd, '\|')) as diseases, ( SELECT STRING_AGG(distinct phenotypeTerm.nm \|\| '^' \|\| ( select cd from object_type where id = phenotypeTerm.object_type_id) \|\| '^' \|\| phenotypeTerm.nm_html \|\| '^' \|\| phenotypeTerm.acc_txt \|\| '^' \|\| phenotypeTerm.acc_db_cd, '\|')) as phenotypes, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html \|\| '^' \|\| anatomyTerm.acc_txt \|\| '^' \|\| anatomyTerm.id \|\| '^' \|\| anatomyTerm.acc_db_cd \|\| '^' \|\| anatomyTerm.nm, '\|')) as anatomyTerms, re.author_summary summary, COUNT() OVER () fullRowCount FROM exposure e inner join reference r ON e.reference_id = r.id inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id left outer join exp_event event ON e.exp_event_id = event.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join exp_event_location location ON e.exp_event_id = location.exp_event_id left outer join country ON location.country_id = country.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id Left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id inner join reference_exp re ON e.reference_id = re.reference_id left outer join exp_study_factor expStudyFactor on re.id = expStudyFactor.reference_exp_id where r.id IN (( select id from reference where acc_txt in ('23644563')) INTERSECT ( select re.reference_id from reference r, reference_exp re where re.reference_id = r.id and (r.pub_start_yr >= 2012 AND r.pub_end_yr <= 2013)) INTERSECT ( select /* IQH.getReferencesAssociatedWithTermSQL / distinct reference_id from term_reference tr where object_type_id = 2 and term_id in ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ARSENIC')) and ixn_type_id = ( select id from ixn_type where nm = 'EXPOSURE')) INTERSECT (( SELECT rpr.reference_id FROM reference_party_role rpr INNER JOIN reference_party rp ON rpr.reference_party_id = rp.id WHERE SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'KIPPLER')) INTERSECT ( select id from reference r where r.title_abstract_fts @@ to_tsquery('pg_catalog.english', '(SEX-SPECIFIC \| SEXSPECIFIC) & EFFECTS & OF & EARLY & LIFE')) INTERSECT ( select / IQH.getReferencesAssociatedWithTermSQL / distinct reference_id from term_reference tr where object_type_id = 4 and term_id in ( select baseTerm.id from term baseTerm WHERE baseTerm.object_type_id = 4 and upper(baseTerm.nm) LIKE 'APBB3') and ixn_type_id = ( select id from ixn_type where nm = 'EXPOSURE')) INTERSECT ( select / IQH.getReferencesAssociatedWithTermSQL / distinct reference_id from term_reference tr where object_type_id = 3 and term_id in ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 3 and upper(baseTerm.nm) LIKE 'BIRTH WEIGHT')) and ixn_type_id = ( select id from ixn_type where nm = 'EXPOSURE')) INTERSECT ( select / IQH.getReferencesAssociatedWithTermSQL / distinct reference_id from term_reference tr where object_type_id = 5 and term_id in ( select / DBConstants.getDAGTermSQL / distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0010424' AND l.type_cd = 'A' AND l.object_type_id = 5))) and ixn_type_id = ( select id from ixn_type where nm = 'EXPOSURE')) INTERSECT ( select reference_id from country c, exp_event_location l, exp_event ee, exposure e where c.id = l.country_id and l.exp_event_id = ee.id and ee.id = e.exp_event_id and c.nm in ('Bangladesh')) INTERSECT ( select reference_id from exp_receptor er, exposure e where er.id = e.exp_receptor_id and er.description in ('Infants or newborns'))) group by e.reference_acc_txt, r.abbr_authors_txt, pub_start_yr, re.author_summary order by stressorAgents LIMIT 50; [ Date:* 2024-09-04 05:48:37 - Bind query: yes ]
18	1s74ms	WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '1432724' UNION ALL SELECT n.object_id, n.id, CAST(path \|\| n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants / DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path; [ Date:* 2024-09-04 05:45:14 - Bind query: yes ]
19	1s53ms	SELECT /* ChemGODAO / d.abbr dagAbbr, d.nm dagNm, gt.level_min_no dagLevelMin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pValCorrected, te.raw_p_val pValRaw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, COUNT() OVER () fullRowCount FROM term_enrichment te INNER JOIN dag_node gt ON te.enriched_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE te.term_id = '1291235' AND te.enriched_object_type_id = 5 ORDER BY gt.nm_sort DESC LIMIT 50; [ Date: 2024-09-04 05:47:53 - Database: ctddev51 - User: pubeu - Bind query: yes ]

Time consuming queries (N)


[ User: pubeu - Total duration: 3s450ms - Times executed: 1 ]
Date: 2024-09-04 05:48:28
Duration: 4s209ms
Bind query: yes
[ User: pubeu - Total duration: 3s942ms - Times executed: 1 ]
Date: 2024-09-04 05:47:25
Duration: 3s924ms
Bind query: yes
Date: 2024-09-04 05:48:48
Duration: 3s869ms
Bind query: yes
Date: 2024-09-04 05:48:52
Duration: 3s813ms
Bind query: yes
Date: 2024-09-04 05:47:32
Duration: 3s370ms
Bind query: yes
[ User: pubeu - Total duration: 1s373ms - Times executed: 1 ]
Date: 2024-09-04 05:48:56
Duration: 2s220ms
Bind query: yes
Date: 2024-09-04 05:47:28
Duration: 1s443ms
Bind query: yes
Date: 2024-09-04 05:48:44
Duration: 1s406ms
Bind query: yes
[ User: pubeu - Total duration: 1s361ms - Times executed: 1 ]
Date: 2024-09-04 05:47:09
Duration: 1s304ms
Bind query: yes
Date: 2024-09-04 05:48:34
Duration: 1s298ms
Bind query: yes
Date: 2024-09-04 05:48:42
Duration: 1s223ms
Bind query: yes
Date: 2024-09-04 05:48:37
Duration: 1s145ms
Bind query: yes
[ User: pubeu - Total duration: 1s53ms - Times executed: 1 ]

Most frequent queries (N)


[ User: pubeu - Total duration: 3s450ms - Times executed: 1 ]
[ User: pubeu - Total duration: 1s373ms - Times executed: 1 ]
Date: 2024-09-04 05:48:28
Duration: 4s209ms
Bind query: yes
[ User: pubeu - Total duration: 3s942ms - Times executed: 1 ]
Date: 2024-09-04 05:47:25
Duration: 3s924ms
Bind query: yes
Date: 2024-09-04 05:48:48
Duration: 3s869ms
Bind query: yes
Date: 2024-09-04 05:48:52
Duration: 3s813ms
Bind query: yes
Date: 2024-09-04 05:47:32
Duration: 3s370ms
Bind query: yes
Date: 2024-09-04 05:48:56
Duration: 2s220ms
Bind query: yes
Date: 2024-09-04 05:47:28
Duration: 1s443ms
Bind query: yes
Date: 2024-09-04 05:48:44
Duration: 1s406ms
Bind query: yes
[ User: pubeu - Total duration: 1s361ms - Times executed: 1 ]
Date: 2024-09-04 05:47:09
Duration: 1s304ms
Bind query: yes
Date: 2024-09-04 05:48:34
Duration: 1s298ms
Bind query: yes
Date: 2024-09-04 05:48:42
Duration: 1s223ms
Bind query: yes
Date: 2024-09-04 05:48:37
Duration: 1s145ms
Bind query: yes
[ User: pubeu - Total duration: 1s53ms - Times executed: 1 ]

Normalized slowest queries (N)


Date: 2024-09-04 05:48:28
Duration: 4s209ms
Bind query: yes
[ User: pubeu - Total duration: 3s942ms - Times executed: 1 ]
Date: 2024-09-04 05:47:25
Duration: 3s924ms
Bind query: yes
Date: 2024-09-04 05:48:48
Duration: 3s869ms
Bind query: yes
Date: 2024-09-04 05:48:52
Duration: 3s813ms
Bind query: yes
Date: 2024-09-04 05:47:32
Duration: 3s370ms
Bind query: yes
[ User: pubeu - Total duration: 3s450ms - Times executed: 1 ]
Date: 2024-09-04 05:48:56
Duration: 2s220ms
Bind query: yes
Date: 2024-09-04 05:47:28
Duration: 1s443ms
Bind query: yes
Date: 2024-09-04 05:48:44
Duration: 1s406ms
Bind query: yes
[ User: pubeu - Total duration: 1s361ms - Times executed: 1 ]
Date: 2024-09-04 05:47:09
Duration: 1s304ms
Bind query: yes
Date: 2024-09-04 05:48:34
Duration: 1s298ms
Bind query: yes
[ User: pubeu - Total duration: 1s373ms - Times executed: 1 ]
Date: 2024-09-04 05:48:42
Duration: 1s223ms
Bind query: yes
Date: 2024-09-04 05:48:37
Duration: 1s145ms
Bind query: yes
[ User: pubeu - Total duration: 1s53ms - Times executed: 1 ]

Time consuming prepare

Rank	Total duration	Times executed	Min duration	Max duration	Avg duration	Query
NO DATASET

Time consuming bind

Rank	Total duration	Times executed	Min duration	Max duration	Avg duration	Query
NO DATASET

Log levels

Key values

7,567 Log entries

Chart
Table

Type	Count	Percentage
DETAIL	10	0.13%
LOG	7,557	99.87%

Events distribution

Key values

0 PANIC entries
0 FATAL entries
0 ERROR entries
0 WARNING entries

Errors per 5 minutes

Most Frequent Errors/Events

Key values

0 Max number of times the same event was reported
0 Total events found

Rank	Times reported	Error
NO DATASET

Global information

Overview

Global Stats

SQL Traffic

Key values

SELECT Traffic

Key values

INSERT/UPDATE/DELETE Traffic

Key values

Queries duration

Key values

Prepared queries ratio

Key values

General Activity

Connections

Established Connections

Key values

Connections per database

Key values

Connections per user

Key values

Connections per host

Key values

Sessions

Simultaneous sessions

Key values

Histogram of session times

Key values

Sessions per database

Key values

Sessions per user

Key values

Sessions per host

Key values

Sessions per application

Key values

Checkpoints / Restartpoints

Checkpoints Buffers

Key values

Checkpoints Wal files

Key values

Checkpoints distance

Key values

Checkpoints Activity

Checkpoint causes

Key values

Temporary Files

Size of temporary files

Key values

Size of temporary files (5 minutes period)

Number of temporary files

Key values

Number of temporary files (5 minutes period)

Temporary Files Activity

Vacuums

Vacuums / Analyzes Distribution

Key values

Autovacuum actions (5 minutes period)

Average Autovacuum Duration

Key values

Average Autovacuum Duration (5 minutes average)

Analyzes per table

Key values

Analyzes per tables

Vacuums per table

Key values

Vacuums per tables

Tuples removed per table

Key values

Tuples removed per tables

Pages removed per table

Key values

Pages removed per tables

Autovacuum Activity

Locks

Locks by types

Key values

Type of locks

Most frequent waiting queries (N)

Queries that waited the most