AWR Report for DB: CONNDEMO, Inst: conndemo2, Snaps: 27008-27009

DB Name	DB Id	Unique Name	Role	Edition	Release	RAC	CDB
CONNDEMO	5801112	conndemo	PRIMARY	EE	12.2.0.1.0	YES	NO

Instance	Inst Num	Startup Time
conndemo2	2	03-Aug-17 03:08

Host Name	Platform	CPUs	Cores	Sockets	Memory (GB)
scao08adm04.us.oracle.com	Linux x86 64-bit	48	24	2	503.42

	Snap Id	Snap Time	Sessions	Cursors/Session	Instances
Begin Snap:	27008	25-Aug-17 12:45:26	203	7.7	2
End Snap:	27009	25-Aug-17 12:55:43	202	7.7	2
Elapsed:		10.28 (mins)
DB Time:		987.06 (mins)

Report Summary

Finding Name	Avg active sessions of the task	Percent active sessions of finding	Task Name	Begin Snap Time	End Snap Time
Top Segments by "User I/O" and "Cluster"	95.99	95.71	ADDM:5801112_2_27009	25-Aug-17 12:45	25-Aug-17 12:55
Top SQL Statements	95.99	94.05	ADDM:5801112_2_27009	25-Aug-17 12:45	25-Aug-17 12:55

	Per Second	Per Transaction	Per Exec	Per Call
DB Time(s):	96.0	6.1	1.09	1.15
DB CPU(s):	2.3	0.2	0.03	0.03
Background CPU(s):	0.3	0.0	0.00	0.00
Redo size (bytes):	51,547.0	3,298.8
Logical read (blocks):	5,736,721.0	367,129.3
Block changes:	219.5	14.1
Physical read (blocks):	5,704,502.3	365,067.4
Physical write (blocks):	314.2	20.1
Read IO requests:	178,491.4	11,422.8
Write IO requests:	77.4	5.0
Read IO (MB):	44,566.5	2,852.1
Write IO (MB):	2.5	0.2
IM scan rows:	0.0	0.0
Session Logical Read IM:	0.0	0.0
Global Cache blocks received:	9.1	0.6
Global Cache blocks served:	0.8	0.1
User calls:	83.3	5.3
Parses (SQL):	16.2	1.0
Hard parses (SQL):	1.6	0.1
SQL Work Area (MB):	5.1	0.3
Logons:	3.2	0.2
Executes (SQL):	88.4	5.7
Rollbacks:	0.0	0.0
Transactions:	15.6

Buffer Nowait %:	100.00	Redo NoWait %:	100.00
Buffer Hit %:	99.95	In-memory Sort %:	100.00
Library Hit %:	92.94	Soft Parse %:	89.89
Execute to Parse %:	81.71	Latch Hit %:	99.89
Parse CPU to Parse Elapsd %:	90.05	% Non-Parse CPU:	99.86
Flash Cache Hit %:	63.02

Event	Waits	Total Wait Time (sec)	Avg Wait	% DB time	Wait Class
cell smart table scan	15,284,026	57.7K	3.78ms	97.5	User I/O
DB CPU		1404.4		2.4
enq: KO - fast object checkpoint	52,530	175	3.33ms	.3	Application
reliable message	23,295	47.8	2.05ms	.1	Other
PGA memory operation	332,750	21.4	64.45us	.0	Other
log file sync	9,550	7.8	812.13us	.0	Commit
Sync ASM rebalance	31	3.9	126.61ms	.0	Other
cell single block physical read	397	3	7.57ms	.0	User I/O
PX Deq: Join ACK	9,278	1.7	179.55us	.0	Other
acknowledge over PGA limit	138	1.3	9.56ms	.0	Scheduler

Wait Class	Waits	Total Wait Time (sec)	Avg Wait Time	% DB time	Avg Active Sessions
User I/O	15,295,072	57,779	3.78ms	97.6	93.7
DB CPU		1,404		2.4	2.3
System I/O	100,209	182	1.82ms	.3	0.3
Application	53,422	176	3.29ms	.3	0.3
Other	509,653	107	210.54us	.2	0.2
Commit	9,634	8	813.00us	.0	0.0
Scheduler	140	1	9.56ms	.0	0.0
Concurrency	1,809	1	668.07us	.0	0.0
Cluster	5,839	1	132.32us	.0	0.0
Network	42,056	0	1.95us	.0	0.0
Configuration	8	0	42.00us	.0	0.0

CPUs	Cores	Sockets	Load Average Begin	Load Average End	%User	%System	%WIO	%Idle
48	24	2	13.45	4.12	6.3	3.0	0.0	90.4

%Total CPU	%Busy CPU	%DB time waiting for CPU (Resource Manager)
5.3	55.4	0.0

	Read+Write Per Second	Read per Second	Write Per Second
Total Requests:	178,608.0	178,495.3	112.7
Database Requests:	178,568.8	178,491.4	77.4
Optimized Requests:	178,545.1	178,465.3	79.8
Redo Requests:	33.7	0.0	33.7
Total (MB):	44,568.8	44,566.3	2.5
Database (MB):	44,568.9	44,566.5	2.5
Optimized Total (MB):	44,561.5	44,559.1	2.5
Redo (MB):	0.1	0.0	0.1
Database (blocks):	5,704,816.5	5,704,502.3	314.2
Via Buffer Cache (blocks):	328.0	14.9	313.1
Direct (blocks):	5,704,496.2	5,704,495.1	1.0

	Begin	End
Host Mem (MB):	515,503.9	515,503.9
SGA use (MB):	10,016.0	10,016.0
PGA use (MB):	2,109.1	2,056.1
% Host Mem used for SGA+PGA:	2.35	2.34

	Begin	End
Buffer Cache:	M	M	Std Block Size:	8K
Shared Pool Size:	0M	0M	Log Buffer:	K
In-Memory Area:	0M	0M

	Begin	End
Memory Usage %:
% SQL with executions>1:	73.98	70.73
% Memory for SQL w/exec>1:	50.55	67.22

Main Report

RAC Statistics

Wait Events Statistics

Time Model Statistics

Operating System Statistics

Operating System Statistics - Detail

Foreground Wait Class

Foreground Wait Events

Background Wait Events

Wait Event Histogram

Wait Event Histogram (up to 64 us)

Wait Event Histogram (up to 32 ms)

Wait Event Histogram (up to 2 sec)

Wait Event Histogram (up to 2 min)

Wait Event Histogram (up to 1 hr)

Service Statistics

Service Wait Class Stats

Top 10 Channel Waits

SQL Statistics

SQL ordered by Elapsed Time

SQL ordered by CPU Time

SQL ordered by User I/O Wait Time

SQL ordered by Gets

SQL ordered by Reads

SQL ordered by Physical Reads (UnOptimized)

SQL ordered by Offload Eligible Bytes

SQL ordered by Executions

SQL ordered by Parse Calls

SQL ordered by Sharable Memory

SQL ordered by Version Count

SQL ordered by Cluster Wait Time

Complete List of SQL Text

Statistic Name	Time (s)	% of DB Time	% of Total CPU Time
sql execute elapsed time	59,179.51	99.93
DB CPU	1,404.44	2.37	90.28
parse time elapsed	4.69	0.01
hard parse elapsed time	4.45	0.01
hard parse (sharing criteria) elapsed time	1.37	0.00
failed parse elapsed time	0.41	0.00
PL/SQL execution elapsed time	0.27	0.00
PL/SQL compilation elapsed time	0.21	0.00
connection management call elapsed time	0.03	0.00
sequence load elapsed time	0.02	0.00
repeated bind elapsed time	0.02	0.00
DB time	59,223.63
background elapsed time	402.24
background cpu time	151.24		9.72
total CPU time	1,555.68

Statistic	Value	End Value
FREE_MEMORY_BYTES	195,028,525,056	194,971,516,928
INACTIVE_MEMORY_BYTES	26,772,971,520	26,777,305,088
SWAP_FREE_BYTES	25,769,799,680
BUSY_TIME	280,975
IDLE_TIME	2,645,962
IOWAIT_TIME	295
NICE_TIME	3,279
SYS_TIME	88,125
USER_TIME	183,492
LOAD	13	4
PHYSICAL_MEMORY_BYTES	540,545,028,096
NUM_CPUS	48
NUM_CPU_CORES	24
NUM_CPU_SOCKETS	2
GLOBAL_RECEIVE_SIZE_MAX	4,194,304
GLOBAL_SEND_SIZE_MAX	2,097,152
TCP_RECEIVE_SIZE_DEFAULT	87,380
TCP_RECEIVE_SIZE_MAX	6,291,456
TCP_RECEIVE_SIZE_MIN	4,096
TCP_SEND_SIZE_DEFAULT	16,384
TCP_SEND_SIZE_MAX	4,194,304
TCP_SEND_SIZE_MIN	4,096

Snap Time	Load	%busy	%user	%sys	%idle	%iowait
25-Aug 12:45:26	13.45
25-Aug 12:55:43	4.12	9.60	6.27	3.01	90.40	0.01

Wait Class	Waits	%Time -outs	Total Wait Time (s)	Avg wait	%DB time
User I/O	15,284,732	45	57,737	3.78ms	97.49
DB CPU			1,404		2.37
Application	52,654	0	175	3.32ms	0.30
Other	436,678	12	76	174.92us	0.13
Commit	9,550	0	8	812.13us	0.01
Scheduler	138	100	1	9.56ms	0.00
Concurrency	205	1	1	5.48ms	0.00
Cluster	981	0	0	305.50us	0.00
System I/O	226	0	0	797.54us	0.00
Network	42,040	0	0	1.95us	0.00
Configuration	0		0		0.00

Event	Waits	%Time -outs	Total Wait Time (s)	Avg wait	Waits /txn	% DB time
cell smart table scan	15,284,026	45	57,734	3.78ms	1,585.48	97.48
enq: KO - fast object checkpoint	52,530		175	3.33ms	5.45	0.30
reliable message	23,295		48	2.05ms	2.42	0.08
PGA memory operation	332,750		21	64.45us	34.52	0.04
log file sync	9,550		8	812.13us	0.99	0.01
Sync ASM rebalance	31		4	126.61ms	0.00	0.01
cell single block physical read	397		3	7.57ms	0.04	0.01
PX Deq: Join ACK	9,278		2	179.55us	0.96	0.00
acknowledge over PGA limit	138	100	1	9.56ms	0.01	0.00
buffer busy waits	155		1	7.19ms	0.02	0.00
enq: PS - contention	3,700	1	1	149.53us	0.38	0.00
PX Deq: Slave Session Stats	5,650		0	81.29us	0.59	0.00
PX Deq: reap credit	52,133	100	0	6.04us	5.41	0.00
cell statistics gather	224		0	812.69us	0.02	0.00
control file sequential read	226		0	797.54us	0.02	0.00
gc current grant 2-way	116		0	1.09ms	0.01	0.00
Disk file Mirror Read	57		0	2.03ms	0.01	0.00
PX Deq: Signal ACK EXT	3,712		0	27.16us	0.39	0.00
SQL*Net message to client	41,450		0	1.65us	4.30	0.00
gc current block 2-way	345		0	147.82us	0.04	0.00
gc current grant busy	74		0	650.86us	0.01	0.00
ADR block file read	36		0	1.14ms	0.00	0.00
gc current block busy	237		0	157.88us	0.02	0.00
IPC send completion sync	5,662		0	6.24us	0.59	0.00
latch free	286		0	102.50us	0.03	0.00
ASM file metadata operation	5		0	5.63ms	0.00	0.00
gc cr block 2-way	124		0	148.70us	0.01	0.00
enq: IV - contention	52	4	0	294.15us	0.01	0.00
SQL*Net more data to client	467		0	20.11us	0.05	0.00
row cache lock	20		0	340.80us	0.00	0.00
direct path write	2		0	2.99ms	0.00	0.00
gc cr multi block mixed	32		0	180.53us	0.00	0.00
gc cr block busy	10		0	511.30us	0.00	0.00
TCP Socket (KGAS)	123		0	35.53us	0.01	0.00
gc cr disk read	28		0	154.04us	0.00	0.00
SQL*Net break/reset to client	124		0	30.98us	0.01	0.00
Disk file operations I/O	22		0	130.73us	0.00	0.00
cell multiblock physical read	4		0	569.25us	0.00	0.00
gc cr grant 2-way	12		0	186.92us	0.00	0.00
enq: WF - contention	12		0	175.08us	0.00	0.00
latch: shared pool	12		0	120.25us	0.00	0.00
ADR block file write	10		0	115.00us	0.00	0.00
SQL*Net message from client	41,473		2,884	69.53ms	4.30
watchdog main loop	410		1,230	3000.04ms	0.04
PL/SQL lock timer	124	100	969	7818.38ms	0.01
PX Deq: Execute Reply	3,873		222	57.37ms	0.40
PX Deq: Execution Msg	5,815		171	29.43ms	0.60
jobq slave wait	120	100	60	500.02ms	0.01
PX Deq: Parse Reply	3,712		1	238.54us	0.39
PX Deq: Msg Fragment	500		0	84.80us	0.05
PX Deq Credit: send blkd	101		0	147.32us	0.01

Event	Waits	%Time -outs	Total Wait Time (s)	Avg wait	Waits /txn	% bg time
db file parallel write	45,561	0	150	3.29ms	4.73	37.26
cell single block physical read	8,681	0	35	4.05ms	0.90	8.73
control file sequential read	2,935	0	18	6.00ms	0.30	4.38
RMA: IPC0 completion sync	644	0	12	19.38ms	0.07	3.10
log file parallel write	20,810	0	10	501.34us	2.16	2.59
Sync ASM rebalance	143	0	7	51.92ms	0.01	1.85
Disk file Mirror Read	908	0	4	4.24ms	0.09	0.96
control file parallel write	322	0	4	11.52ms	0.03	0.92
IMR slave acknowledgement msg	1,845	0	3	1.68ms	0.19	0.77
LGWR all worker groups	3,994	0	2	602.40us	0.41	0.60
oracle thread bootstrap	56	0	2	33.90ms	0.01	0.47
cell multiblock physical read	50	0	2	30.79ms	0.01	0.38
reliable message	273	0	1	3.78ms	0.03	0.26
direct path write temp	300	0	1	2.92ms	0.03	0.22
enq: RO - fast object reuse	496	0	1	1.43ms	0.05	0.18
enq: CF - contention	33	64	1	20.97ms	0.00	0.17
LGWR any worker group	696	0	0	423.61us	0.07	0.07
gc cr block 2-way	2,542	0	0	114.01us	0.26	0.07
ASM file metadata operation	591	0	0	390.81us	0.06	0.06
gc current block 2-way	2,212	0	0	74.94us	0.23	0.04
PGA memory operation	9,740	0	0	16.57us	1.01	0.04
LGWR worker group ordering	700	0	0	184.13us	0.07	0.03
ksxr poll remote instances	23,457	100	0	4.88us	2.43	0.03
enq: IV - contention	457	4	0	249.33us	0.05	0.03
os thread creation	56	0	0	1.88ms	0.01	0.03
AQ: RAC AQ Network	6,156	100	0	16.78us	0.64	0.03
PX Deq: reap credit	11,187	100	0	7.72us	1.16	0.02
log file sync	84	0	0	911.75us	0.01	0.02
PX Deq: Slave Join Frag	3,876	0	0	19.43us	0.40	0.02
PX Deq: Signal ACK EXT	103	0	0	666.69us	0.01	0.02
PX Deq: Join ACK	258	0	0	247.94us	0.03	0.02
DFS lock handle	514	100	0	123.86us	0.05	0.02
CSS initialization	24	0	0	2.49ms	0.00	0.01
CGS wait for IPC msg	6,106	100	0	8.93us	0.63	0.01
Disk file operations I/O	396	0	0	110.71us	0.04	0.01
enq: KO - fast object checkpoint	270	0	0	151.37us	0.03	0.01
row cache mutex	37	0	0	1.07ms	0.00	0.01
db file async I/O submit	30,325	0	0	1.23us	3.15	0.01
CSS operation: action	48	0	0	542.23us	0.00	0.01
CSS operation: data query	40	0	0	615.70us	0.00	0.01
kfk: async disk IO	2	0	0	12.15ms	0.00	0.01
libcache interrupt action by LCK	1,484	0	0	15.94us	0.15	0.01
latch free	192	0	0	115.01us	0.02	0.01
KSV master wait	513	80	0	42.68us	0.05	0.01
row cache lock	71	8	0	289.25us	0.01	0.01
enq: PS - contention	103	4	0	194.53us	0.01	0.00
direct path write	5	0	0	3.92ms	0.00	0.00
acknowledge over PGA limit	2	100	0	9.66ms	0.00	0.00
log file sequential read	5	0	0	3.39ms	0.00	0.00
CSS operation: query	72	0	0	183.81us	0.01	0.00
IPC send completion sync	772	80	0	11.31us	0.08	0.00
gc current block busy	51	0	0	154.55us	0.01	0.00
CSS operation: data update	11	0	0	707.82us	0.00	0.00
PX Deq: Slave Session Stats	103	0	0	45.59us	0.01	0.00
ges inquiry response	20	0	0	233.30us	0.00	0.00
gc current grant 2-way	20	0	0	186.75us	0.00	0.00
gcs log flush sync	10	0	0	227.50us	0.00	0.00
latch: messages	42	0	0	53.60us	0.00	0.00
gc cr disk read	11	0	0	172.00us	0.00	0.00
gc current grant busy	13	0	0	125.54us	0.00	0.00
rdbms ipc message	296,775	4	17,691	59.61ms	30.79
Space Manager: slave idle wait	1,013	0	4,389	4332.59ms	0.11
class slave wait	13,351	92	4,312	322.94ms	1.38
EMON slave idle wait	616	100	3,080	5000.01ms	0.06
wait for unread message on broadcast channel	4,690	100	2,224	474.30ms	0.49
LMS CR slave timer	183,447	0	1,848	10.08ms	19.03
gcs remote message	140,346	0	1,845	13.14ms	14.56
GCR sleep	4,105	0	1,232	300.08ms	0.43
pmon timer	410	100	1,230	2999.84ms	0.04
ges remote message	224,214	0	1,227	5.47ms	23.26
LGWR worker group idle	20,158	0	1,219	60.47ms	2.09
DIAG idle wait	8,158	77	1,217	149.19ms	0.85
PX Idle Wait	1,938	0	998	514.83ms	0.20
Data Guard: Gap Manager	11	0	660	60.00 s	0.00
Streams AQ: load balancer idle	14	100	630	45.01 s	0.00
PING	58	100	625	10.78 s	0.01
Streams AQ: emn coordinator idle wait	62	100	620	10.00 s	0.01
lreg timer	206	100	619	3002.43ms	0.02
heartbeat redo informer	617	0	617	1000.07ms	0.06
SCM slave idle	6,165	0	616	99.99ms	0.64
REPL Capture/Apply: RAC AQ qmn coordinator	11	100	616	56.04 s	0.00
ASM cluster membership changes	352	91	616	1750.25ms	0.04
Streams AQ: qmn coordinator idle wait	45	0	616	13.69 s	0.00
Streams AQ: qmn slave idle wait	23	0	616	26.78 s	0.00
OFS idle	205	100	615	3000.05ms	0.02
pman timer	205	100	615	2999.76ms	0.02
ASM background timer	395	0	614	1555.09ms	0.04
dispatcher timer	10	100	600	60.01 s	0.00
AQPC idle	20	100	600	30.00 s	0.00
Data Guard: Timer	1	0	600	600.00 s	0.00
smon timer	2	50	568	283.80 s	0.00
PX Deq: Execute Reply	103	0	4	42.05ms	0.01
PX Deq: Parse Reply	103	0	1	14.08ms	0.01
PX Deq Credit: send blkd	506	0	0	529.03us	0.05
SQL*Net message from client	20	0	0	316.95us	0.00

		% of Total Waits
Event	Total Waits	<8us	<16us	<32us	<64us	<128us	<256us	<512us	>=512us
ADR block file read	36				2.8	38.9	38.9		19.4
ADR block file write	10				30.0	50.0	20.0
ADR file lock	12	50.0		33.3	16.7
AQ: RAC AQ Network	6152	4.2	49.8	44.6	1.3	.0
ASM file metadata operation	600	16.0	1.8	4.0	1.0	3.2	34.2	37.8	2.0
AWR Flush	3	100.0
CGS wait for IPC msg	6102	16.8	75.6	7.4	.2	.0
CSS initialization	24			12.5	37.5				50.0
CSS operation: action	48				2.1	18.8	4.2	4.2	70.8
CSS operation: data query	40						12.5	62.5	25.0
CSS operation: data update	11								100.0
CSS operation: query	72	83.3							16.7
DFS lock handle	514					68.9	29.0	2.1
Disk file Mirror Read	966						8.1	60.1	31.8
Disk file operations I/O	418	16.5	1.7	50.2	20.6	1.7	3.8	4.8	.7
GCR CSS group query	40	100.0
GCR CSS group update	11	100.0
IMR slave acknowledgement msg	1851	3.2	.4	22.7	25.9	14.3	.1	13.2	20.1
IPC send completion sync	6456	76.7	19.3	3.8	.1			.0
KSV master wait	513	71.9	5.5	3.1	14.8	3.7	.4		.6
LGWR all worker groups	3999	.0	.2	.6	1.2	3.2	5.7	54.0	35.0
LGWR any worker group	696	.1	2.4	4.3	6.2	12.6	19.8	30.5	24.0
LGWR wait for redo copy	2		50.0	50.0
LGWR worker group ordering	701	3.7	5.3	20.1	39.9	11.7	4.9	5.0	9.4
PGA memory operation	342.8K	39.7	12.9	6.0	3.2	14.2	22.7	1.1	.2
PX Deq: Join ACK	9571	1.7	.3	1.0	28.7	25.8	19.3	13.5	9.8
PX Deq: Signal ACK EXT	3831	15.9	42.1	16.3	9.8	12.3	1.9	.5	1.3
PX Deq: Slave Join Frag	3890	49.2	.1	18.3	30.5	1.6	.3
PX Deq: Slave Session Stats	5777	20.8	2.6	3.7	30.1	19.0	20.4	2.9	.4
PX Deq: reap credit	63.5K	69.7	26.3	3.9	.2	.0			.0
PX qref latch	15	86.7	13.3
RMA: IPC0 completion sync	644	.2	.5	2.5	.3				96.6
SQL*Net break/reset to client	122	48.4	1.6		37.7	12.3
SQL*Net message to client	41.5K	98.8	1.0	.2	.0	.0
SQL*Net more data to client	467		25.1	64.7	10.3
Sync ASM rebalance	174	20.7	20.7	4.0	2.9	4.6	4.6	4.6	37.9
TCP Socket (KGAS)	124			36.3	62.9	.8
acknowledge over PGA limit	141								100.0
buffer busy waits	155	.6	5.8	24.5	6.5	3.9	5.2	10.3	43.2
cell multiblock physical read	54						7.4	22.2	70.4
cell single block physical read	9069						5.3	57.2	37.5
cell smart table scan	15.3M	38.4	5.0	6.1	3.3	6.9	7.5	6.5	26.3
cell statistics gather	224					16.5	50.9	8.5	24.1
control file parallel write	322							4.7	95.3
control file sequential read	3163	4.1	12.4	13.4	.7		16.5	27.1	25.8
cursor: mutex X	10	70.0	20.0	10.0
db file async I/O submit	30.3K	98.7	1.2	.2	.0	.0
db file parallel write	45.6K	.9	.7	5.9	1.7	1.5	7.1	17.7	64.4
direct path write	7							14.3	85.7
direct path write temp	300						16.3	34.7	49.0
enq: AF - task serialization	1						100.0
enq: CF - contention	33					18.2	51.5	24.2	6.1
enq: DR - contention	1						100.0
enq: FB - contention	2						100.0
enq: IV - contention	510					21.8	41.4	25.9	11.0
enq: JS - job run lock - synchronize	1							100.0
enq: KO - fast object checkpoint	52.9K				.0	29.6	34.1	5.7	30.6
enq: PS - contention	3820			.9	13.2	22.6	54.0	9.2	.1
enq: RO - fast object reuse	496					22.6	49.6	11.9	15.9
enq: SM - contention	1						100.0
enq: TA - contention	2						100.0
enq: TD - KTF dump entries	2						100.0
enq: TM - contention	2						50.0	50.0
enq: TO - contention	3						66.7	33.3
enq: US - contention	2					50.0	50.0
enq: WF - contention	12					8.3	91.7
gc cr block 2-way	2661		.0		9.3	58.4	30.3	1.9	.0
gc cr block busy	7							28.6	71.4
gc cr disk read	33					33.3	63.6	3.0
gc cr grant 2-way	17				5.9	11.8	76.5	5.9
gc cr multi block mixed	32					31.3	56.3	9.4	3.1
gc current block 2-way	2533			.0	33.4	55.5	9.3	1.7	.0
gc current block busy	281				1.4	35.2	55.2	7.8	.4
gc current grant 2-way	128					28.9	50.0	12.5	8.6
gc current grant busy	79				6.3	41.8	40.5	6.3	5.1
gc current multi block request	5						20.0	80.0
gcs log flush sync	16	6.3	6.3		6.3	25.0	25.0	31.3
gcs resource directory to be unfrozen	1	100.0
ges inquiry response	20					10.0	50.0	40.0
ges resource directory to be unfrozen	60	98.3	1.7
kfk: async disk IO	2								100.0
ksxr poll remote instances	23.5K	89.1	9.0	1.8	.0	.0	.0
latch free	476	4.8	22.3	21.2	12.8	6.9	25.0	4.4	2.5
latch: enqueue hash chains	1		100.0
latch: gcs resource hash	1	100.0
latch: ges resource hash list	23	13.0	34.8	26.1	21.7	4.3
latch: messages	44	9.1	27.3	34.1	15.9	2.3	2.3	9.1
latch: object queue header operation	6		50.0	33.3	16.7
latch: redo allocation	2			50.0	50.0
latch: redo writing	8		37.5	25.0	12.5	12.5	12.5
latch: shared pool	12		16.7	25.0		33.3	8.3	16.7
latch: undo global data	10	10.0	10.0	20.0	40.0	10.0		10.0
libcache interrupt action by LCK	1487	64.6	3.4	11.2	12.9	6.6	1.3
library cache lock	6					33.3	33.3	33.3
library cache pin	6					50.0	50.0
library cache: mutex X	4	50.0	25.0	25.0
log file parallel write	20.9K		.0		.0	.1	26.5	48.2	25.2
log file sequential read	5	20.0						60.0	20.0
log file sync	9645							33.3	66.7
oracle thread bootstrap	56								100.0
os thread creation	56								100.0
reliable message	23.6K						2.9	5.7	91.5
row cache lock	90						34.4	64.4	1.1
row cache mutex	37	59.5	24.3	5.4					10.8
undo segment extension	2	50.0							50.0
undo_retention publish retry	2	100.0
AQPC idle	20								100.0
ASM background timer	398						.5	.5	99.0
ASM cluster membership changes	352								100.0
DIAG idle wait	8154	14.6	3.6	2.2	.5	.0	.6	.6	77.9
Data Guard: Gap Manager	11								100.0
Data Guard: Timer	1								100.0
EMON slave idle wait	615								100.0
GCR sleep	4102								100.0
LGWR worker group idle	20.2K	.0	.2	.4	2.1	1.5	2.6	3.9	89.3
LMS CR slave timer	183.3K								100.0
OFS idle	205								100.0
PING	58		10.3	3.4					86.2
PL/SQL lock timer	124								100.0
PX Deq Credit: need buffer	2	50.0	50.0
PX Deq Credit: send blkd	607	22.6	6.4	14.7	34.8	4.0	3.8	5.3	8.6
PX Deq: Execute Reply	3992	13.2	2.1	2.2	5.3	3.2	3.4	28.7	42.0
PX Deq: Execution Msg	5836	3.8	.1	.2	3.2	12.3	43.1	20.3	16.9
PX Deq: Msg Fragment	500	22.8	.4	.4	14.6	48.4	7.4	5.6	.4
PX Deq: Parse Reply	3829	10.1	1.5	1.8	9.2	17.6	10.5	39.1	10.2
PX Idle Wait	1945							.1	99.9
REPL Capture/Apply: RAC AQ qmn coordinator	11								100.0
SCM slave idle	6161								100.0
SQL*Net message from client	41.5K			.0	.0	11.2	26.0	40.4	22.3
Space Manager: slave idle wait	1013	.2	.1	.4	1.3		.2	.3	97.5
Streams AQ: emn coordinator idle wait	62								100.0
Streams AQ: load balancer idle	14								100.0
Streams AQ: qmn coordinator idle wait	45	2.2				46.7	2.2		48.9
Streams AQ: qmn slave idle wait	23	4.3							95.7
class slave wait	13.3K	1.0	.2	.5	.8	.4	.0	.0	97.0
dispatcher timer	10								100.0
gcs remote message	140.5K	22.2	.9	.4	.6	1.1	1.2	2.5	71.0
ges remote message	224.3K	2.8	2.4	1.7	1.9	3.3	6.7	13.6	67.7
heartbeat redo informer	617								100.0
jobq slave wait	120								100.0
lreg timer	205								100.0
pman timer	205								100.0
pmon timer	411								100.0
rdbms ipc message	297.8K	19.2	1.5	3.8	5.8	4.4	5.5	10.0	49.7
smon timer	3								100.0
wait for unread message on broadcast channel	4686								100.0
watchdog main loop	410								100.0

		% of Total Waits
Event	Waits 1us - 64us	<1us	<2us	<4us	<8us	<16us	<32us	<64us	>=64us
ADR block file read	1							2.8	97.2
ADR block file write	3							30.0	70.0
ADR file lock	12		33.3	16.7			33.3	16.7
AQ: RAC AQ Network	6150				4.2	49.8	44.6	1.3	.0
ASM file metadata operation	137		7.0	8.8	.2	1.8	4.0	1.0	77.2
AWR Flush	3		100.0
CGS wait for IPC msg	6101		.3	7.7	8.9	75.6	7.4	.2	.0
CSS initialization	12						12.5	37.5	50.0
CSS operation: action	1							2.1	97.9
CSS operation: query	60	37.5	12.5	31.9	1.4				16.7
Disk file operations I/O	372	.2	5.0	3.3	7.9	1.7	50.2	20.6	11.0
GCR CSS group query	40			10.0	90.0
GCR CSS group update	11			81.8	18.2
IMR slave acknowledgement msg	967		.5	1.9	.7	.4	22.7	25.9	47.8
IPC send completion sync	6455			6.7	70.0	19.3	3.8	.1	.0
KSV master wait	489			30.6	41.3	5.5	3.1	14.8	4.7
LGWR all worker groups	80				.0	.2	.6	1.2	98.0
LGWR any worker group	91				.1	2.4	4.3	6.2	86.9
LGWR wait for redo copy	2					50.0	50.0
LGWR worker group ordering	484	1.0	2.3	.3	.1	5.3	20.1	39.9	31.0
PGA memory operation	211.8K		.1	16.2	23.5	12.9	6.0	3.2	38.2
PX Deq: Join ACK	3030	.1	.4	.4	.7	.3	1.0	28.7	68.3
PX Deq: Signal ACK EXT	3219			.2	15.6	42.1	16.3	9.8	16.0
PX Deq: Slave Join Frag	3817	30.0	19.0	.1	.1	.1	18.3	30.5	1.9
PX Deq: Slave Session Stats	3307	.7	5.2	3.8	11.1	2.6	3.7	30.1	42.8
PX Deq: reap credit	63.5K		6.2	24.9	38.5	26.3	3.9	.2	.0
PX qref latch	15		6.7	40.0	40.0	13.3
RMA: IPC0 completion sync	22				.2	.5	2.5	.3	96.6
SQL*Net break/reset to client	107			20.5	27.9	1.6		37.7	12.3
SQL*Net message to client	41.5K	1.5	49.5	47.5	.3	1.0	.2	.0	.0
SQL*Net more data to client	467					25.1	64.7	10.3
Sync ASM rebalance	84			2.9	17.8	20.7	4.0	2.9	51.7
TCP Socket (KGAS)	123						36.3	62.9	.8
buffer busy waits	58				.6	5.8	24.5	6.5	62.6
cell smart table scan	8.1M	.4	.2	.7	37.1	5.0	6.1	3.3	47.2
control file sequential read	966				4.1	12.4	13.4	.7	69.5
cursor: mutex X	10				70.0	20.0	10.0
db file async I/O submit	30.3K	9.0	76.8	11.5	1.3	1.2	.2	.0	.0
db file parallel write	4211				.9	.7	5.9	1.7	90.8
enq: KO - fast object checkpoint	7							.0	100.0
enq: PS - contention	539						.9	13.2	85.9
gc cr block 2-way	248					.0		9.3	90.7
gc cr grant 2-way	1							5.9	94.1
gc current block 2-way	848						.0	33.4	66.5
gc current block busy	4							1.4	98.6
gc current grant busy	5							6.3	93.7
gcs log flush sync	3			6.3		6.3		6.3	81.3
gcs resource directory to be unfrozen	1		100.0
ges resource directory to be unfrozen	60	28.3	70.0			1.7
ksxr poll remote instances	23.5K			26.5	62.6	9.0	1.8	.0	.0
latch free	291		.2	2.1	2.5	22.3	21.2	12.8	38.9
latch: enqueue hash chains	1					100.0
latch: gcs resource hash	1		100.0
latch: ges resource hash list	22				13.0	34.8	26.1	21.7	4.3
latch: messages	38				9.1	27.3	34.1	15.9	13.6
latch: object queue header operation	6					50.0	33.3	16.7
latch: redo allocation	2						50.0	50.0
latch: redo writing	6					37.5	25.0	12.5	25.0
latch: shared pool	5					16.7	25.0		58.3
latch: undo global data	8				10.0	10.0	20.0	40.0	20.0
libcache interrupt action by LCK	1370	39.3	24.0	1.1	.1	3.4	11.2	12.9	7.9
library cache: mutex X	4				50.0	25.0	25.0
log file parallel write	2					.0		.0	100.0
log file sequential read	1			20.0					80.0
row cache mutex	33			2.7	56.8	24.3	5.4		10.8
undo segment extension	1				50.0				50.0
undo_retention publish retry	2		50.0	50.0

		% of Total Waits
Event	Waits 1ms to 32ms	<512us	<1ms	<2ms	<4ms	<8ms	<16ms	<32ms	>=32ms
ADR block file read	7	80.6				19.4
ASM file metadata operation	10	98.0	.7	.3		.3		.3	.3
CSS initialization	12	50.0				50.0
CSS operation: action	34	29.2	70.8
CSS operation: data query	10	75.0	15.0	7.5		2.5
CSS operation: data update	11		100.0
CSS operation: query	12	83.3	15.3			1.4
Disk file Mirror Read	284	68.2	6.8	3.5	3.5	5.3	5.7	4.6	2.4
Disk file operations I/O	3	99.3	.2	.2				.2
IMR slave acknowledgement msg	352	79.9	10.3	1.6	1.3	2.2	1.7	1.9	1.1
KSV master wait	3	99.4		.2		.4
LGWR all worker groups	1400	65.0	22.8	9.6	2.1	.5	.1
LGWR any worker group	167	76.0	15.4	6.5	1.9	.3
LGWR worker group ordering	66	90.6	5.1	2.6	1.6	.1
PGA memory operation	663	99.8	.2	.0	.0	.0
PX Deq: Join ACK	936	90.2	9.8	.0
PX Deq: Signal ACK EXT	50	98.7	.1	1.2
PX Deq: Slave Session Stats	25	99.6	.4
PX Deq: reap credit	2	100.0	.0
RMA: IPC0 completion sync	622	3.4			.2			96.4
Sync ASM rebalance	33	62.1	3.4			2.3	9.8	3.4	19.0
acknowledge over PGA limit	141						100.0
buffer busy waits	56	56.8	7.7	6.5	4.5	6.5	6.5	4.5	7.1
cell multiblock physical read	30	29.6	7.4	5.6	7.4	16.7	9.3	9.3	14.8
cell single block physical read	3158	62.5	10.6	7.3	5.4	5.7	3.6	2.4	2.7
cell smart table scan	3.7M	73.7	6.6	6.2	4.7	3.1	2.1	1.4	2.1
cell statistics gather	54	75.9	4.5	7.1	8.9	2.2	1.3
control file parallel write	298	4.7	4.3	3.1	2.5	21.4	60.2	.9	2.8
control file sequential read	697	74.2	4.2	3.3	3.2	5.2	3.6	2.6	3.8
db file parallel write	29.2K	35.6	13.4	11.1	10.1	18.2	10.9	.4	.3
direct path write	6	14.3	14.3	14.3	14.3	28.6	14.3
direct path write temp	147	51.0	6.3	6.0	5.7	18.0	13.0
enq: IV - contention	56	89.0	11.0
enq: KO - fast object checkpoint	15.7K	69.4	2.7	3.2	3.4	7.4	10.6	2.3	.8
enq: PS - contention	3	99.9	.1
enq: RO - fast object reuse	74	84.1	5.6	2.2	2.2	1.8	2.2	.8	1.0
gc cr block 2-way	1	100.0	.0
gc cr block busy	5	28.6	71.4
gc cr multi block mixed	1	96.9	3.1
gc current block 2-way	1	100.0	.0
gc current block busy	1	99.6	.4
gc current grant 2-way	10	91.4	3.1		2.3	1.6	.8		.8
gc current grant busy	4	94.9		1.3		1.3	1.3	1.3
kfk: async disk IO	2					50.0		50.0
latch free	12	97.5	1.7	.2	.6
log file parallel write	5260	74.8	15.4	7.8	1.7	.3	.0
log file sequential read	1	80.0					20.0
log file sync	6437	33.3	48.1	14.6	3.3	.7	.0
oracle thread bootstrap	11							19.6	80.4
os thread creation	56			83.9	16.1
reliable message	21.4K	8.5	54.0	33.8	1.6	.3	.5	.3	1.0
row cache lock	1	98.9	1.1
row cache mutex	4	89.2					10.8
undo segment extension	1	50.0					50.0

		% of Total Waits
Event	Waits 64ms to 2s	<32ms	<64ms	<1/8s	<1/4s	<1/2s	<1s	<2s	>=2s
ASM file metadata operation	2	99.7	.3
Disk file Mirror Read	23	97.6	1.8	.4	.2
IMR slave acknowledgement msg	20	98.9	.8	.2	.1
Sync ASM rebalance	32	81.0	3.4	3.4	5.2	4.0	2.3		.6
buffer busy waits	11	92.9	4.5	2.6
cell multiblock physical read	8	85.2	1.9	7.4	1.9	3.7
cell single block physical read	244	97.3	1.4	.8	.4	.1
cell smart table scan	326.5K	97.9	.9	.5	.5	.2	.0	.0
control file parallel write	9	97.2	.6	.9	1.2
control file sequential read	120	96.2	1.8	1.2	.5	.3
db file parallel write	141	99.7	.1	.1	.1	.0
enq: CF - contention	2	93.9			3.0	3.0
enq: KO - fast object checkpoint	434	99.2	.4	.2	.2	.1	.0
enq: RO - fast object reuse	5	99.0	.6	.4
gc current grant 2-way	1	99.2		.8
oracle thread bootstrap	45	19.6	80.4
reliable message	233	99.0	.4	.4	.1	.1

		% of Total Waits
Event	Waits 4s to 2m	<2s	<4s	<8s	<16s	<32s	< 1m	< 2m	>=2m
Sync ASM rebalance	1	99.4	.6

Service Name	DB Time (s)	DB CPU (s)	Physical Reads (K)	Logical Reads (K)
conndemo	58,501	1,299	3,498,527	3,518,280
SYS$USERS	95	86	0	75
SYS$BACKGROUND	5	5	9	84
conndemo2	0	0	0	0
conndemoXDB	0	0	0	0
conndemo_scan	0	0	0	0

Service Name	User I/O Total Wts	User I/O Wt Time	Concurcy Total Wts	Concurcy Wt Time	Network Total Wts
conndemo	15191110	57399	167	1	40220
SYS$USERS	551	1	33	0	1579
SYS$BACKGROUND	10305	41	1558	0	0
conndemo2	0	0	0	0	0
conndemo_scan	0	0	0	0	0

Channel	Waits	Total Wait Time (s)	Avg Wait
GEN0 ksbxic channel	9	0	424.33us
RBR channel	73	0	268.05us
kxfp control signal channel	1,898	1	311.79us
obj broadcast channel	21,495	48	2.24ms

Elapsed Time (s)	Executions	Elapsed Time per Exec (s)	%Total	%CPU	%IO	SQL Id	SQL Module	SQL Text
23,919.67	7,825	3.06	40.39	2.10	98.15	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
23,805.55	7,816	3.05	40.20	2.18	98.10	1apy6ht1czbj8	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET WFDETAILI...
2,492.50	815	3.06	4.21	2.11	98.15	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
2,419.78	805	3.01	4.09	2.13	98.13	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
2,381.27	800	2.98	4.02	2.13	97.95	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
2,370.96	804	2.95	4.00	2.13	98.09	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
619.48	811	0.76	1.05	5.10	92.88	7f3hgty7qb86g	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC_detail set ...
219.58	805	0.27	0.37	3.73	92.83	700kd06ujjzmc	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC SET FinishB...
219.50	815	0.27	0.37	3.73	92.57	4xujvn21qwxn7	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT BonusCount, LineCost FR...
55.31	610	0.09	0.09	97.83	0.00	0rc74p3yhj9bj	JDBC Thin Client	SELECT SUM(VALUE) FROM GV$SYSS...

CPU Time (s)	Executions	CPU per Exec (s)	%Total	Elapsed Time (s)	%CPU	%IO	SQL Id	SQL Module	SQL Text
518.53	7,816	0.07	36.92	23,805.55	2.18	98.10	1apy6ht1czbj8	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET WFDETAILI...
502.92	7,825	0.06	35.81	23,919.67	2.10	98.15	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
54.11	610	0.09	3.85	55.31	97.83	0.00	0rc74p3yhj9bj	JDBC Thin Client	SELECT SUM(VALUE) FROM GV$SYSS...
52.64	815	0.06	3.75	2,492.50	2.11	98.15	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
51.53	805	0.06	3.67	2,419.78	2.13	98.13	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
50.84	800	0.06	3.62	2,381.27	2.13	97.95	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
50.52	804	0.06	3.60	2,370.96	2.13	98.09	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
40.19	49	0.82	2.86	46.35	86.71	7.87	1y4f4wtu63797	MMON_SLAVE	WITH MONITOR_DATA AS (SELECT I...
36.80	50	0.74	2.62	43.61	84.38	9.58	fhf8upax5cxsz	MMON_SLAVE	BEGIN sys.dbms_auto_report_int...
36.12	49	0.74	2.57	42.36	85.27	8.71	0w26sk6t6gq98	MMON_SLAVE	SELECT XMLTYPE(DBMS_REPORT.GET...
32.19	50	0.64	2.29	34.55	93.16	6.62	8mdz49zkajhw3	MMON_SLAVE	SELECT /*+ OPT_PARAM('_fix_con...
31.58	811	0.04	2.25	619.48	5.10	92.88	7f3hgty7qb86g	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC_detail set ...
20.29	0		1.44	23.75	85.43	0.00	apqrms2c1kc9p	JDBC Thin Client	BEGIN :1 := mon_db.startup(int...

User I/O Time (s)	Executions	UIO per Exec (s)	%Total	Elapsed Time (s)	%CPU	%IO	SQL Id	SQL Module	SQL Text
23,476.84	7,825	3.00	40.63	23,919.67	2.10	98.15	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
23,352.34	7,816	2.99	40.42	23,805.55	2.18	98.10	1apy6ht1czbj8	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET WFDETAILI...
2,446.47	815	3.00	4.23	2,492.50	2.11	98.15	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
2,374.62	805	2.95	4.11	2,419.78	2.13	98.13	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
2,332.41	800	2.92	4.04	2,381.27	2.13	97.95	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
2,325.71	804	2.89	4.03	2,370.96	2.13	98.09	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
575.39	811	0.71	1.00	619.48	5.10	92.88	7f3hgty7qb86g	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC_detail set ...
203.85	805	0.25	0.35	219.58	3.73	92.83	700kd06ujjzmc	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC SET FinishB...
203.20	815	0.25	0.35	219.50	3.73	92.57	4xujvn21qwxn7	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT BonusCount, LineCost FR...
4.18	50	0.08	0.01	43.61	84.38	9.58	fhf8upax5cxsz	MMON_SLAVE	BEGIN sys.dbms_auto_report_int...

Buffer Gets	Executions	Gets per Exec	%Total	Elapsed Time (s)	%CPU	%IO	SQL Id	SQL Module	SQL Text
1,297,369,490	7,816	165,988.93	36.66	23,805.55	2.2	98.1	1apy6ht1czbj8	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET WFDETAILI...
1,295,427,714	7,825	165,549.87	36.60	23,919.67	2.1	98.1	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
352,318,478	811	434,424.76	9.95	619.48	5.1	92.9	7f3hgty7qb86g	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC_detail set ...
135,105,662	815	165,773.82	3.82	2,492.50	2.1	98.2	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
133,647,010	804	166,227.62	3.78	2,370.96	2.1	98.1	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
133,432,820	805	165,755.06	3.77	2,419.78	2.1	98.1	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
132,989,903	800	166,237.38	3.76	2,381.27	2.1	97.9	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
16,139,344	815	19,802.88	0.46	219.50	3.7	92.6	4xujvn21qwxn7	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT BonusCount, LineCost FR...
16,002,023	805	19,878.29	0.45	219.58	3.7	92.8	700kd06ujjzmc	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC SET FinishB...
70,124	0		0.00	10.25	49.3	13.2	56vd37c105kc2	sqlplus@scao08adm04.us.oracle.com (TNS V1-V3)	begin dbms_workload_repository...

Physical Reads	Executions	Reads per Exec	%Total	Elapsed Time (s)	%CPU	%IO	SQL Id	SQL Module	SQL Text
1,292,267,424	7,816	165,336.16	36.72	23,805.55	2.18	98.10	1apy6ht1czbj8	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET WFDETAILI...
1,290,262,675	7,825	164,889.80	36.66	23,919.67	2.10	98.15	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
345,211,046	811	425,660.97	9.81	619.48	5.10	92.88	7f3hgty7qb86g	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC_detail set ...
134,558,953	815	165,103.01	3.82	2,492.50	2.11	98.15	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
133,114,474	804	165,565.27	3.78	2,370.96	2.13	98.09	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
132,888,878	805	165,079.35	3.78	2,419.78	2.13	98.13	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
132,456,230	800	165,570.29	3.76	2,381.27	2.13	97.95	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
16,082,168	815	19,732.72	0.46	219.50	3.73	92.57	4xujvn21qwxn7	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT BonusCount, LineCost FR...
15,943,510	805	19,805.60	0.45	219.58	3.73	92.83	700kd06ujjzmc	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC SET FinishB...
934	50	18.68	0.00	43.61	84.38	9.58	fhf8upax5cxsz	MMON_SLAVE	BEGIN sys.dbms_auto_report_int...

UnOptimized Read Reqs	Physical Read Reqs	Executions	UnOptimized Reqs per Exec	%Opt	%Total	SQL Id	SQL Module	SQL Text
2,759	40,377,908	7,825	0.35	99.99	14.32	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
816	4,211,939	815	1.00	99.98	4.24	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
524	4,159,718	805	0.65	99.99	2.72	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
432	4,146,126	800	0.54	99.99	2.24	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
152	4,166,719	804	0.19	100.00	0.79	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
150	1,200	49	3.06	87.50	0.78	0w26sk6t6gq98	MMON_SLAVE	SELECT XMLTYPE(DBMS_REPORT.GET...
150	1,234	50	3.00	87.84	0.78	fhf8upax5cxsz	MMON_SLAVE	BEGIN sys.dbms_auto_report_int...
149	1,190	49	3.04	87.48	0.77	1y4f4wtu63797	MMON_SLAVE	WITH MONITOR_DATA AS (SELECT I...
49	415	0		88.19	0.25	56vd37c105kc2	sqlplus@scao08adm04.us.oracle.com (TNS V1-V3)	begin dbms_workload_repository...
48	161	1	48.00	70.19	0.25	6ajkhukk78nsr		begin prvt_hdm.auto_execute( :...

Offload Elig (GB)	Inter connect(GB)	Uncompress (GB)	%Ret SS	Executions	%Cell Eff	%Total	SQL Id	SQL Module	SQL Text
9,838.96	33.81	1.21	92.62	7,825	-0.31	36.64	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
2,637.00	0.31	2.99	1148.11	811	-0.02	9.82	7f3hgty7qb86g	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC_detail set ...
1,026.60	3.53	1.50	100.00	815	-0.20	3.82	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
1,015.58	3.44	1.52	100.00	804	-0.19	3.78	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
1,013.86	3.59	0.53	100.00	805	-0.30	3.78	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
1,010.56	3.50	2.38	100.00	800	-0.11	3.76	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
122.70	0.30	0.37	100.00	815	0.06	0.46	4xujvn21qwxn7	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT BonusCount, LineCost FR...
121.64	0.30	0.35	100.00	805	0.04	0.45	700kd06ujjzmc	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC SET FinishB...
89.47	0.33	2.91	100.00	7,816	2.89	0.33	1apy6ht1czbj8	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET WFDETAILI...

Executions	Rows Processed	Rows per Exec	Elapsed Time (s)	%CPU	%IO	SQL Id	SQL Module	SQL Text
7,832	7,831	1.00	1.35	30.9	17.3	32s7zx8c4d69s	java@scao08adm02.us.oracle.com (TNS V1-V3)	INSERT INTO t_game_XYDC_detail...
7,825	7,825	1.00	23,919.67	2.1	98.1	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
7,816	7,816	1.00	23,805.55	2.2	98.1	1apy6ht1czbj8	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET WFDETAILI...
1,441	1,441	1.00	0.17	92	21.2	aaz3bayav0jwj		update /* KSXM:FLUSH COL */ sy...
815	815	1.00	2,492.50	2.1	98.2	0u580ctgbsg4f	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
815	812	1.00	219.50	3.7	92.6	4xujvn21qwxn7	java@scao08adm02.us.oracle.com (TNS V1-V3)	SELECT BonusCount, LineCost FR...
811	811	1.00	619.48	5.1	92.9	7f3hgty7qb86g	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC_detail set ...
805	805	1.00	219.58	3.7	92.8	700kd06ujjzmc	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE t_game_XYDC SET FinishB...
805	805	1.00	2,419.78	2.1	98.1	cb2rs7t0z99yt	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
804	804	1.00	2,370.96	2.1	98.1	0zs820bmk4rrv	java@scao08adm02.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET PRIZENOTA...
800	800	1.00	2,381.27	2.1	97.9	095ydz7c3nu7q	java@scao08adm03.us.oracle.com (TNS V1-V3)	UPDATE T_SESSION SET ISCLIENTR...
610	610	1.00	55.31	97.8	0	0rc74p3yhj9bj	JDBC Thin Client	SELECT SUM(VALUE) FROM GV$SYSS...

Parse Calls	Executions	% Total Parses	SQL Id	SQL Module	SQL Text
610	610	6.11	0rc74p3yhj9bj	JDBC Thin Client	SELECT SUM(VALUE) FROM GV$SYSS...
534	534	5.35	2p9fv35c7zxtg		select /* KSXM:LOAD_DML_INF */...
429	1,441	4.30	aaz3bayav0jwj		update /* KSXM:FLUSH COL */ sy...
159	159	1.59	grwydz59pu6mc		select text from view$ where r...
157	157	1.57	3dbzmtf9ahvzt		merge /* KSXM:OPTIM_DML_INF */...
152	152	1.52	3un99a0zwp4vd		select owner#, name, namespace...
152	152	1.52	8swypbbr0m372		select order#, columns, types ...
150	150	1.50	94qn6y14kw01g	MMON_SLAVE	SELECT NVL(TO_NUMBER(EXTRACT(X...
131	131	1.31	fn5s5p6hr6702		INSERT INTO wri$_adv_message_g...
122	122	1.22	0492m78c0mfha	JDBC Thin Client	SELECT 'enq: TX - index conten...
122	122	1.22	0urqy7qgsbnrr	JDBC Thin Client	SELECT 'log file parallel writ...
122	122	1.22	1jg9p7bcxdpun	JDBC Thin Client	SELECT 'gc buffer busy release...
122	122	1.22	1mrgasdusrwnu	JDBC Thin Client	SELECT 'cell single block phys...
122	122	1.22	4952vfpfwhz25	JDBC Thin Client	SELECT 'gc buffer busy acquire...
122	122	1.22	4cgarqmus6w3s	JDBC Thin Client	SELECT 'buffer busy waits' \|\| ...
122	122	1.22	4k5bnqqmc8pph	JDBC Thin Client	SELECT 'log file sync' \|\| '\|' ...
122	122	1.22	94ukxr9b2xmst	JDBC Thin Client	SELECT COUNT(*) FROM GV$SESSIO...
122	122	1.22	cp168yc65na4a	JDBC Thin Client	SELECT EVENT \|\| '\|' \|\| SUM(CAS...
122	122	1.22	d5vhrurw6qufa	JDBC Thin Client	SELECT DECODE(ASH.WAIT_CLASS, ...
115	115	1.15	f80h0xb1qvbsk		SELECT sys.wri$_adv_seq_msggro...
100	100	1.00	abr26jpdfxwhy	EM Realtime Connection	SELECT APPENDCHILDXML(:B2 , '/...
100	100	1.00	ay797pvkwkujh	MMON_SLAVE	SELECT NVL(TO_NUMBER(EXTRACT(X...

Sharable Mem (b)	Executions	% Total	SQL Id	SQL Module	SQL Text
8,620,318	49	862031800.00	1y4f4wtu63797	MMON_SLAVE	WITH MONITOR_DATA AS (SELECT I...
1,977,189	50	197718900.00	8mdz49zkajhw3	MMON_SLAVE	SELECT /*+ OPT_PARAM('_fix_con...

Cluster Wait Time (s)	Executions	%Total	Elapsed Time(s)	%Clu	%CPU	%IO	SQL Id	SQL Module	SQL Text
0.13	7,825	17.24	23,919.67	0.00	2.10	98.15	5h6jt076zc1rv	java@scao08adm03.us.oracle.com (TNS V1-V3)	SELECT DBNODEID, CARDID, BALAN...
0.11	0	14.13	10.25	1.07	49.25	13.22	56vd37c105kc2	sqlplus@scao08adm04.us.oracle.com (TNS V1-V3)	begin dbms_workload_repository...
0.04	1	5.23	3.45	1.17	69.76	27.88	6ajkhukk78nsr		begin prvt_hdm.auto_execute( :...
0.02	2	1.95	0.07	22.21	82.78	0.00	bqfx5q2jas08u	emagent_SQL_oracle_database	SELECT TASK_LIST.TASK_ID FROM ...
0.01	1,441	0.79	0.17	3.61	92.01	21.18	aaz3bayav0jwj		update /* KSXM:FLUSH COL */ sy...
0.01	3	0.78	0.28	2.16	78.78	12.13	8fgdzmkchnn1a		INSERT /*+ APPEND LEADING(@"SE...

SQL Id	SQL Text
0492m78c0mfha	SELECT 'enq: TX - index contention' \|\| '\|' \|\| SUM(TIME_WAITED_MICRO)/1000 \|\| '\|' \|\| SUM(TOTAL_WAITS) DATA FROM GV$SYSTEM_EVENT WHERE EVENT = 'enq: TX - index contention'
095ydz7c3nu7q	UPDATE T_SESSION SET ISCLIENTRECEIVED ='I', ISONESTEPFINISHED ='I', LASTTRADETIME = sysdate WHERE SERIALID=:1 and DBNodeID=1
0rc74p3yhj9bj	SELECT SUM(VALUE) FROM GV$SYSSTAT WHERE NAME = :B1
0u580ctgbsg4f	SELECT DBNODEID, CARDID, BALANCE, PRIZETAX, PRIZENOTAX, ISCLIENTRECEIVED, ISONESTEPFINISHED, GAMEID, SESSIONSTATE, BETMONEY, WFDETAILID FROM T_SESSION WHERE termid=:1 and hallid=:2 and serialid = :3 and SessionState='1' FOR UPDATE NOWAIT
0urqy7qgsbnrr	SELECT 'log file parallel write' \|\| '\|' \|\| SUM(TIME_WAITED_MICRO)/1000 \|\| '\|' \|\| SUM(TOTAL_WAITS) DATA FROM GV$SYSTEM_EVENT WHERE EVENT = 'log file parallel write'
0w26sk6t6gq98	SELECT XMLTYPE(DBMS_REPORT.GET_REPORT_WITH_SUMMARY(:B1 )) FROM DUAL
0zs820bmk4rrv	UPDATE T_SESSION SET PRIZENOTAX =654321, ISCLIENTRECEIVED ='I', ISONESTEPFINISHED ='I', LASTTRADETIME = sysdate WHERE SERIALID=:1 and DBNodeID=1
1apy6ht1czbj8	UPDATE T_SESSION SET WFDETAILID = 1, PRIZENOTAX = 100, LASTTRADETIME = sysdate WHERE SERIALID=:1 and DBNodeID=1
1jg9p7bcxdpun	SELECT 'gc buffer busy release' \|\| '\|' \|\| SUM(TIME_WAITED_MICRO)/1000 \|\| '\|' \|\| SUM(TOTAL_WAITS) DATA FROM GV$SYSTEM_EVENT WHERE EVENT = 'gc buffer busy release'
1mrgasdusrwnu	SELECT 'cell single block physical read' \|\| '\|' \|\| SUM(TIME_WAITED_MICRO)/1000 \|\| '\|' \|\| SUM(TOTAL_WAITS) DATA FROM GV$SYSTEM_EVENT WHERE EVENT = 'cell single block physical read'
1y4f4wtu63797	WITH MONITOR_DATA AS (SELECT INST_ID, KEY, NVL2(PX_QCSID, NULL, STATUS) STATUS, FIRST_REFRESH_TIME, LAST_REFRESH_TIME, REFRESH_COUNT, PROCESS_NAME, SID, SQL_ID, SQL_EXEC_START, SQL_EXEC_ID, DBOP_NAME, DBOP_EXEC_ID, SQL_PLAN_HASH_VALUE, SQL_FULL_PLAN_HASH_VALUE, SESSION_SERIAL#, SQL_TEXT, IS_FULL_SQLTEXT, PX_SERVER#, PX_SERVER_GROUP, PX_SERVER_SET, PX_QCINST_ID, PX_QCSID, CASE WHEN ELAPSED_TIME < (CPU_TIME+ APPLICATION_WAIT_TIME+ CONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) THEN (CPU_TIME+ APPLICATION_WAIT_TIME+ CONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) ELSE ELAPSED_TIME END ELAPSED_TIME, QUEUING_TIME, CPU_TIME, APPLICATION_WAIT_TIME, CONCURRENCY_WAIT_TIME, CLUSTER_WAIT_TIME, USER_IO_WAIT_TIME, CASE WHEN ELAPSED_TIME < (CPU_TIME+ APPLICATION_WAIT_TIME+ CONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) THEN 0 ELSE ELAPSED_TIME - (CPU_TIME+ APPLICATION_WAIT_TIME+ C ONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) END OTHER_WAIT_TIME, PLSQL_EXEC_TIME, JAVA_EXEC_TIME, FETCHES, BUFFER_GETS, IO_INTERCONNECT_BYTES IO_INTER_BYTES, PHYSICAL_READ_REQUESTS READ_REQS, PHYSICAL_READ_BYTES READ_BYTES, PHYSICAL_WRITE_REQUESTS WRITE_REQS, PHYSICAL_WRITE_BYTES WRITE_BYTES, NVL(PHYSICAL_READ_BYTES, 0) + NVL(PHYSICAL_WRITE_BYTES, 0) IO_BYTES, NVL(PHYSICAL_READ_REQUESTS, 0) + NVL(PHYSICAL_WRITE_REQUESTS, 0) IO_REQS, IO_CELL_UNCOMPRESSED_BYTES IO_UNC_BYTES, IO_CELL_OFFLOAD_ELIGIBLE_BYTES IO_ELIG_BYTES, IO_CELL_OFFLOAD_RETURNED_BYTES IO_RET_BYTES, USER# USERID, USERNAME, MODULE, ACTION, SERVICE_NAME, CLIENT_IDENTIFIER, CLIENT_INFO, PROGRAM, PLSQL_OBJECT_ID PL_OID, PLSQL_SUBPROGRAM_ID PL_PROGID, PLSQL_ENTRY_OBJECT_ID PL_ENTRY_OID, PLSQL_ENTRY_SUBPROGRAM_ID PL_ENTRY_PROGID, PX_MAXDOP MAX_DOP, PX_IS_CROSS_INSTANCE, PX_MAXDOP_INSTANCES MAX_DOP_INSTANCES, PX_SERVERS_REQUESTED SERVERS_REQUESTED, PX_SERVERS_ALLOCA TED SERVERS_ALLOCATED, ERROR_NUMBER, ERROR_FACILITY, ERROR_MESSAGE, NVL2(OTHER_XML, 'Y', NULL) HAS_OTHER_XML, NVL2(BINDS_XML, 'Y', NULL) HAS_BINDS_XML, NVL2(RM_CONSUMER_GROUP, NVL2(RM_LAST_ACTION_TIME, TO_CHAR(RM_LAST_ACTION_TIME, :B12 ), '00/00/0000 00:00:01') \|\| XMLELEMENT( "rminfo", XMLATTRIBUTES( RM_LAST_ACTION AS "rmlastact", RM_LAST_ACTION_REASON AS "rmlastreason", TO_CHAR(RM_LAST_ACTION_TIME, :B12 ) AS "rmlasttime", RM_CONSUMER_GROUP AS "rmcg")).GETSTRINGVAL(), '00/00/0000 00:00:00') RM_INFO, CON_NAME, CON_ID FROM GV$SQL_MONITOR MO1 WHERE MO1.INST_ID BETWEEN :B11 AND :B10 AND MO1.SQL_ID = NVL(:B9 , MO1.SQL_ID) AND MO1.SQL_EXEC_START = NVL(:B8 , MO1.SQL_EXEC_START) AND MO1.SQL_EXEC_ID = NVL(:B7 , MO1.SQL_EXEC_ID) OR (MO1.DBOP_NAME = NVL(:B6 , MO1.DBOP_NAME) AND MO1.DBOP_EXEC_ID = NVL(:B5 , MO1.DBOP_EXEC_ID)) AND ((:B4 = 1 AND MO1.PX_QCSID IS NULL) OR (MO1.PX_SERVER_GROUP = NVL(:B3 , MO1.PX_SERVER_GROUP) AND MO1.PX_SERVER_SET = NVL(:B2 , MO1.PX_SERVER_SET) AND MO1.PX_SERVER# = NVL(:B1 , MO1.PX_SERVER#)))), MONITOR_AGG AS (SELECT MAX_PX_QCSID, MAX_KEY, MAX_INST_ID, MAX_SESSION_ID, MAX_SESSION_SERIAL, MAX_PX_DOP, MAX_PX_DOP_INSTANCES, MAX_PX_IS_CROSS_INSTANCE, SUM_SERVERS_REQUESTED, SUM_SERVERS_ALLOCATED, DIST_INST_COUNT, DIST_PX_GROUP_COUNT, DIST_PX_SET_COUNT, MAX_PLAN_HASH_VALUE, MAX_FULL_PLAN_HASH_VALUE, MAX_USERID, MAX_PROGRAM, MAX_USERNAME, MAX_MODULE, MAX_ACTION, MAX_SERVICE_NAME, MAX_CLIENT_ID, MAX_CLIENT_INFO, MAX_ERROR_NUMBER, MAX_ERROR_FACILITY, MAX_ERROR_MESSAGE, QC_HAS_OTHER_XML, QC_HAS_BINDS_XML, MAX_PL_OID, MAX_PL_PROGID, MAX_PL_ENTRY_OID, MAX_PL_ENTRY_PROGID, MAX_SQL_ID, MAX_SQL_EXEC_START, MAX_SQL_EXEC_ID, MAX_LAST_REFRESH_TIME, MAX_DBOP_NAME, MAX_DBOP_EXEC_ID, CASE WHEN MAX_PL_OID IS NOT NULL THEN NVL((SELECT P.OWNER \|\| '.' \|\| P.OBJECT_NAME \|\| DECODE(P.PROCEDURE_NAME, NULL, '', '.' \|\| P.PROCEDURE_NAME) FROM DBA_PROCEDURES P WH ERE P.OBJECT_ID = MAX_PL_OID AND P.SUBPROGRAM_ID = MAX_PL_PROGID AND ROWNUM = 1), 'Unavailable') END MAX_PL_NAME, CASE WHEN MAX_PL_ENTRY_OID IS NOT NULL THEN NVL((SELECT P.OWNER \|\| '.' \|\| P.OBJECT_NAME \|\| DECODE(P.PROCEDURE_NAME, NULL, '', '.' \|\| P.PROCEDURE_NAME) FROM DBA_PROCEDURES P WHERE P.OBJECT_ID = MAX_PL_ENTRY_OID AND P.SUBPROGRAM_ID = MAX_PL_ENTRY_PROGID AND ROWNUM = 1), 'Unavailable') END MAX_PL_ENTRY_NAME, MAX_STATUS, SUM_REFRESH_COUNT, MIN_FIRST_REFRESH_TIME, IS_FULL_TEXT, SQLMON_TEXT, SUM_ELAPSED_TIME, MAX_ELAPSED_TIME, MAX_QUEUING_TIME, SUM_CPU_TIME, SUM_USER_IO_WAIT_TIME, SUM_APPLICATION_WAIT_TIME, SUM_CONCURRENCY_WAIT_TIME, SUM_CLUSTER_WAIT_TIME, SUM_PLSQL_EXEC_TIME, SUM_JAVA_EXEC_TIME, SUM_OTHER_WAIT_TIME, SUM_FETCHES, SUM_BUFFER_GETS, SUM_READ_REQS, SUM_READ_BYTES, SUM_WRITE_REQS, SUM_WRITE_BYTES, SUM_IO_BYTES, SUM_IO_INTER_BYTES, SUM_IO_UNC_BYTES, SUM_IO_ELIG_BYTES, SUM_IO_RET_BYTES, DECODE(:B14 , 1, 'db_name', DB.DB_UNIQUE_NAME) DB_UNIQUE_NAME, DECODE(:B14 , 1, 'platform_name', DB.PLATFORM_NAME) PLATFORM_NAME, DECODE(:B14 , 1, 'host_name', INST.HOST_NAME) HOST_NAME, AGG_RM_INFO MAX_RM_INFO, MAX_CON_NAME, DECODE(MAX_CON_ID, 0, NULL, MAX_CON_ID) MAX_CON_ID FROM (SELECT MAX(PX_QCSID) MAX_PX_QCSID, MAX(CASE WHEN PX_QCSID IS NULL THEN KEY ELSE NULL END) MAX_KEY, MAX(CASE WHEN PX_QCSID IS NULL THEN INST_ID ELSE NULL END) MAX_INST_ID, MAX(CASE WHEN PX_QCSID IS NULL THEN SID ELSE NULL END) MAX_SESSION_ID, MAX(CASE WHEN PX_QCSID IS NULL THEN SESSION_SERIAL# ELSE NULL END) MAX_SESSION_SERIAL, MAX(MAX_DOP) MAX_PX_DOP, MAX(MAX_DOP_INSTANCES) MAX_PX_DOP_INSTANCES, MAX(PX_IS_CROSS_INSTANCE) MAX_PX_IS_CROSS_INSTANCE, SUM(SERVERS_REQUESTED) SUM_SERVERS_REQUESTED, SUM(SERVERS_ALLOCATED) SUM_SERVERS_ALLOCATED, COUNT(DISTINCT INST_ID) DIST_INST_COUNT, COUNT(DISTINCT PX_SERVER_GROUP) DIST_PX_GROUP_COUNT, COUNT(DISTINCT PX_SERVER_SET) DIST_PX_SET_COUNT, MAX(SQL_PLAN_HASH_VALUE) MAX_PLAN_HASH_VALUE, MAX( SQL_FULL_PLAN_HASH_VALUE) MAX_FULL_PLAN_HASH_VALUE, MAX(USERID) MAX_USERID, MAX(PROGRAM) MAX_PROGRAM, MAX(USERNAME) MAX_USERNAME, MAX(MODULE) MAX_MODULE, MAX(ACTION) MAX_ACTION, MAX(SERVICE_NAME) MAX_SERVICE_NAME, MAX(CLIENT_IDENTIFIER) MAX_CLIENT_ID, MAX(CLIENT_INFO) MAX_CLIENT_INFO, MAX(ERROR_NUMBER) MAX_ERROR_NUMBER, MAX(ERROR_FACILITY) MAX_ERROR_FACILITY, MAX(ERROR_MESSAGE) MAX_ERROR_MESSAGE, MAX(NVL2(PX_QCSID, HAS_OTHER_XML, NULL)) QC_HAS_OTHER_XML, MAX(HAS_BINDS_XML) QC_HAS_BINDS_XML, MAX(PL_OID) MAX_PL_OID, MAX(PL_PROGID) MAX_PL_PROGID, MAX(PL_ENTRY_OID) MAX_PL_ENTRY_OID, MAX(PL_ENTRY_PROGID) MAX_PL_ENTRY_PROGID, MAX(SQL_ID) MAX_SQL_ID, MAX(SQL_EXEC_START) MAX_SQL_EXEC_START, MAX(SQL_EXEC_ID) MAX_SQL_EXEC_ID, MAX(LAST_REFRESH_TIME) MAX_LAST_REFRESH_TIME, MAX(STATUS) MAX_STATUS, SUM(REFRESH_COUNT) SUM_REFRESH_COUNT, MIN(FIRST_REFRESH_TIME) MIN_FIRST_REFRESH_TIME, MAX(DBOP_NAME) MAX_DBOP_NAME, MAX(DBOP_EXEC_ID) MAX_DBOP_EXEC_ID, CASE WHEN :B13 = 0 THEN NULL ELSE MAX(SQL_TEXT) END SQLMON_TEXT, MAX(IS_FULL_SQLTEXT) IS_FULL_TEXT, SUM(ELAPSED_TIME) SUM_ELAPSED_TIME, MAX(ELAPSED_TIME) MAX_ELAPSED_TIME, MAX(QUEUING_TIME) MAX_QUEUING_TIME, SUM(CPU_TIME) SUM_CPU_TIME, SUM(USER_IO_WAIT_TIME) SUM_USER_IO_WAIT_TIME, SUM(APPLICATION_WAIT_TIME) SUM_APPLICATION_WAIT_TIME, SUM(CONCURRENCY_WAIT_TIME) SUM_CONCURRENCY_WAIT_TIME, SUM(CLUSTER_WAIT_TIME) SUM_CLUSTER_WAIT_TIME, SUM(PLSQL_EXEC_TIME) SUM_PLSQL_EXEC_TIME, SUM(JAVA_EXEC_TIME) SUM_JAVA_EXEC_TIME, SUM(OTHER_WAIT_TIME) SUM_OTHER_WAIT_TIME, SUM(FETCHES) SUM_FETCHES, SUM(BUFFER_GETS) SUM_BUFFER_GETS, SUM(READ_REQS) SUM_READ_REQS, SUM(READ_BYTES) SUM_READ_BYTES, SUM(WRITE_REQS) SUM_WRITE_REQS, SUM(WRITE_BYTES) SUM_WRITE_BYTES, NVL(SUM(READ_BYTES), 0) + NVL(SUM(WRITE_BYTES), 0) SUM_IO_BYTES, SUM(IO_INTER_BYTES) SUM_IO_INTER_BYTES, SUM(IO_UNC_BYTES) SUM_IO_UNC_BYTES, SUM(IO_ELIG_BYTES) SUM_IO_ELIG_BYTES, SUM(IO_RET_BYTES) SUM_IO_RET_BYTES, MAX(RM_INFO) AGG_RM_INFO, MAX(CON _NAME) MAX_CON_NAME, MAX(CON_ID) MAX_CON_ID FROM MONITOR_DATA) MD, (SELECT HOST_NAME FROM V$INSTANCE) INST, (SELECT DB_UNIQUE_NAME, PLATFORM_NAME FROM V$DATABASE) DB), ASH_DATA AS (SELECT AD0.INST_ID, AD0.SESSION_ID, AD0.PLAN_LINE_ID, AD0.PLSQL_OBJECT_ID, AD0.PLSQL_SUBPROGRAM_ID, AD0.ACTIVITY_BUCKET_NUM, AD0.PLAN_ACTIVITY_BUCKET_NUM, AD0.SQL, AD0.TOP_LEVEL_SQL_ID, AD0.DBOP_NAME, AD0.IS_MONITORED_SQL, AD0.IS_PX_SLAVE, AD0.BUCKET_ACTIVITY_START, AD0.ACTIVITY_START, AD0.BUCKET_ACTIVITY_END, AD0.ACTIVITY_END, AD0.ACTIVITY_COUNT, AD0.ACTIVITY_TYPE, AD0.OTHER_SQL_ACTIVITY_TYPE, AD0.EVENT_NAME, AD0.IMQ_COUNT, AD0.WAIT_COUNT, AD0.CPU_COUNT, AD0.OTHER_SQL_COUNT, AD0.PX_SERVER_SET, AD0.PX_DFO_ACTIVITY_COUNT, AD0.DFO_MOST_ACTIVE_IID, AD0.DFO_MOST_ACTIVE_SID, (CASE WHEN AD0.DFO_MOST_ACTIVE_IID = AD0.INST_ID AND AD0.DFO_MOST_ACTIVE_SID = AD0.SESSION_ID AND (((AD0.PX_DFO_ACTIVITY_COUNT / AD0.DFO_MOST_ACTIVE_COUNT) >= AD0.PX_DOP * 1.05) OR ((AD0.PX_DFO_ACTIVITY_COU NT / AD0.DFO_MOST_ACTIVE_COUNT) <= AD0.PX_DOP 0.95)) AND (AD0.DFO_DURATION 100) > :B32 THEN AD0.ACTIVITY_COUNT ELSE NULL END) DFO_MOST_ACTIVE_COUNT, AD0.BUCKET_DISTINCT_SAMPLES, AD0.SQL_BUCKET_DISTINCT_SAMPLES, CASE WHEN AD0.PX_SERVER_GROUP IS NULL AND AD0.IS_PX_SLAVE = 1 THEN 1 ELSE AD0.PX_SERVER_GROUP END PX_SERVER_GROUP, AD0.PX_STEP_ID, AD0.PX_DFO_PAIR_TYPE, AD0.PX_DFO_PAIR_ID, AD0.PX_STEP_ARG, AD0.PX_DOP, CASE WHEN AD0.PX_DOP IS NOT NULL AND AD0.PX_DOP <> AD0.PX_MIN_DOP AND AD0.PX_MIN_DOP != 0 THEN PX_MIN_DOP ELSE NULL END PX_MIN_DOP FROM (SELECT /+ use_hash(ash) leading(mo) / ASH.INST_ID, ASH.IS_PX_SLAVE, ASH.SESSION_ID, ASH.PLAN_LINE_ID, ASH.PLSQL_OBJECT_ID, ASH.PLSQL_SUBPROGRAM_ID, ASH.ACTIVITY_BUCKET_NUM, ASH.PLAN_ACTIVITY_BUCKET_NUM, ASH.SQL, ASH.TOP_LEVEL_SQL_ID, ASH.DBOP_NAME, ASH.IS_MONITORED_SQL, ASH.BUCKET_ACTIVITY_START, ASH.ACTIVITY_START, ASH.BUCKET_ACTIVITY_END, ASH.ACTIVITY_END, ASH.ACTIVITY_COUNT, ASH.ACTIVITY_TYPE, ASH.OT HER_SQL_ACTIVITY_TYPE, ASH.EVENT_NAME, ASH.IMQ_COUNT, ASH.WAIT_COUNT, ASH.CPU_COUNT, ASH.OTHER_SQL_COUNT, MO.PX_SERVER_SET, ASH.PX_DFO_ACTIVITY_COUNT, TRUNC(ASH.MOST_ACTIVE_IN_DFO / 10000000000) DFO_MOST_ACTIVE_COUNT, MOD(TRUNC(ASH.MOST_ACTIVE_IN_DFO / 1000000), 10000) DFO_MOST_ACTIVE_IID, MOD(ASH.MOST_ACTIVE_IN_DFO, 1000000) DFO_MOST_ACTIVE_SID, ASH.DFO_DURATION, ASH.BUCKET_DISTINCT_SAMPLES, ASH.SQL_BUCKET_DISTINCT_SAMPLES, MO.PX_SERVER_GROUP, ASH.PX_STEP_ID, ASH.PX_DFO_PAIR_TYPE, ASH.PX_DFO_PAIR_ID, ASH.PX_STEP_ARG, ASH.PX_DOP, ASH.PX_MIN_DOP FROM (SELECT /+ no_merge / MD.INST_ID, MD.SID, MD.SESSION_SERIAL#, MD.PX_SERVER_SET, MD.PX_SERVER_GROUP FROM MONITOR_DATA MD WHERE MD.SID IS NOT NULL OR :B31 = 1) MO, (SELECT /+ no_merge / GVTF.INST_ID, GVTF.GLOBAL_SAMPLE_ID, GVTF.IS_PX_SLAVE, GVTF.SESSION_ID, GVTF.PLAN_LINE_ID, GVTF.PLSQL_OBJECT_ID, GVTF.PLSQL_SUBPROGRAM_ID, GVTF.ACTIVITY_BUCKET_NUM, GVTF.PLAN_ACTIVITY_BUCKET_NUM, GVTF.SQL, GVTF.TOP_LEVE L_SQL_ID, GVTF.DBOP_NAME, GVTF.IS_MONITORED_SQL, GVTF.BUCKET_ACTIVITY_START, GVTF.ACTIVITY_START, GVTF.BUCKET_ACTIVITY_END, GVTF.ACTIVITY_END, GVTF.ACTIVITY_COUNT, GVTF.ACTIVITY_TYPE, GVTF.OTHER_SQL_ACTIVITY_TYPE, GVTF.EVENT_NAME, GVTF.IMQ_COUNT, GVTF.WAIT_COUNT, GVTF.CPU_COUNT, GVTF.OTHER_SQL_COUNT, MAX(GVTF.PER_SERVER_DFO_COUNT * 10000000000 + GVTF.INST_ID * 1000000 + GVTF.SESSION_ID) OVER(PARTITION BY GVTF.PX_DFO_PAIR_TYPE, GVTF.PX_DFO_PAIR_ID) MOST_ACTIVE_IN_DFO, SUM(GVTF.ACTIVITY_COUNT) OVER(PARTITION BY GVTF.PX_DFO_PAIR_TYPE, GVTF.PX_DFO_PAIR_ID) PX_DFO_ACTIVITY_COUNT, GVTF.DFO_DURATION, GVTF.PX_STEP_ID, GVTF.PX_DFO_PAIR_TYPE, GVTF.PX_DFO_PAIR_ID, GVTF.PX_STEP_ARG, GVTF.PX_DOP, GVTF.PX_MIN_DOP, COUNT(DISTINCT GVTF.GLOBAL_SAMPLE_ID) OVER(PARTITION BY GVTF.ACTIVITY_BUCKET_NUM) BUCKET_DISTINCT_SAMPLES, COUNT(DISTINCT GVTF.GLOBAL_SAMPLE_ID) OVER(PARTITION BY GVTF.SQL, GVTF.ACTIVITY_BUCKET_NUM) SQL_BUCKET_DISTINCT_SAMPLES FROM TABLE(GV$(CURSOR( (SELECT USER ENV('INSTANCE') INST_ID, ASH2.GLOBAL_SAMPLE_ID, CASE WHEN :B30 = 1 AND :B27 > 1 THEN BUCKET_NUM ELSE NULL END ACTIVITY_BUCKET_NUM, CASE WHEN :B29 = 1 AND :B27 > 1 THEN BUCKET_NUM ELSE NULL END PLAN_ACTIVITY_BUCKET_NUM, ASH2.SQL, ASH2.TOP_LEVEL_SQL_ID, ASH2.DBOP_NAME, ASH2.IS_MONITORED_SQL, ASH2.PLAN_LINE_ID, ASH2.PLSQL_OBJECT_ID, ASH2.PLSQL_SUBPROGRAM_ID, ASH2.ACTIVITY_TYPE, ASH2.OTHER_SQL_ACTIVITY_TYPE, ASH2.EVENT_NAME, ASH2.IS_PX_SLAVE, ASH2.SESSION_ID, ASH2.PX_STEP_ID, ASH2.PX_DFO_PAIR_TYPE, ASH2.PX_DFO_PAIR_ID, ASH2.PX_STEP_ARG, CASE WHEN ASH2.PX_DFO_PAIR_ID IS NOT NULL THEN DECODE(ASH2.PX_DOP, 0, :B28 , ASH2.PX_DOP) ELSE NULL END PX_DOP, ASH2.PX_MIN_DOP, :B20 + NUMTODSINTERVAL(:B26 * (ASH2.BUCKET_NUM-1), 'SECOND') BUCKET_ACTIVITY_START, :B20 + NUMTODSINTERVAL( :B26 * ASH2.BUCKET_NUM - 1, 'SECOND') BUCKET_ACTIVITY_END, ASH2.ACTIVITY_START, ASH2.ACTIVITY_END, ASH2.ACTIVITY_COUNT, ASH2.IMQ_COUNT, ASH2.WAIT_COUNT, ASH2.CPU_COUNT, ASH2.OTHER_SQL _COUNT, SUM(ASH2.ACTIVITY_COUNT) OVER(PARTITION BY ASH2.PX_DFO_PAIR_ID, ASH2.PX_DFO_PAIR_TYPE, DECODE(ASH2.PX_DFO_PAIR_ID, NULL, NULL, ASH2.SESSION_ID)) PER_SERVER_DFO_COUNT, CEIL((MAX(ASH2.MAX_SAMPLE_DATE) OVER(PARTITION BY ASH2.PX_DFO_PAIR_ID, ASH2.PX_DFO_PAIR_TYPE) - MIN(ASH2.MIN_SAMPLE_DATE) OVER(PARTITION BY ASH2.PX_DFO_PAIR_ID, ASH2.PX_DFO_PAIR_TYPE)) * 3600 * 24) DFO_DURATION FROM (SELECT ASH1.BUCKET_NUM, ASH1.GLOBAL_SAMPLE_ID, ASH1.PLAN_LINE_ID, ASH1.PLSQL_OBJECT_ID, ASH1.PLSQL_SUBPROGRAM_ID, ASH1.ACTIVITY_TYPE, ASH1.OTHER_SQL_ACTIVITY_TYPE, ASH1.EVENT_NAME, ASH1.SESSION_ID, ASH1.PX_STEP_ID, ASH1.PX_STEP_ARG, MAX(ASH1.SQL) SQL, MAX(ASH1.IS_MONITORED_SQL) IS_MONITORED_SQL, MAX(ASH1.PX_DFO_PAIR_TYPE) PX_DFO_PAIR_TYPE, MAX(ASH1.PX_DFO_PAIR_ID) PX_DFO_PAIR_ID, MIN(SAMPLE_DATE) MIN_SAMPLE_DATE, MAX(SAMPLE_DATE) MAX_SAMPLE_DATE, MAX(ASH1.IS_PX_SLAVE) IS_PX_SLAVE, MAX(ASH1.PX_DOP) PX_DOP, MIN(ASH1.PX_DOP) PX_MIN_DOP, MIN(ASH1.SAMPLE_DATE) ACTIVITY_START, MAX(ASH1.SAMPLE_DATE) ACTIVITY_END, COUNT(ASH1.SQL) ACTIVITY_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE = 'Cpu' AND ASH1.EVENT_NAME = 'in memory' THEN 1 ELSE NULL END) IMQ_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE != 'Other SQL Execution' AND ASH1.ACTIVITY_TYPE != 'Non SQL' AND ASH1.ACTIVITY_TYPE != 'Cpu' THEN 1 ELSE NULL END) WAIT_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE = 'Cpu' AND ASH1.EVENT_NAME IS NULL THEN 1 ELSE NULL END) CPU_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE = 'Other SQL Execution' AND ASH1.ACTIVITY_TYPE != 'Non SQL' THEN 1 ELSE NULL END) OTHER_SQL_COUNT, MAX(ASH1.TOP_LEVEL_SQL_ID) TOP_LEVEL_SQL_ID, MAX(ASH1.DBOP_NAME) DBOP_NAME FROM ( SELECT (CASE WHEN :B27 > 1 THEN (TRUNC(DELTA_TIME_SECONDS/ :B26 ) + 1) ELSE 1 END) BUCKET_NUM, ASH00.SQL, ASH00.SAMPLE_DATE, NVL2(DUP.C2, TRUNC(DELTA_TIME_SECONDS/ (:B25 )) + 1, NULL) GLOBAL_SAMPLE_ID, NVL2(DUP.C2, NULL, ASH00.IS_MONITORED_SQL) IS_MONITORED_SQL, NVL2(DUP.C2, NULL, ASH00.IN_INMEMORY_QUERY) IN_INMEMORY_ QUERY, NVL2(DUP.C2, NULL, ASH00.WAIT_CLASS) WAIT_CLASS, NVL2(DUP.C2, NULL, ASH00.ACTIVITY_TYPE) ACTIVITY_TYPE, NVL2(DUP.C2, NULL, ASH00.OTHER_SQL_ACTIVITY_TYPE) OTHER_SQL_ACTIVITY_TYPE, NVL2(DUP.C2, NULL, ASH00.EVENT_NAME) EVENT_NAME, NVL2(DUP.C2, NULL, ASH00.TOP_LEVEL_SQL_ID) TOP_LEVEL_SQL_ID, NVL2(DUP.C2, NULL, ASH00.DBOP_NAME) DBOP_NAME, NVL2(DUP.C2, NULL, ASH00.IS_PX_SLAVE) IS_PX_SLAVE, NVL2(DUP.C2, NULL, ASH00.SESSION_ID) SESSION_ID, NVL2(DUP.C2, NULL, ASH00.PLSQL_OBJECT_ID) PLSQL_OBJECT_ID, NVL2(DUP.C2, NULL, ASH00.PLSQL_SUBPROGRAM_ID) PLSQL_SUBPROGRAM_ID, NVL2(DUP.C2, NULL, ASH00.PLAN_LINE_ID) PLAN_LINE_ID, NVL2(DUP.C2, NULL, ASH00.PX_STEP_ID) PX_STEP_ID, NVL2(DUP.C2, NULL, ASH00.PX_STEP_ARG) PX_STEP_ARG, NVL2(DUP.C2, NULL, ASH00.PX_DFO_PAIR_ID) PX_DFO_PAIR_ID, NVL2(DUP.C2, NULL, ASH00.PX_DFO_PAIR_TYPE) PX_DFO_PAIR_TYPE, NVL2(DUP.C2, NULL, ASH00.PX_DOP) PX_DOP FROM (SELECT 1 C1, NULL C2 FROM V$TIMER UNION ALL SELECT 1 C1, 1 C2 FR OM V$TIMER) DUP, (SELECT /+ no_merge / 1 C1, ASH000.SAMPLE_DATE, ASH000.IS_MONITORED_SQL, ((EXTRACT(SECOND FROM(DELTA_TIME)) + EXTRACT(MINUTE FROM(DELTA_TIME)) * 60 + EXTRACT(HOUR FROM(DELTA_TIME)) * 3600 + EXTRACT(DAY FROM(DELTA_TIME)) * 86400)) DELTA_TIME_SECONDS, ASH000.IN_INMEMORY_QUERY, ASH000.WAIT_CLASS, DECODE(ASH000.IS_MONITORED_SQL, 1, NVL(ASH000.WAIT_CLASS, 'Cpu'), DECODE(SQL_ID, NULL, 'Non SQL', 'Other SQL Execution')) ACTIVITY_TYPE, NVL(ASH000.WAIT_CLASS, 'Cpu') OTHER_SQL_ACTIVITY_TYPE, DECODE(:B24 , 1, CASE WHEN ASH000.IS_MONITORED_SQL = 1 THEN NVL(ASH000.EVENT, DECODE(ASH000.IN_INMEMORY_QUERY, 'Y', 'in memory', ASH000.EVENT)) WHEN ASH000.SQL_ID IS NOT NULL THEN 'sql_id: ' \|\| ASH000.SQL_ID WHEN ASH000.CALL_NAME IS NOT NULL THEN 'call: ' \|\| ASH000.CALL_NAME ELSE 'anonymous: '\|\| ASH000.EVENT END, NULL) EVENT_NAME, CASE WHEN ASH000.IS_MONITORED_SQL = 1 AND (NVL(ASH000.SQL_ID, :B9 ) = :B9 OR NVL(ASH000.DBOP_NAME, :B6 ) = :B6 ) THEN 'this' WHEN ASH0 00.IS_PX_SLAVE = 1 AND ASH000.SQL_ID IS NOT NULL AND ASH000.TOP_LEVEL_SQL_ID != ASH000.SQL_ID THEN ASH000.TOP_LEVEL_SQL_ID WHEN ASH000.SQL_ID IS NOT NULL THEN ASH000.SQL_ID ELSE NVL(CALL_NAME, 'anonymous') END SQL, CASE WHEN ASH000.IS_PX_SLAVE = 0 AND (ASH000.SQL_ID IS NULL OR ASH000.TOP_LEVEL_SQL_ID != ASH000.SQL_ID) THEN ASH000.TOP_LEVEL_SQL_ID END TOP_LEVEL_SQL_ID, ASH000.DBOP_NAME, ASH000.IS_PX_SLAVE, CASE WHEN ASH000.IS_PX_SLAVE = 1 AND ASH000.IS_MONITORED_SQL != 1 THEN 65536 ELSE ASH000.SESSION_ID END SESSION_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PLSQL_OBJECT_ID, NULL) PLSQL_OBJECT_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PLSQL_SUBPROGRAM_ID, NULL) PLSQL_SUBPROGRAM_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.SQL_PLAN_LINE_ID, NULL) PLAN_LINE_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PX_STEP_ID, NULL) PX_STEP_ID, CASE WHEN ASH000.IS_PX_SLAVE = 1 AND ASH000.IS_MONITORED_SQL = 1 AND ASH000.PX_STEP_ID IN (1, 2, 3) THEN ASH000.PX_STEP_ARG ELS E NULL END PX_DFO_PAIR_ID, CASE WHEN ASH000.IS_PX_SLAVE = 0 OR ASH000.IS_MONITORED_SQL != 1 THEN NULL WHEN ASH000.PX_STEP_ID = 1 THEN 1 WHEN ASH000.PX_STEP_ID IN (2, 3) THEN 0 ELSE NULL END PX_DFO_PAIR_TYPE, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PX_STEP_ARG, NULL) PX_STEP_ARG, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PX_DOP, NULL) PX_DOP FROM (SELECT ASH0., CASE WHEN ASH0.IS_TARGET_SQL = 1 OR (ASH0.IS_PX_SLAVE = 1 AND ((NVL(ASH0.TOP_LEVEL_SQL_ID, ASH0.SQL_ID) IS NOT NULL AND NVL(ASH0.TOP_LEVEL_SQL_ID, ASH0.SQL_ID) = :B9 ) OR (SQL_ID IS NULL AND :B23 = 'Y'))) THEN 1 ELSE 0 END IS_MONITORED_SQL FROM (SELECT (CASE WHEN (ASH.SQL_ID = :B9 AND ASH.SQL_EXEC_ID = :B7 AND ASH.SQL_EXEC_START = :B8 ) THEN 1 ELSE 0 END) IS_TARGET_SQL, ASH.SQL_ID, ASH.SQL_PLAN_LINE_ID, ASH.PLSQL_OBJECT_ID, ASH.PLSQL_SUBPROGRAM_ID, ASH.TOP_LEVEL_SQL_ID, DECODE(ASH.SQL_ID, NULL, ASH.TOP_LEVEL_CALL_NAME, NULL) CALL_NAME, ASH.EVENT, ASH.IN_INMEMORY_QUERY, ASH.WAIT_CLASS, ASH.SQL_EXEC_ID, ASH.SQL_EXEC_START, ASH.DBOP_NAME, ASH.DBOP_EXEC_ID, ASH.SESSION_ID, ASH.SESSION_SERIAL#, CASE WHEN QC_INSTANCE_ID IS NOT NULL AND (ASH.SESSION_ID != ASH.QC_SESSION_ID OR ASH.SESSION_SERIAL# != ASH.QC_SESSION_SERIAL# OR USERENV('instance') != ASH.QC_INSTANCE_ID) THEN 1 ELSE 0 END IS_PX_SLAVE, SAMPLE_TIME - CAST(:B20 AS TIMESTAMP) DELTA_TIME, CAST(FROM_TZ(ASH.SAMPLE_TIME, DBTIMEZONE) AS DATE) SAMPLE_DATE, TRUNC(MOD(PX_FLAGS/65536, 32)) PX_STEP_ID, MOD(PX_FLAGS, 65536) PX_STEP_ARG, TRUNC(PX_FLAGS/2097152) PX_DOP FROM V$ACTIVE_SESSION_HISTORY ASH WHERE ((ASH.SESSION_ID = :B19 AND ASH.SESSION_SERIAL# = :B18 AND USERENV('INSTANCE') = :B17 ) OR (ASH.QC_SESSION_ID IS NOT NULL AND ASH.QC_SESSION_ID = :B19 AND ASH.QC_SESSION_SERIAL# = :B18 AND ASH.QC_INSTANCE_ID = :B17 )) AND SAMPLE_TIME BETWEEN :B16 AND :B15 ) ASH0 WHERE (ASH0.SAMPLE_DATE BETWEEN :B20 + 1/24/3600 AND :B22 - 1/24/3600 OR (ASH0.SQL_ID = :B9 AND ASH0.SQL_EXEC_START = :B8 AND ASH0.SQL_EXEC_ID = :B7 ) OR (ASH0.DBOP_N AME = :B6 AND ASH0.DBOP_EXEC_ID = :B5 )) AND (:B21 IS NULL OR ASH0.SQL_PLAN_LINE_ID = :B21 ) AND (ASH0.IS_PX_SLAVE = 0 OR ASH0.SQL_ID IS NOT NULL)) ASH000 ) ASH00 WHERE ASH00.C1 = DUP.C1) ASH1 WHERE ASH1.BUCKET_NUM > 0 AND ASH1.BUCKET_NUM <= :B27 GROUP BY USERENV('INSTANCE'), ASH1.GLOBAL_SAMPLE_ID, ASH1.BUCKET_NUM, ASH1.SESSION_ID, ASH1.PLAN_LINE_ID, ASH1.PLSQL_OBJECT_ID, ASH1.PLSQL_SUBPROGRAM_ID, ASH1.ACTIVITY_TYPE, ASH1.EVENT_NAME, ASH1.OTHER_SQL_ACTIVITY_TYPE, ASH1.PX_STEP_ID, ASH1.PX_STEP_ARG) ASH2)))) GVTF WHERE GVTF.INST_ID BETWEEN :B11 AND :B10 ) ASH WHERE ASH.GLOBAL_SAMPLE_ID IS NULL AND ASH.SESSION_ID = MO.SID(+) AND ASH.INST_ID = MO.INST_ID(+)) AD0), RESPONSE_TIME_DATA AS (SELECT ADH.BUCKET_NUM, ADH.SQL_ROWNUM, ADH.SQL, ADH.TOP_LEVEL_SQL_ID, ADH.DBOP_NAME, ADH.PX_ID, DECODE( ADH.PX_STEP_ID, NULL, NULL, 0, NULL, 1, 'PX Server(s) - Executing Parent DFO', 2, 'PX Server(s) - Executing Child DFO', 3, 'PX Server(s) - Sampling Child DFO', 4, 'PX S erver(s) - Joining Group', 5, 'QC - Scheduling Child DFO', 6, 'QC - Scheduling Parent DFO', 7, 'QC - Initializing Objects', 8, 'QC - Flushing Objects', 9, 'QC - Allocating Slaves', 10, 'QC - Initializing Granules', 11, 'PX Server(s) - Parsing Cursor', 12, 'PX Server(s) - Executing Cursor', 13, 'PX Server(s) - Preparing Transaction', 14, 'PX Server(s) - Joining Transaction', 15, 'PX Server(s) - Load Commit', 16, 'PX Server(s) - Aborting Transaction', 17, 'QC - Executing Child DFO', 18, 'QC - Executing Parent DFO', 'PX Step - ' \|\| PX_STEP_ID) PX_STEP_ID, ADH.PX_STEP_ARG, ADH.PX_DFO_PAIR_ID, ADH.PX_DOP, ADH.PX_MIN_DOP, ADH.DFO_MOST_ACTIVE_IID, ADH.DFO_MOST_ACTIVE_SID, ADH.DFO_MOST_ACTIVE_COUNT, ADH.ACTIVITY_START, ADH.ACTIVITY_END, ADH.ACTIVITY_TYPE, ADH.OTHER_SQL_ACTIVITY_TYPE, ADH.EVENT_NAME, ADH.PLAN_LINE_ID, ADH.PLSQL_OBJECT_ID, ADH.PLSQL_SUBPROGRAM_ID, CASE WHEN PLSQL_ROWNUM = 1 AND ADH.PLSQL_OBJECT_ID IS NOT NULL THEN NVL((SELECT P.OWNER \|\| '.' \|\| P.OBJECT_NAME \|\| DECODE(P.PROCEDURE_NAME, NULL, '', '.' \|\| P.PROCEDURE_NAME) FROM DBA_PROCEDURES P WHERE P.OBJECT_ID = ADH.PLSQL_OBJECT_ID AND P.SUBPROGRAM_ID = ADH.PLSQL_SUBPROGRAM_ID), 'Unavailable') ELSE NULL END PLSQL_NAME, ADH.ACTIVITY_COUNT, ADH.BUCKET_ACTIVE_SECONDS, ADH.BUCKET_IDLE_SECONDS, (CASE WHEN ADH.IS_MONITORED_SQL = 0 THEN ADH.ACTIVE_SECONDS WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.DFO_PAIR_CPU_HEIGHT >= :B34 THEN DECODE(ADH.ACTIVITY_TYPE, 'Cpu', (ADH.DFO_PAIR_ACTIVITY_HEIGHT / ADH.DFO_PAIR_CPU_HEIGHT) ADH.DFO_PAIR_TOTAL_SECONDS, 0) WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.PX_DOP > :B34 THEN (ADH.DFO_PAIR_TOTAL_SECONDS * DECODE(ADH.ACTIVITY_TYPE, 'Cpu', ADH.DFO_PAIR_ACTIVITY_HEIGHT, (ADH.DFO_PAIR_ACTIVITY_HEIGHT * (:B34 - ADH.DFO_PAIR_CPU_HEIGHT)) / (ADH.DFO_PAIR_TOTAL_HEIGHT_ADJ - ADH.DFO_PAIR_CPU_HEIGHT))) / :B34 WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL THEN (ADH.DFO_PAIR_TOTAL_SECONDS * ADH.DFO_PAIR_ACTIVITY_HEIGHT) / ADH.PX_DOP ELSE ADH.ACTIVE_SECONDS END) RESP_TIME, (CASE WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.DFO_PAIR_IDLE_HEIGHT > 0 AND ADH.PX_DOP > :B34 THEN (ADH.DFO_PAIR_TOTAL_SECONDS * (ADH.DFO_PAIR_IDLE_HEIGHT * (:B34 - ADH.DFO_PAIR_CPU_HEIGHT)) / (ADH.DFO_PAIR_TOTAL_HEIGHT_ADJ - ADH.DFO_PAIR_CPU_HEIGHT)) / :B34 WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.DFO_PAIR_IDLE_HEIGHT > 0 THEN (ADH.DFO_PAIR_TOTAL_SECONDS * ADH.DFO_PAIR_IDLE_HEIGHT) / ADH.PX_DOP ELSE 0 END) DFO_PAIR_IDLE_RESP_TIME, ADH.DFO_PAIR_ACTIVITY_HEIGHT, ADH.DFO_PAIR_CPU_HEIGHT, ADH.DFO_PAIR_IDLE_HEIGHT, ADH.DFO_PAIR_TOTAL_HEIGHT, ADH.DFO_PAIR_CPU_ACTIVITY, ADH.DFO_PAIR_TOTAL_SECONDS FROM (SELECT ADH_1., (ROW_NUMBER() OVER(PARTITION BY ADH_1.PLSQL_OBJECT_ID, ADH_1.PLSQL_SUBPROGRAM_ID ORDER BY ADH_1.BUCKET_NUM, ADH_1.ACTIVITY_TYPE, ADH_1.EVENT_NAME)) PLSQL_ROWNUM, (ROW_NUMBER() OVER(PARTITION BY ADH_1.SQL ORDER BY ADH_1.BUCKET_NUM, ADH_1.ACTIVITY_TYPE, ADH_1.EVENT_NAME)) SQL_ROWNUM, (CASE WHEN ADH_1.PX_DFO_PAIR_ID IS NOT NULL AND (ADH_1.DFO_PAIR_TOTAL_HEIGHT < ADH_1.PX_DOP) AND (ADH_1.DFO_PAIR_CPU_HEIGHT < :B34 ) THEN ADH_1.PX_DOP - ADH_1.DFO_PAIR_TOTAL_HEIGHT ELSE 0 END) DFO_PAIR_IDLE_HEIGHT, (CASE WHEN ADH_1.PX_DFO_PAIR_ID IS NOT NULL AND (ADH_1.DFO_PAIR_TOTAL_HEIGHT < ADH_1.PX_DOP) AND (ADH_1.DFO_PAIR_CPU_HEIGHT < :B34 ) THEN ADH_1.PX_DOP ELSE ADH_1.DFO_PAIR_TOTAL_HEIGHT END) DFO_PAIR_TOTAL_HEIGHT_ADJ FROM (SELECT ADH_0., (CASE WHEN ADH_0.DFO_PAIR_TOTAL_SECONDS > 0 THEN (ADH_0.DFO_PAIR_TOTAL_ACTIVITY * :B25 ) / ADH_0.DFO_PAIR_TOTAL_SECONDS ELSE 0 END) DFO_PAIR_TOTAL_HEIGHT, (CASE WHEN ADH_0.DFO_PAIR_TOTAL_SECONDS > 0 THEN (ADH_0.DFO_PAIR_CPU_ACTIVITY * :B25 ) / ADH_0.DFO_PAIR_TOTAL_SECONDS ELSE 0 END) DFO_PAIR_CPU_HEIGHT, (CASE WHEN ADH_0.PX_DFO_PAIR_ID IS NOT NULL AND ADH_0.DFO_PAIR_TOTAL_SECONDS > 0 THEN (ADH_0.ACTIVITY_COUNT * :B25 ) / ADH_0.DFO_PAIR_TOTAL_SECONDS ELSE 0 END) DFO_PAIR_ACTIVITY_HEIGHT FROM (SELECT AD3., (SUM(DECODE(AD3.PX_DFO_PAIR_ID, NULL, 0, AD3.ACTIVE_SECONDS)) OVER(PARTITION BY DECODE(AD3.PX_DFO_PAIR_ID, NULL, NULL, AD3.BUCKET_NUM), DECODE(AD3.PX_DFO_PAIR_ID, NULL, NULL, AD3.PX_STEP_ARG))) DFO_PAIR_TOTAL_SECONDS FROM (SELECT AD2., CASE WHEN AD2.IS_MONITORED_SQL = 0 THEN SQL_BUCKET_DISTINCT_SAMPLES * :B25 WHEN AD2.PX_ID IS NULL THEN AD2.ACTIVITY_COUNT * :B25 WHEN AD2.BUCKET_PARALLEL_MON_ACTIVITY > 0 THEN (AD2.ACTIVITY_COUNT * AD2.BUCKET_PARALLEL_MON_SECONDS) / AD2.BUCKET_PARALLEL_MON_ACTIVITY ELSE 0 END ACTIVE_SECONDS, CASE WHEN AD2.BUCKET_INTERVAL > BUCKET_ACTIVE_SECONDS THEN AD2.BUCKET_INTERVAL - BUCKET_ACTIVE_SECONDS ELSE 0 END BUCKET_IDLE_SECONDS FROM (SELECT AD1., (AD1.BUCKET_SERIAL_MON_ACTIVITY :B25 ) BUCKET_SERIAL_MON_SECONDS, (AD1.BUCKET_TOTAL_MON_ACTIVITY - AD1.BUCKET_SERIAL_MON_ACTIVITY) BUCKET_PARALLEL_MON_ACTIVITY, (AD1.BUCKET_ACTIVE_SECONDS - (AD1.BUCKET_OTHER_ACTIVITY + AD1.BUCKET_SERIAL_MON_ACTIVITY) * :B25 ) BUCKET_PARALLEL_MON_SECONDS, (AD1.BUCKET_OTHER_ACTIVITY * :B25 ) BUCKET_OTH ER_SECONDS, DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, SUM(AD1.ACTIVITY_COUNT) OVER(PARTITION BY DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, AD1.BUCKET_NUM), AD1.PX_DFO_PAIR_ID)) DFO_PAIR_TOTAL_ACTIVITY, DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, SUM(DECODE(AD1.ACTIVITY_TYPE, 'Cpu', AD1.ACTIVITY_COUNT, 0)) OVER(PARTITION BY DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, AD1.BUCKET_NUM), AD1.PX_DFO_PAIR_ID)) DFO_PAIR_CPU_ACTIVITY FROM (SELECT AD01., NVL((SUM(DECODE(AD01.IS_MONITORED_SQL, 1, AD01.ACTIVITY_COUNT, NULL)) OVER(PARTITION BY AD01.BUCKET_NUM)), 0) BUCKET_TOTAL_MON_ACTIVITY, (NVL(SUM(CASE WHEN AD01.IS_MONITORED_SQL = 1 AND AD01.PX_ID IS NULL THEN AD01.ACTIVITY_COUNT ELSE NULL END) OVER(PARTITION BY AD01.BUCKET_NUM), 0)) BUCKET_SERIAL_MON_ACTIVITY, (NVL((SUM(DECODE(AD01.IS_MONITORED_SQL, 0, AD01.SQL_BUCKET_DISTINCT_SAMPLES, NULL)) OVER(PARTITION BY AD01.BUCKET_NUM)), 0)) BUCKET_OTHER_ACTIVITY, (NVL(AD01.BUCKET_DISTINCT_SAMPLES, 0) :B25 ) BUCKET_ACTIVE_SECONDS, DE CODE(AD01.BUCKET_NUM, :B27 , MOD(:B32 , :B26 ), :B26 ) BUCKET_INTERVAL FROM (SELECT AD0.ACTIVITY_BUCKET_NUM BUCKET_NUM, AD0.PX_ID, AD0.ACTIVITY_TYPE, AD0.OTHER_SQL_ACTIVITY_TYPE, AD0.EVENT_NAME, AD0.PLAN_LINE_ID, AD0.PX_STEP_ID, AD0.PX_STEP_ARG, AD0.PLSQL_OBJECT_ID, AD0.PLSQL_SUBPROGRAM_ID, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT, MIN(AD0.ACTIVITY_START) ACTIVITY_START, MAX(AD0.ACTIVITY_END) ACTIVITY_END, MAX(AD0.IS_MONITORED_SQL) IS_MONITORED_SQL, MAX(AD0.SQL) SQL, MAX(AD0.TOP_LEVEL_SQL_ID) TOP_LEVEL_SQL_ID, MAX(AD0.DBOP_NAME) DBOP_NAME, MAX(DECODE(AD0.DFO_MOST_ACTIVE_COUNT, NULL, NULL, AD0.DFO_MOST_ACTIVE_IID)) DFO_MOST_ACTIVE_IID, MAX(DECODE(AD0.DFO_MOST_ACTIVE_COUNT, NULL, NULL, AD0.DFO_MOST_ACTIVE_SID)) DFO_MOST_ACTIVE_SID, SUM(AD0.DFO_MOST_ACTIVE_COUNT) DFO_MOST_ACTIVE_COUNT, MAX(PX_DFO_PAIR_TYPE) PX_DFO_PAIR_TYPE, MAX(PX_DFO_PAIR_ID) PX_DFO_PAIR_ID, MAX(AD0.PX_DOP) PX_DOP, MIN(AD0.PX_MIN_DOP) PX_MIN_DOP, MAX(AD0.BUCKET_DISTINCT_SAMPLES) BUCKET_DI STINCT_SAMPLES, MAX(AD0.SQL_BUCKET_DISTINCT_SAMPLES) SQL_BUCKET_DISTINCT_SAMPLES FROM (SELECT AD00., (CASE WHEN AD00.IS_MONITORED_SQL = 1 AND (AD00.SESSION_ID != :B19 OR AD00.INST_ID != :B17 ) THEN AD00.PX_SERVER_GROUP END) PX_ID FROM ASH_DATA AD00 WHERE :B33 = 1 ) AD0 GROUP BY AD0.ACTIVITY_BUCKET_NUM, AD0.PX_ID, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, AD0.OTHER_SQL_ACTIVITY_TYPE, AD0.PLAN_LINE_ID, AD0.PLSQL_OBJECT_ID, AD0.PLSQL_SUBPROGRAM_ID, AD0.PX_STEP_ID, AD0.PX_STEP_ARG ) AD01) AD1) AD2) AD3) ADH_0) ADH_1) ADH) SELECT /+ no_monitor no_xml_query_rewrite / XMLELEMENT( "sql_monitor_report", XMLATTRIBUTES(:B59 AS "version", TO_CHAR(:B58 , :B12 ) AS "sysdate"), XMLELEMENT( "report_parameters", NULL, CASE WHEN :B57 IS NOT NULL THEN XMLFOREST( :B57 AS "dbop_name", :B56 AS "dbop_exec_id") ELSE XMLFOREST( :B55 AS "sql_id", :B54 AS "sql_exec_id") END, XMLFOREST( :B53 AS "session_id", :B52 AS "session_serial", TO_CHAR(:B51 , :B12 ) AS "sql_exec_start", :B27 AS "bucket_count", TO_CHAR(:B50 , :B12 ) AS "interval_start", TO_CHAR(:B22 , :B12 ) AS "interval_end", DECODE(:B49 , 'Y', :B48 , NULL) AS "auto_refresh", :B47 AS "base_path"), CASE WHEN :B23 = 'Y' AND :B46 IS NOT NULL AND NOT (:B4 = 1 AND :B3 IS NULL AND :B2 IS NULL AND :B1 IS NULL) THEN XMLELEMENT( "parallel_filter", NULL, XMLFOREST( DECODE(:B4 , 1, 'yes', 'no') AS "qc", :B3 AS "server_group", :B2 AS "server_set", :B1 AS "server_number")) ELSE NULL END), CASE WHEN :B14 = 1 THEN XMLELEMENT( "derived_parameters_testing", NULL, XMLFOREST(:B11 AS "instance_id_low", :B10 AS "instance_id_high", :B26 AS "bucket_interval_sec", :B32 AS "interval_second", :B27 AS "bucket_calc_count", :B45 AS "bucket_calc_max_co unt", :B13 AS "sel_sqltext")) ELSE NULL END, (SELECT XMLCONCAT( CASE WHEN :B46 IS NULL AND :B60 IS NULL THEN XMLELEMENT( "target", XMLATTRIBUTES(:B17 AS "instance_id", :B19 AS "session_id", :B18 AS "session_serial", NVL2(:B6 , NULL, :B9 ) AS "sql_id", NVL2(:B6 , NULL, TO_CHAR(:B8 , :B12 )) AS "sql_exec_start", NVL2(:B6 , NULL, :B7 ) AS "sql_exec_id", NVL2(:B6 , :B6 , NULL) AS "dbop_name", NVL2(:B6 , :B5 , NULL) AS "dbop_exec_id", NVL2(:B6 , TO_CHAR(:B8 , :B12 ), NULL) AS "dbop_exec_start", NVL2(:B6 , NULL, MAX_PLAN_HASH_VALUE) AS "sql_plan_hash", NVL2(:B6 , NULL, MAX_FULL_PLAN_HASH_VALUE) AS "sql_full_plan_hash", MAGG.DB_UNIQUE_NAME AS "db_unique_name", MAGG.PLATFORM_NAME AS "db_platform_name", MAGG.HOST_NAME AS "report_host_name"), NVL2(SUM_SERVERS_REQUESTED, XMLELEMENT( "servers_re quested", NULL, SUM_SERVERS_REQUESTED), NULL), NVL2(SUM_SERVERS_ALLOCATED, XMLELEMENT( "servers_allocated", NULL, SUM_SERVERS_ALLOCATED), NULL), NVL2(MAX_USERID, XMLELEMENT( "user_id", NULL, MAX_USERID), NULL), NVL2(MAX_USERNAME, XMLELEMENT( "user", NULL, MAX_USERNAME), NULL), NVL2(MAX_CON_ID, XMLELEMENT( "con_id", NULL, MAX_CON_ID), NULL), NVL2(MAX_CON_NAME, XMLELEMENT( "con_name", NULL, MAX_CON_NAME), NULL), NVL2(MAX_PROGRAM, XMLELEMENT( "program", NULL, MAX_PROGRAM), NULL), NVL2(MAX_MODULE, XMLELEMENT( "module", NULL, MAX_MODULE), NULL), NVL2(MAX_ACTION, XMLELEMENT( "action", NULL, MAX_ACTION), NULL), NVL2(MAX_SERVICE_NAME, XMLELEMENT( "service", NULL, MAX_SERVICE_NAME), NULL), NVL2(MAX_CLIENT_ID, XMLELEMENT( "client_id", NULL, MAX_CLIENT_ID), NULL), NVL2(MAX_CLIENT_INFO, XMLELEMENT( "client_info", NULL, MAX_CLIEN T_INFO), NULL), NVL2(MAX_PL_ENTRY_OID, XMLELEMENT( "plsql_entry_object_id", NULL, MAX_PL_ENTRY_OID), NULL), NVL2(MAX_PL_ENTRY_PROGID, XMLELEMENT( "plsql_entry_subprogram_id", NULL, MAX_PL_ENTRY_PROGID), NULL), NVL2(MAX_PL_ENTRY_NAME, XMLELEMENT( "plsql_entry_name", NULL, MAX_PL_ENTRY_NAME), NULL), NVL2(MAX_PL_OID, XMLELEMENT( "plsql_object_id", NULL, MAX_PL_OID), NULL), NVL2(MAX_PL_PROGID, XMLELEMENT( "plsql_subprogram_id", NULL, MAX_PL_PROGID), NULL), NVL2(MAX_PL_NAME, XMLELEMENT( "plsql_name", NULL, MAX_PL_NAME), NULL), CASE WHEN (:B13 = 0 OR :B6 IS NOT NULL) THEN NULL ELSE XMLELEMENT( "sql_fulltext", XMLATTRIBUTES(NVL2(SQL_VTEXT, 'Y', IS_FULL_TEXT) AS "is_full"), NVL2(SQL_VTEXT, SQL_VTEXT, SQLMON_TEXT)) END, XMLELEMENT( "status", NULL, MAX_STATUS), XMLELEMENT( "refresh_count", NULL, SUM_REFRESH_COUNT), XMLELEMENT( "first_refresh_time ", NULL, TO_CHAR(MIN_FIRST_REFRESH_TIME, :B12 )), XMLELEMENT( "last_refresh_time", NULL, TO_CHAR(:B58 , :B12 )), XMLELEMENT( "duration", NULL, GREATEST(:B65 , LEAST(MAX_ELAPSED_TIME/1000000, 1), CEIL(MAX_QUEUING_TIME/1000000))), DECODE(MAX_RM_INFO, '00/00/0000 00:00:00', NULL, XMLTYPE(SUBSTR(MAX_RM_INFO, 20))), CASE WHEN (:B63 = 'Y') THEN XMLELEMENT( "adaptive_plan", XMLATTRIBUTES(:B64 AS "is_final"), :B63 ) ELSE NULL END, NVL((SELECT XMLFOREST( XMLAGG( XMLELEMENT( "param", XMLATTRIBUTES(E.NAME AS "name"), DECODE(:B14 , 1, 'XXXX', E.VALUE)) ORDER BY E.NAME) AS "optimizer_env") SQL_ENV FROM GV$SQL_OPTIMIZER_ENV E WHERE E.INST_ID = :B17 AND E.SQL_ID = :B9 AND E.CHILD_ADDRESS = HEXTORAW(:B66 ) AND (DECODE(:B14 , 1, 'YES', E.ISDEFAULT) = 'NO' OR E.ID IN (2, 12, 24, 35, 36, 37, 246, 256, 257, 274, 275, 289, 290))), (SELECT XMLELEMENT( "optimizer_env", XMLATTRIBUTE S('sys' AS "type"), XMLAGG( XMLELEMENT( "param", XMLATTRIBUTES(E.NAME AS "name"), DECODE(:B14 , 1, 'XXXX', E.VALUE)) ORDER BY E.NAME)) SYS_ENV FROM V$SYS_OPTIMIZER_ENV E WHERE (DECODE(:B14 , 1, 'YES', E.ISDEFAULT) = 'NO' OR E.ID IN (2, 12, 24, 35, 36, 37, 246, 256, 257, 274, 275, 289, 290)))) ) END, XMLELEMENT( "stats", XMLATTRIBUTES('monitor' AS "type"), DECODE(NVL(SUM_ELAPSED_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), SUM_ELAPSED_TIME)), DECODE(NVL(MAX_QUEUING_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MAX_QUEUING_TIME)), DECODE(NVL(SUM_CPU_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), SUM_CPU_TIME)), DECODE(NVL(SUM_USER_IO_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name "), SUM_USER_IO_WAIT_TIME)), DECODE(NVL(SUM_APPLICATION_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), SUM_APPLICATION_WAIT_TIME)), DECODE(NVL(SUM_CONCURRENCY_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('concurrency_wait_time' AS "name"), SUM_CONCURRENCY_WAIT_TIME)), DECODE(NVL(SUM_CLUSTER_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), SUM_CLUSTER_WAIT_TIME)), DECODE(NVL(SUM_PLSQL_EXEC_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), SUM_PLSQL_EXEC_TIME)), DECODE(NVL(SUM_JAVA_EXEC_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), SUM_JAVA_EXEC_TIME)), DECODE(NVL(SUM_OTHER_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('other_wait_time' AS "name "), SUM_OTHER_WAIT_TIME)), DECODE(NVL(SUM_FETCHES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), SUM_FETCHES)), DECODE(NVL(SUM_BUFFER_GETS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), SUM_BUFFER_GETS)), DECODE(NVL(SUM_READ_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('disk_reads' AS "name"), SUM_READ_REQS)), DECODE(NVL(SUM_WRITE_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('direct_writes' AS "name"), SUM_WRITE_REQS)), DECODE(NVL(SUM_READ_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), SUM_READ_REQS)), DECODE(NVL(SUM_READ_BYTES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), SUM_READ_BYTES)), DECODE(NVL(SUM_WRITE_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), SUM_WRITE_REQS)), DECODE(NVL(SUM_WRITE_BYTES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), SUM_WRITE_BYTES)), DECODE(NVL(SUM_IO_UNC_BYTES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('unc_bytes' AS "name"), SUM_IO_UNC_BYTES)), DECODE(NVL(SUM_IO_ELIG_BYTES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elig_bytes' AS "name"), SUM_IO_ELIG_BYTES)), DECODE(NVL(SUM_IO_RET_BYTES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('ret_bytes' AS "name"), SUM_IO_RET_BYTES)), CASE WHEN SUM_IO_INTER_BYTES IS NULL OR SUM_IO_BYTES = 0 OR SUM_IO_INTER_BYTES = SUM_IO_BYTES OR NVL(SUM_IO_ELIG_BYTES, 0) = 0 THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(SUM_IO_BYTES / DECODE(SUM_IO_INTER_BYTES, 0, 1, SUM_IO_INTER_BYTES), 2)) END, CASE WHEN NVL(SUM_IO_ELIG_BYTES, 0) = 0 OR SUM_IO_UNC_BYTES = SUM_IO_RET_BYTES THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency2' AS "name"), GREATEST(0, ROUND(100 (SUM_IO_UNC_BYTES - SUM_IO_RET_BYTES) / SUM_IO_ELIG_BYTES, 2))) END), CASE WHEN :B33 = 1 THEN (SELECT CASE WHEN SUM(ACTIVITY_COUNT) > 0 THEN XMLELEMENT( "activity_sampled", XMLAGG( XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME)) ELSE NULL END FROM (SELECT AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT FROM ASH_DATA AD0 GROUP BY AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1) ELSE NULL END, NVL2(MAX_ERROR_NUMBER, XMLELEMENT( "error", XMLATTRIBUTES(MAX_ERROR_NUMBER AS "number", MAX_ERROR_FACILITY AS "facility"), MAX_ERROR_MESSAGE), NULL), CASE WHEN :B62 = 1 AND MAGG.QC_HAS_BINDS_XML = 'Y' THEN (SEL ECT XMLTYPE(BINDS_XML) FROM GV$SQL_MONITOR MON WHERE MON.INST_ID = :B17 AND MON.KEY = MAGG.MAX_KEY AND MON.SID = MAGG.MAX_SESSION_ID AND MON.SQL_ID = :B9 AND MON.SQL_EXEC_START = :B8 AND MON.SQL_EXEC_ID = :B7 AND ROWNUM = 1) ELSE NULL END, CASE WHEN :B61 = 1 AND MAGG.QC_HAS_OTHER_XML = 'Y' THEN (SELECT XMLTYPE(OTHER_XML) FROM GV$SQL_MONITOR MON WHERE MON.INST_ID = MAGG.MAX_INST_ID AND MON.KEY = MAGG.MAX_KEY AND MON.SID = MAGG.MAX_SESSION_ID AND MON.SQL_ID = :B9 AND MON.SQL_EXEC_START = :B8 AND MON.SQL_EXEC_ID = :B7 AND ROWNUM = 1) ELSE NULL END) FROM (SELECT V., CASE WHEN :B13 = 2 AND IS_FULL_TEXT = 'N' AND :B46 IS NULL AND :B60 IS NULL THEN (SELECT SQL_FULLTEXT FROM GV$SQL SQ WHERE SQ.INST_ID BETWEEN :B11 AND :B10 AND SQ.SQL_ID = :B9 AND ROWNUM = 1) ELSE NULL END SQL_VTEXT FROM MONITOR_AGG V) MAGG), CASE WHEN :B44 = 1 THEN (SELECT CASE WHEN AT.ACTIVITY_COUNT > 0 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( :B41 AS "ash_missing_seconds", TO_CHAR(AT.A CTIVITY_START, :B12 ) AS "first_sample_time", TO_CHAR(AT.ACTIVITY_END, :B12 ) AS "last_sample_time", ROUND((AT.ACTIVITY_END - AT.ACTIVITY_START) 3600 * 24) + 1 AS "duration", AT.ACTIVITY_COUNT AS "count", AT.IMQ_COUNT AS "imq_count", AT.WAIT_COUNT AS "wait_count", AT.CPU_COUNT AS "cpu_count", DECODE(AT.OTHER_SQL_COUNT, 0, NULL, AT.OTHER_SQL_COUNT) AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), AT.ACTIVITY_TOTAL, AH.GLOB_ACTIVITY_HISTO) WHEN :B41 IS NOT NULL THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( DECODE( :B41 , -1, 'all', TO_CHAR( :B41 )) AS "ash_missing_seconds")) ELSE NULL END FROM (SELECT MIN(AD1.ACTIVITY_START) ACTIVITY_START, MAX(AD1.ACTIVITY_END) ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD1.IMQ_COUNT) IMQ_COUNT, SUM(AD1.WAIT_COUNT) WAIT_COUNT, SUM(AD1.CPU_COUNT) CPU_COUNT, SUM(AD1.OTHER _SQL_COUNT) OTHER_SQL_COUNT, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)\|\| AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG( XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_TOTAL FROM (SELECT AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(AD0.ACTIVITY_START) ACTIVITY_START, MAX(AD0.ACTIVITY_END) ACTIVITY_END, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTHER_SQL_COUNT FROM ASH_DATA AD0 GROUP BY AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1) AT, (SELECT CASE WHEN :B30 = 1 AND :B27 > 1 THEN XMLELEMENT( "activity_histogram", XMLATTRIBUTES( :B26 AS "bucket_interval", :B27 AS "bucket_count", TO_CHAR( :B20 , :B12 ) AS "start_time", TO_CHAR( :B22 , :B12 ) AS "end_time", ROUND(( :B 22 - :B20 ) 360024) + 1 AS "duration"), XMLAGG( XMLELEMENT( "bucket", XMLATTRIBUTES( AD2.BUCKET_NUM AS "number"), ACTIVITY_BUCKET) ORDER BY AD2.BUCKET_NUM)) ELSE NULL END GLOB_ACTIVITY_HISTO FROM (SELECT AD1.BUCKET_NUM, SUM(ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(IMQ_COUNT) IMQ_COUNT, SUM(WAIT_COUNT) WAIT_COUNT, SUM(CPU_COUNT) CPU_COUNT, SUM(OTHER_SQL_COUNT) OTHER_SQL_COUNT, MIN(AD1.ACTIVITY_START) ACTIVITY_START, MAX(AD1.ACTIVITY_END) ACTIVITY_END, MIN(AD1.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD1.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)\|\| AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG( XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_BUCKET FROM (SELECT AD0.ACTIVITY_BUCKET_NUM BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(AD0.ACTIVI TY_START) ACTIVITY_START, MAX(AD0.ACTIVITY_END) ACTIVITY_END, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTHER_SQL_COUNT, MIN(AD0.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD0.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END FROM ASH_DATA AD0 GROUP BY AD0.ACTIVITY_BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1 GROUP BY AD1.BUCKET_NUM) AD2) AH) ELSE NULL END, CASE WHEN :B33 = 1 THEN (SELECT CASE WHEN AH.ACTIVITY_COUNT > 0 THEN XMLELEMENT( "activity_detail", XMLATTRIBUTES( TO_CHAR( :B20 , :B12 ) AS "start_time", TO_CHAR( :B22 , :B12 ) AS "end_time", :B41 AS "ash_missing_seconds", TO_CHAR(AH.ACTIVITY_START, :B12 ) AS "first_sample_time", TO_CHAR(AH.ACTIVITY_END, :B12 ) AS "last_sample_time", ROUND((AH.ACTIVITY_END - AH.ACTIVITY_START) * 3600 * 24) + 1 AS "duration", :B25 AS "sample_interval", :B26 AS "bucket_interval", :B27 AS "bucket_count", ROUND((:B22 - :B20 ) 360024) + 1 AS "bucket_duration", :B40 AS "cpu_cores", :B34 AS "total_cpu_cores", :B39 AS "hyperthread"), AH.GLOB_ACTIVITY_HISTO) WHEN :B41 IS NOT NULL THEN XMLELEMENT( "activity_detail", XMLATTRIBUTES( DECODE( :B41 , -1, 'all', TO_CHAR( :B41 )) AS "ash_missing_seconds")) ELSE NULL END FROM (SELECT MIN(AD2.ACTIVITY_START) ACTIVITY_START, MAX(AD2.ACTIVITY_END) ACTIVITY_END, SUM(AD2.ACTIVITY_COUNT) ACTIVITY_COUNT, XMLAGG( XMLELEMENT( "bucket", XMLATTRIBUTES( AD2.BUCKET_NUM AS "number"), ACTIVITY_BUCKET_XML) ORDER BY AD2.BUCKET_NUM) GLOB_ACTIVITY_HISTO FROM (SELECT AD1.BUCKET_NUM, MIN(AD1.ACTIVITY_START) ACTIVITY_START, MAX(AD1.ACTIVITY_END) ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) ACTIVITY_COUNT, MAX(AD1.BUCKET_IDLE_SECONDS) BUCKET_IDLE_SECONDS, XMLAGG( XMLCONCAT( CASE W HEN AD1.DFO_PAIR_IDLE_RESP_TIME != 0 AND DFO_PAIR_ROWNUM = 1 THEN XMLELEMENT( "activity", XMLATTRIBUTES( 'Parallel Skew' AS "class", AD1.PX_STEP_ARG AS "line", AD1.PX_ID AS "px", ROUND(AD1.DFO_PAIR_IDLE_RESP_TIME, 2) AS "rt"), 0) ELSE NULL END, XMLELEMENT( "activity", XMLATTRIBUTES( NVL(AD1.OTHER_SQL, AD1.RPI) AS "sql", AD1.NON_SQL AS "non_sql", AD1.CLASS AS "class", AD1.OTHER_SQL_CLASS AS "other_sql_class", AD1.EVENT AS "event", AD1.PLAN_LINE_ID AS "line", NVL2(AD1.PLSQL_OBJECT_ID, AD1.PLSQL_OBJECT_ID\|\|'.'\|\| AD1.PLSQL_SUBPROGRAM_ID, NULL) AS "plsql_id", AD1.PLSQL_NAME AS "plsql_name", CASE WHEN AD1.SQL_ROWNUM = 1 THEN AD1.TOP_LEVEL_SQL_ID END AS "top_sql_id", CASE WHEN AD1.DBOP_NAME IS NOT NULL THEN AD1.DBOP_NAME END AS "dbop_name", CASE WHEN AD1.DFO_MOST_ACTIVE_IID IS NOT NULL AND :B67 = 'Y' THEN AD1.DFO_M OST_ACTIVE_IID END AS "skew_iid", DECODE(AD1.DFO_MOST_ACTIVE_COUNT, NULL, NULL, AD1.DFO_MOST_ACTIVE_SID) AS "skew_sid", AD1.DFO_MOST_ACTIVE_COUNT AS "skew_count", DECODE(AD1.PX_DOP, :B28 , NULL, AD1.PX_DOP) AS "dop", DECODE(AD1.PX_DOP, AD1.PX_MIN_DOP, NULL, AD1.PX_MIN_DOP) AS "min_dop", AD1.PX_ID AS "px", AD1.PX_STEP_ID AS "step", AD1.PX_STEP_ARG AS "arg", DECODE(AD1.ACTIVITY_COUNT, AD1.RESP_TIME, NULL, ROUND(AD1.RESP_TIME, 2)) AS "rt"), AD1.ACTIVITY_COUNT)) ORDER BY AD1.PX_STEP_ID, AD1.PX_STEP_ARG, AD1.DFO_PAIR_ROWNUM) ACTIVITY_BUCKET_XML FROM (SELECT AD01., CASE WHEN AD01.ACTIVITY_TYPE != 'Other SQL Execution' AND AD01.ACTIVITY_TYPE != 'Non SQL' THEN AD01.ACTIVITY_TYPE END CLASS, CASE WHEN (AD01.ACTIVITY_TYPE = 'Other SQL Execution' OR AD01.ACTIVITY_TYPE = 'Non SQL') THEN AD01.OTHER_SQL_ACTIVITY_TYPE END OTHER_SQL_CLASS, CASE WHEN AD01.ACTIVITY_TYPE != 'Other SQL Execu tion' AND AD01.ACTIVITY_TYPE != 'Non SQL' THEN AD01.EVENT_NAME END EVENT, CASE WHEN AD01.SQL IN ('this', 'anonymous') THEN NULL ELSE AD01.SQL END RPI, DECODE(AD01.ACTIVITY_TYPE, 'Other SQL Execution', SUBSTR(AD01.EVENT_NAME, 9), NULL) OTHER_SQL, DECODE(AD01.ACTIVITY_TYPE, 'Non SQL', AD01.EVENT_NAME, NULL) NON_SQL, ROW_NUMBER() OVER(PARTITION BY AD01.BUCKET_NUM, AD01.PX_DFO_PAIR_ID ORDER BY AD01.ACTIVITY_TYPE, AD01.EVENT_NAME, AD01.PLAN_LINE_ID) DFO_PAIR_ROWNUM FROM RESPONSE_TIME_DATA AD01) AD1 GROUP BY AD1.BUCKET_NUM) AD2) AH) ELSE NULL END, CASE WHEN :B23 = 'Y' THEN (SELECT XMLELEMENT( "parallel_info", XMLATTRIBUTES( :B17 AS "qc_instance_id", MAX_PX_QCSID AS "qc_session_id", MAX_PX_IS_CROSS_INSTANCE AS "is_cross_instance", MAX_PX_DOP AS "dop", MAX_PX_DOP_INSTANCES AS "max_dop_instances", DIST_INST_COUNT AS "inst_count", DIST_PX_GROUP_COUNT AS "server_group_count", DIST_PX_SET_COUNT AS "server_set_count"), CASE WHEN :B69 = 1 THEN PX_SESSIONS ELSE NULL END, CASE WHEN :B67 = 'Y' THEN DECODE(:B68 , 1, PX_INSTANCES, NULL) ELSE NULL END) FROM (SELECT MAX_PX_QCSID, MAX_PX_DOP, MAX_PX_DOP_INSTANCES, MAX_PX_IS_CROSS_INSTANCE, SUM_SERVERS_REQUESTED, SUM_SERVERS_ALLOCATED, DIST_INST_COUNT, DIST_PX_GROUP_COUNT, DIST_PX_SET_COUNT, (SELECT XMLELEMENT( "sessions", XMLATTRIBUTES(MAX(PX_SESSION.ACTIVITY_COUNT) AS "max_activity_count", MAX(PX_SESSION.IMQ_COUNT) AS "max_imq_count", MAX(PX_SESSION.CPU_COUNT) AS "max_cpu_count", MAX(PX_SESSION.WAIT_COUNT) AS "max_wait_count", MAX(PX_SESSION.OTHER_SQL_COUNT) AS "max_other_sql_count", MAX(PX_SESSION.MAX_IO_REQS) AS "max_io_reqs", MAX(PX_SESSION.MAX_IO_BYTES) AS "max_io_bytes", MAX(PX_SESSION.MAX_BUFFER_GETS) AS "max_buffer_gets", MAX(PX_SESSION.MAX_ELAPSED_TIME) AS "max_elapsed_time"), XMLAGG(PX_SESSION. PX_SESSION_XML ORDER BY PX_SERVER_GROUP NULLS FIRST, PX_SERVER_SET, PX_SERVER#)) FROM (SELECT PX_SERVER_GROUP, PX_SERVER_SET, PX_SERVER#, MAX(PI.MAX_ELAPSED_TIME) MAX_ELAPSED_TIME, MAX(PI.MAX_IO_REQS) MAX_IO_REQS, MAX(PI.MAX_IO_BYTES) MAX_IO_BYTES, MAX(PI.MAX_BUFFER_GETS) MAX_BUFFER_GETS, SUM(PI.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(PI.IMQ_COUNT) IMQ_COUNT, SUM(PI.WAIT_COUNT) WAIT_COUNT, SUM(PI.CPU_COUNT) CPU_COUNT, SUM(PI.OTHER_SQL_COUNT) OTHER_SQL_COUNT, XMLELEMENT( "session", XMLATTRIBUTES( INST_ID AS "inst_id", PROCESS_NAME AS "process_name", SID AS "session_id", SESSION_SERIAL# AS "session_serial", PX_SERVER_GROUP AS "server_group", PX_SERVER_SET AS "server_set", PX_SERVER# AS "server_num"), XMLELEMENT( "stats", XMLATTRIBUTES( 'monitor' AS "type"), NVL2(MAX(ELAPSED_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MAX(EL APSED_TIME)), NULL), NVL2(MAX(QUEUING_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MAX(QUEUING_TIME)), NULL), NVL2(MAX(CPU_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MAX(CPU_TIME)), NULL), NVL2(MAX(USER_IO_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), MAX(USER_IO_WAIT_TIME)), NULL), NVL2(MAX(APPLICATION_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MAX(APPLICATION_WAIT_TIME)), NULL), NVL2(MAX(CONCURRENCY_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('concurrency_wait_time' AS "name"), MAX(CONCURRENCY_WAIT_TIME)), NULL), NVL2(MAX(CLUSTER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MAX(CLUSTER_WAIT_TIME)), NULL), NVL2(MAX(PLSQL_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exe c_time' AS "name"), MAX(PLSQL_EXEC_TIME)), NULL), NVL2(MAX(JAVA_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MAX(JAVA_EXEC_TIME)), NULL), NVL2(MAX(OTHER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES( 'other_wait_time' AS "name"), MAX(OTHER_WAIT_TIME)), NULL), NVL2(MAX(FETCHES), XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MAX(FETCHES)), NULL), NVL2(MAX(BUFFER_GETS), XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), MAX(BUFFER_GETS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('disk_reads' AS "name"), MAX(READ_REQS)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('direct_writes' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MAX(READ_REQS)), NULL), NVL2(MAX(READ_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), MAX(READ_BYTES)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(WRITE_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MAX(WRITE_BYTES)), NULL), NVL2(MAX(IO_UNC_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('unc_bytes' AS "name"), MAX(IO_UNC_BYTES)), NULL), NVL2(MAX(IO_ELIG_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('elig_bytes' AS "name"), MAX(IO_ELIG_BYTES)), NULL), NVL2(MAX(IO_RET_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('ret_bytes' AS "name"), MAX(IO_RET_BYTES)), NULL), CASE WHEN MAX(IO_INTER_BYTES) IS NULL OR NVL(MAX(IO_BYTES), 0) = 0 OR MAX(IO_INTER_BYTES) = MAX(IO_BYTES) OR NVL(MAX(IO_ELIG_BYTES), 0) = 0 THEN NULL ELSE XMLELEMENT( "stat", XM LATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MAX(IO_BYTES) / DECODE(MAX(IO_INTER_BYTES), 0, 1, MAX(IO_INTER_BYTES)), 2)) END, CASE WHEN NVL(MAX(IO_ELIG_BYTES), 0) = 0 OR MAX(IO_UNC_BYTES) = MAX(IO_RET_BYTES) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency2' AS "name"), GREATEST(0, ROUND(100 (MAX(IO_UNC_BYTES) - MAX(IO_RET_BYTES)) / MAX(IO_ELIG_BYTES), 2))) END), CASE WHEN SUM(PI.ACTIVITY_COUNT) > 0 AND :B33 = 1 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( TO_CHAR(MIN(PI.ACTIVITY_START), :B12 ) AS "first_sample_time", TO_CHAR(MAX(PI.ACTIVITY_END), :B12 ) AS "last_sample_time", ROUND((MAX(PI.ACTIVITY_END) - MIN(PI.ACTIVITY_START)) * 3600 * 24) + 1 AS "duration", SUM(PI.ACTIVITY_COUNT) AS "count", SUM(PI.IMQ_COUNT) AS "imq_count", SUM(PI.CPU_COUNT) AS "cpu_count", SUM(PI.WAIT_COUNT) AS "wait_count", SUM(PI.OTHER _SQL_COUNT)AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), XMLAGG( NVL2(ACTIVITY_TYPE, XMLELEMENT( "activity", XMLATTRIBUTES( PI.ACTIVITY_TYPE AS "class", PI.EVENT_NAME AS "event"), ACTIVITY_COUNT), NULL) ORDER BY PI.ACTIVITY_TYPE, PI.EVENT_NAME)) ELSE NULL END, CASE WHEN :B61 = 1 AND PI.HAS_OTHER_XML = 'Y' THEN (SELECT XMLTYPE(OTHER_XML) FROM GV$SQL_MONITOR MON WHERE MON.INST_ID = PI.INST_ID AND MON.KEY = PI.KEY AND MON.SID = PI.SID AND MON.SQL_ID = :B9 AND MON.SQL_EXEC_START = :B8 AND MON.SQL_EXEC_ID = :B7 AND ROWNUM = 1) ELSE NULL END) PX_SESSION_XML FROM (SELECT MO.HAS_OTHER_XML, MO.KEY, MO.INST_ID, DECODE(MO.PROCESS_NAME, 'ora', 'PX Coordinator', MO.PROCESS_NAME) PROCESS_NAME, MO.SID, MO.SESSION_SERIAL#, MO.PX_SERVER_GROUP, MO.PX_SERVER_SET, MO.PX_SERVER#, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME, MAX(MO.IO_REQS) MAX_IO_REQS, MAX(MO.IO_BYTES) MAX_IO_BYTES, MAX(MO.BUFFER_GETS) MAX_BU FFER_GETS, MAX(MO.ELAPSED_TIME) MAX_ELAPSED_TIME, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.ACTIVITY_COUNT)) ACTIVITY_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.IMQ_COUNT)) IMQ_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.WAIT_COUNT)) WAIT_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.CPU_COUNT)) CPU_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.OTHER_SQL_COUNT)) OTHER_SQL_COUNT, MIN(ASH0.ACTIVITY_START) ACTIVITY_START, MAX(ASH0.ACTIVITY_END) ACTIVITY_END, MAX(DECODE(MO.ELAPSED_TIME, 0, NULL, MO.ELAPSED_TIME)) ELAPSED_TIME, MAX(DECODE(MO.QUEUING_TIME, 0, NULL, MO.QUEUING_TIME)) QUEUING_TIME, MAX(DECODE(MO.CPU_TIME, 0, NULL, CPU_TIME)) CPU_TIME, MAX(DECODE(MO.FETCHES, 0, NULL, FETCHES)) FETCHES, MAX(DECODE(MO.BUFFER_GETS, 0, NULL, MO.BUFFER_GETS)) BUFFER_GETS, MAX(DECODE(MO.IO_INTER_BYTES, 0, NULL, MO.IO_INTER_BYTES)) IO_INTER_BYTES, MAX(DECODE(MO.READ_REQS, 0, NULL, MO.READ_REQS)) READ_REQS , MAX(DECODE(MO.READ_BYTES, 0, NULL, MO.READ_BYTES)) READ_BYTES, MAX(DECODE(MO.WRITE_REQS, 0, NULL, MO.WRITE_REQS)) WRITE_REQS, MAX(DECODE(MO.WRITE_BYTES, 0, NULL, MO.WRITE_BYTES)) WRITE_BYTES, MAX(DECODE(MO.IO_BYTES, 0, NULL, MO.IO_BYTES)) IO_BYTES, MAX(DECODE(MO.IO_UNC_BYTES, 0, NULL, MO.IO_UNC_BYTES)) IO_UNC_BYTES, MAX(DECODE(MO.IO_ELIG_BYTES, 0, NULL, MO.IO_ELIG_BYTES)) IO_ELIG_BYTES, MAX(DECODE(MO.IO_RET_BYTES, 0, NULL, MO.IO_RET_BYTES)) IO_RET_BYTES, MAX(DECODE(MO.APPLICATION_WAIT_TIME, 0, NULL, MO.APPLICATION_WAIT_TIME)) APPLICATION_WAIT_TIME, MAX(DECODE(MO.CONCURRENCY_WAIT_TIME, 0, NULL, MO.CONCURRENCY_WAIT_TIME)) CONCURRENCY_WAIT_TIME, MAX(DECODE(MO.CLUSTER_WAIT_TIME, 0, NULL, MO.CLUSTER_WAIT_TIME)) CLUSTER_WAIT_TIME, MAX(DECODE(MO.USER_IO_WAIT_TIME, 0, NULL, MO.USER_IO_WAIT_TIME)) USER_IO_WAIT_TIME, MAX(DECODE(PLSQL_EXEC_TIME, 0, NULL, PLSQL_EXEC_TIME)) PLSQL_EXEC_TIME, MAX(DECODE(MO.JAVA_EXEC_TIME, 0, NULL, MO.JAVA_EXEC_TIM E)) JAVA_EXEC_TIME, MAX(DECODE(MO.OTHER_WAIT_TIME, 0, NULL, MO.OTHER_WAIT_TIME)) OTHER_WAIT_TIME FROM MONITOR_DATA MO, (SELECT ASH1.INST_ID, ASH1.SESSION_ID, ASH1.ACTIVITY_TYPE, ASH1.EVENT_NAME, SUM(ASH1.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(ASH1.IMQ_COUNT) IMQ_COUNT, SUM(ASH1.WAIT_COUNT) WAIT_COUNT, SUM(ASH1.CPU_COUNT) CPU_COUNT, SUM(ASH1.OTHER_SQL_COUNT)OTHER_SQL_COUNT, MIN(ASH1.ACTIVITY_START) ACTIVITY_START, MAX(ASH1.ACTIVITY_END) ACTIVITY_END FROM ASH_DATA ASH1 GROUP BY ASH1.INST_ID, ASH1.SESSION_ID, ASH1.ACTIVITY_TYPE, ASH1.EVENT_NAME) ASH0 WHERE MO.INST_ID = ASH0.INST_ID(+) AND MO.SID = ASH0.SESSION_ID(+) AND (:B69 = 1 OR :B68 = 1) GROUP BY MO.INST_ID, MO.KEY, MO.HAS_OTHER_XML, MO.PROCESS_NAME, MO.SID, MO.SESSION_SERIAL#, MO.PX_SERVER_GROUP, MO.PX_SERVER_SET, MO.PX_SERVER#, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME) PI WHERE (:B69 = 1) GROUP BY PI.INST_ID, PI.KEY, PI.HAS_OTHER_XML, PI.SID, PI.PROCESS_NAME, PI.SESSION_SERIAL#, PI.PX_SERVER_GROUP, PI.PX_ SERVER_SET, PI.PX_SERVER#) PX_SESSION) PX_SESSIONS, (SELECT XMLELEMENT( "instances", XMLATTRIBUTES( MAX(PX_INSTANCE.ACTIVITY_COUNT) AS "max_activity_count", MAX(PX_INSTANCE.IMQ_COUNT) AS "max_imq_count", MAX(PX_INSTANCE.CPU_COUNT) AS "max_cpu_count", MAX(PX_INSTANCE.WAIT_COUNT) AS "max_wait_count", MAX(PX_INSTANCE.OTHER_SQL_COUNT) AS "max_other_sql_count", MAX(PX_INSTANCE.ELAPSED_TIME) AS "max_elapsed_time", MAX(PX_INSTANCE.BUFFER_GETS) AS "max_buffer_gets", MAX(PX_INSTANCE.IO_REQS) AS "max_io_reqs", MAX(PX_INSTANCE.IO_BYTES) AS "max_io_bytes"), XMLAGG(PX_INSTANCE.PX_INSTANCES_XML ORDER BY INST_ID)) FROM (SELECT PI.INST_ID, MAX(PI.ELAPSED_TIME) ELAPSED_TIME, MAX(PI.IO_REQS) IO_REQS, MAX(PI.IO_BYTES) IO_BYTES, MAX(PI.BUFFER_GETS) BUFFER_GETS, SUM(PI.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(PI.IMQ_COUNT) IMQ_COUNT, SUM(PI.WAIT_COUNT) WAIT_COUNT, SUM(PI.CPU_COUNT) CPU_COUNT, SUM(PI.OTHER_SQL_COUNT) OTHER_SQL_COUNT, XMLELEMENT( "instance", XMLATTRIBUTES( INST_ID AS "inst_id"), XMLELEMENT( "stats", XMLATTRIBUTES( 'monitor' AS "type"), NVL2(MAX(ELAPSED_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MAX(ELAPSED_TIME)), NULL), NVL2(MAX(QUEUING_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MAX(QUEUING_TIME)), NULL), NVL2(MAX(CPU_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MAX(CPU_TIME)), NULL), NVL2(MAX(USER_IO_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), MAX(USER_IO_WAIT_TIME)), NULL), NVL2(MAX(APPLICATION_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MAX(APPLICATION_WAIT_TIME)), NULL), NVL2(MAX(CONCURRENCY_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES ('concurrency_wait_time' AS "name"), MAX(CONCURRENCY_WAIT_TIME)), NULL), NVL2(MAX(CLUSTER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MAX(CLUSTER_WAIT_TIME)), NULL), NVL2(MAX(PLSQL_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), MAX(PLSQL_EXEC_TIME)), NULL), NVL2(MAX(JAVA_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MAX(JAVA_EXEC_TIME)), NULL), NVL2(MAX(OTHER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES( 'other_wait_time' AS "name"), MAX(OTHER_WAIT_TIME)), NULL), NVL2(MAX(FETCHES), XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MAX(FETCHES)), NULL), NVL2(MAX(BUFFER_GETS), XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), MAX(BUFFER_GETS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRI BUTES('disk_reads' AS "name"), MAX(READ_REQS)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('direct_writes' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MAX(READ_REQS)), NULL), NVL2(MAX(READ_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), MAX(READ_BYTES)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(WRITE_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MAX(WRITE_BYTES)), NULL), NVL2(MAX(IO_UNC_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('unc_bytes' AS "name"), MAX(IO_UNC_BYTES)), NULL), NVL2(MAX(IO_ELIG_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('elig_bytes' AS "name"), MAX(IO_ELIG_BYTES)), NULL), NVL 2(MAX(IO_RET_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('ret_bytes' AS "name"), MAX(IO_RET_BYTES)), NULL), CASE WHEN MAX(IO_INTER_BYTES) IS NULL OR NVL(MAX(IO_BYTES), 0) = 0 OR MAX(IO_INTER_BYTES) = MAX(IO_BYTES) OR NVL(MAX(IO_ELIG_BYTES), 0) = 0 THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MAX(IO_BYTES)/ DECODE(MAX(IO_INTER_BYTES), 0, 1, MAX(IO_INTER_BYTES)), 2)) END, CASE WHEN NVL(MAX(IO_ELIG_BYTES), 0) = 0 OR MAX(IO_UNC_BYTES) = MAX(IO_RET_BYTES) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency2' AS "name"), GREATEST(0, ROUND(100* (MAX(IO_UNC_BYTES) - MAX(IO_RET_BYTES)) / MAX(IO_ELIG_BYTES), 2))) END), CASE WHEN :B33 = 1 AND SUM(PI.ACTIVITY_COUNT) > 0 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( TO_CHAR(MIN(PI.ACTIVITY_START), :B12 ) AS "start_time", TO_CHAR(MAX(PI.ACTIVITY_END), :B12 ) AS "end_ time", ROUND((MAX(PI.ACTIVITY_END) - MIN(PI.ACTIVITY_START)) * 3600 * 24) + 1 AS "duration", SUM(PI.ACTIVITY_COUNT) AS "count", SUM(PI.IMQ_COUNT) AS "imq_count", SUM(PI.WAIT_COUNT) AS "wait_count", SUM(PI.CPU_COUNT) AS "cpu_count", SUM(PI.OTHER_SQL_COUNT) AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), XMLAGG( NVL2(ACTIVITY_TYPE, XMLELEMENT( "activity", XMLATTRIBUTES( PI.ACTIVITY_TYPE AS "class", PI.EVENT_NAME AS "event"), ACTIVITY_COUNT), NULL) ORDER BY PI.ACTIVITY_TYPE, PI.EVENT_NAME)) ELSE NULL END) PX_INSTANCES_XML FROM (SELECT MO.INST_ID, ASH.ACTIVITY_TYPE, ASH.EVENT_NAME, ASH.ACTIVITY_COUNT, ASH.IMQ_COUNT, ASH.WAIT_COUNT, ASH.CPU_COUNT, ASH.OTHER_SQL_COUNT, ASH.ACTIVITY_START, ASH.ACTIVITY_END, MO.ELAPSED_TIME, MO.QUEUING_TIME, MO.CPU_TIME, MO.APPLICATION_WAIT_TIME, MO.CONCURRENCY_WAIT_TIME, MO.CLUSTER_WAIT_TIME, MO.U SER_IO_WAIT_TIME, MO.PLSQL_EXEC_TIME, MO.JAVA_EXEC_TIME, MO.OTHER_WAIT_TIME, MO.FETCHES, MO.BUFFER_GETS, MO.IO_INTER_BYTES, MO.IO_BYTES, MO.READ_REQS, MO.READ_BYTES, MO.WRITE_REQS, MO.WRITE_BYTES, MO.IO_REQS, MO.IO_UNC_BYTES, MO.IO_ELIG_BYTES, MO.IO_RET_BYTES FROM (SELECT MO0.INST_ID, SUM(MO0.ELAPSED_TIME) ELAPSED_TIME, SUM(MO0.QUEUING_TIME) QUEUING_TIME, SUM(MO0.CPU_TIME) CPU_TIME, SUM(MO0.FETCHES) FETCHES, SUM(MO0.BUFFER_GETS) BUFFER_GETS, SUM(MO0.IO_INTER_BYTES) IO_INTER_BYTES, SUM(MO0.IO_BYTES) IO_BYTES, SUM(MO0.READ_REQS) READ_REQS, SUM(MO0.READ_BYTES) READ_BYTES, SUM(MO0.WRITE_REQS) WRITE_REQS, SUM(MO0.WRITE_BYTES) WRITE_BYTES, SUM(MO0.IO_REQS) IO_REQS, SUM(MO0.IO_UNC_BYTES) IO_UNC_BYTES, SUM(MO0.IO_ELIG_BYTES) IO_ELIG_BYTES, SUM(MO0.IO_RET_BYTES) IO_RET_BYTES, SUM(MO0.APPLICATION_WAIT_TIME) APPLICATION_WAIT_TIME, SUM(MO0.CONCURRENCY_WAIT_TIME) CONCURRENCY_WAIT_TIME, SUM(MO0.CLUSTER_WAIT_TIME) CLUSTER_WAIT_TIME, SUM(MO0.USER_IO_WAIT_TIME) USER_IO _WAIT_TIME, SUM(MO0.PLSQL_EXEC_TIME) PLSQL_EXEC_TIME, SUM(MO0.JAVA_EXEC_TIME) JAVA_EXEC_TIME, SUM(MO0.OTHER_WAIT_TIME) OTHER_WAIT_TIME FROM MONITOR_DATA MO0 GROUP BY MO0.INST_ID) MO, (SELECT ASH0.INST_ID, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME, SUM(ASH0.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(ASH0.IMQ_COUNT) IMQ_COUNT, SUM(ASH0.WAIT_COUNT) WAIT_COUNT, SUM(ASH0.CPU_COUNT) CPU_COUNT, SUM(ASH0.OTHER_SQL_COUNT) OTHER_SQL_COUNT, MIN(ASH0.ACTIVITY_START) ACTIVITY_START, MAX(ASH0.ACTIVITY_END) ACTIVITY_END FROM ASH_DATA ASH0 GROUP BY ASH0.INST_ID, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME) ASH, MONITOR_AGG WHERE MO.INST_ID = ASH.INST_ID(+) AND MONITOR_AGG.DIST_INST_COUNT > 0 ) PI GROUP BY PI.INST_ID)PX_INSTANCE) PX_INSTANCES FROM MONITOR_AGG)) ELSE NULL END, XPLAN_XML, CASE WHEN :B43 = 1 THEN (SELECT XMLELEMENT( "plan_monitor", XMLATTRIBUTES(MAX(PLI.MAX_LINE_ACTIVITY_COUNT) AS "max_activity_count", MAX(PLI.OVERALL_MAX_IO_REQS) AS "max_io_reqs", MAX(PLI .OVERALL_MAX_IO_BYTES) AS "max_io_bytes", MAX(PLI.MAX_LINE_IMQ_COUNT) AS "max_imq_count", MAX(PLI.MAX_LINE_CPU_COUNT) AS "max_cpu_count", MAX(PLI.MAX_LINE_WAIT_COUNT) AS "max_wait_count", MAX(PLI.MAX_LINE_OTHER_SQL_COUNT) AS "max_other_sql_count"), XMLAGG( XMLELEMENT( "operation", XMLATTRIBUTES( PLI.PLAN_LINE_ID AS "id", PLI.PARENT_ID AS "parent_id", PLI.OPERATION AS "name", PLI.OPTIONS AS "options", PLI.DEPTH AS "depth", PLI.POSITION AS "position", PLI.INACTIVE AS "skp", PLI.PX_TYPE AS "px_type"), NVL2(PLI.OBJECT_NAME, XMLELEMENT( "object", XMLATTRIBUTES(PLI.OBJECT_TYPE AS "type"), XMLFOREST(PLI.OBJECT_OWNER AS "owner"), XMLFOREST(PLI.OBJECT_NAME AS "name")), NULL), XMLFOREST(PLI.PARTITION_START AS "partition_start", PLI.PARTITION_STOP AS "partition_stop"), CASE WHEN PLI.CARDINALITY IS NULL AND PLI.BYTES IS NULL AND PLI.COST IS NULL AND PLI.TEMP_SPACE IS NULL AND PLI.TIME IS NULL THEN NULL ELSE XMLELEMENT( "optimizer", NULL, NVL2(PLI.CARDINALITY, XMLFOREST(PLI.CARDINALITY AS "cardinality"), NULL), NVL2(PLI.BYTES, XMLFOREST(PLI.BYTES AS "bytes"), NULL), NVL2(PLI.COST, XMLFOREST(PLI.COST AS "cost"), NULL), NVL2(PLI.CPU_COST, XMLFOREST(PLI.CPU_COST AS "cpu_cost"), NULL), NVL2(PLI.IO_COST, XMLFOREST(PLI.IO_COST AS "io_cost"), NULL), NVL2(PLI.TEMP_SPACE, XMLFOREST(PLI.TEMP_SPACE AS "temp"), NULL), NVL2(PLI.TIME, XMLFOREST(PLI.TIME AS "time"), NULL)) END, XMLELEMENT( "stats", XMLATTRIBUTES('plan_monitor' AS "type"), NVL2(PLI.FIRST_MOVE_TIME, XMLELEMENT( "stat", XMLATTRIBUTES('first_active' AS "name"), TO_CHAR(FIRST_MOVE_TIME, :B12 )), NULL), CASE WHEN PLI.FIRST_MOVE_TIME != PLI.FIRST_CHANGE_TIME THEN XMLE LEMENT( "stat", XMLATTRIBUTES('first_row' AS "name"), TO_CHAR(FIRST_CHANGE_TIME, :B12 )) ELSE NULL END, NVL2(PLI.LAST_MOVE_TIME, XMLELEMENT( "stat", XMLATTRIBUTES('last_active' AS "name"), TO_CHAR(LAST_MOVE_TIME, :B12 )), NULL), CASE WHEN (PLI.FIRST_MOVE_TIME IS NULL OR PLI.LAST_MOVE_TIME IS NULL) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('duration' AS "name"), ROUND((LAST_MOVE_TIME - FIRST_MOVE_TIME) * 3600 * 24)+1) END, CASE WHEN (PLI.OVERALL_LAST_MOVE_TIME IS NULL OR PLI.LAST_MOVE_TIME IS NULL) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('from_most_recent' AS "name"), ROUND((PLI.OVERALL_LAST_MOVE_TIME - PLI.LAST_MOVE_TIME) * 3600 * 24)) END, NVL2(PLI.LAST_MOVE_TIME, XMLELEMENT( "stat", XMLATTRIBUTES( 'from_sql_exec_start' AS "name"), ROUND( (FIRST_MOVE_TIME - :B8 ) * 360024)), NULL), NVL2(PLI.PERCENT_COMPLETE, XMLELEMENT( "stat", XMLATTRIB UTES('percent_complete' AS "name"), PLI.PERCENT_COMPLETE), NULL), NVL2(PLI.TIME_REMAINING, XMLELEMENT( "stat", XMLATTRIBUTES('time_left' AS "name"), PLI.TIME_REMAINING), NULL), CASE WHEN PLI.HAS_EXECUTED = 1 THEN XMLELEMENT( "stat", XMLATTRIBUTES('starts' AS "name"), PLI.STARTS) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.HAS_EXECUTED = 1 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_starts' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_STARTS/1000000), 10000), NULL) AS "iid", MOD(MAX_STARTS, 1000000) AS "sid"), TRUNC(PLI.MAX_STARTS/10000000000)) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.HAS_EXECUTED = 1 THEN XMLELEMENT( "stat", XMLATTRIBUTES('dop' AS "name"), PLI.DOP) ELSE NULL END, CASE WHEN NEED_ROWS IS NOT NULL AND PLI.FIRST_MOVE_TIME IS NOT NULL THEN XMLELEMENT( "stat", XMLATTRIBUTES('cardinality' AS "name"), PLI.OUTPUT_ ROWS) ELSE NULL END, CASE WHEN PLI.NEED_ROWS IS NOT NULL AND PLI.DOP > 0 AND PLI.MAX_OUTPUT_ROWS IS NOT NULL AND (PLI.FIRST_MOVE_TIME IS NOT NULL) THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_card' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_OUTPUT_ROWS/1000000), 10000), NULL) AS "iid", MOD(MAX_OUTPUT_ROWS, 1000000) AS "sid"), TRUNC(PLI.MAX_OUTPUT_ROWS/10000000000)) ELSE NULL END, CASE WHEN PLI.MEM > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('memory' AS "name"), PLI.MEM) ELSE NULL END, CASE WHEN PLI.MAX_MEM > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('max_memory' AS "name"), PLI.MAX_MEM) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MIN_MAX_MEM IS NOT NULL AND PLI.MAX_MEM > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'min_max_mem' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MIN_MAX_MEM/1000000), 10000), NULL) AS "iid", MOD(MIN_MAX_MEM, 1000000) AS "sid"), TRUNC(PLI.MIN_MAX_MEM/10000000000)) ELSE NULL END, CASE WHEN PLI.TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('temp' AS "name"), PLI.TEMP) ELSE NULL END, CASE WHEN PLI.MAX_TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('max_temp' AS "name"), PLI.MAX_TEMP) ELSE NULL END, CASE WHEN PLI.MAX_TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('spill_count' AS "name"), PLI.SPILL_COUNT) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_MAX_TEMP IS NOT NULL AND PLI.MAX_TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_max_temp' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_MAX_TEMP/1000000), 10000), NULL) AS "iid", MOD(MAX_MAX_TEMP, 1000000) AS "sid"), TRUNC(PLI.MAX_MAX_TEMP/10000000000)) ELSE NULL END, CASE WHEN PLI.READ_REQS > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), PLI.READ_REQS) ELSE NU LL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_READ_REQS IS NOT NULL AND PLI.READ_REQS > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_read_reqs' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_READ_REQS/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_READ_REQS, 1000000) AS "sid"), TRUNC(PLI.MAX_READ_REQS/10000000000)) ELSE NULL END, CASE WHEN PLI.READ_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), PLI.READ_BYTES) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_READ_BYTES IS NOT NULL AND PLI.READ_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_read_bytes' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_READ_BYTES/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_READ_BYTES, 1000000) AS "sid"), TRUNC(PLI.MAX_READ_BYTES/10000000000)) ELSE NULL END, CASE WHEN PLI.WRITE_REQS > 0 THEN XMLELEMENT( "stat", XMLATTRIBUT ES('write_reqs' AS "name"), PLI.WRITE_REQS) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_WRITE_REQS IS NOT NULL AND PLI.WRITE_REQS > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_write_reqs' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_WRITE_REQS/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_WRITE_REQS, 1000000) AS "sid"), TRUNC(PLI.MAX_WRITE_REQS/10000000000)) ELSE NULL END, CASE WHEN PLI.WRITE_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), PLI.WRITE_BYTES) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_WRITE_BYTES IS NOT NULL AND PLI.WRITE_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_write_bytes' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_WRITE_BYTES/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_WRITE_BYTES, 1000000) AS "sid"), TRUNC(PLI.MAX_WRITE_BYTES/10000000000)) ELSE NULL END, CA SE WHEN PLI.IO_INTER_BYTES IS NOT NULL AND PLI.IO_BYTES > 0 AND PLI.IO_BYTES != PLI.IO_INTER_BYTES THEN XMLELEMENT( "stat", XMLATTRIBUTES('io_inter_bytes' AS "name"), PLI.IO_INTER_BYTES) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_IO_INTER_BYTES IS NOT NULL AND PLI.IO_BYTES > 0 AND PLI.IO_BYTES != PLI.IO_INTER_BYTES THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_io_inter_bytes' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_IO_INTER_BYTES/1000000), 10000), NULL) AS "iid", MOD(MAX_IO_INTER_BYTES, 1000000) AS "sid"), TRUNC(PLI.MAX_IO_INTER_BYTES/10000000000)) ELSE NULL END, CASE WHEN PLI.IO_INTER_BYTES IS NOT NULL AND PLI.IO_BYTES > 0 AND PLI.IO_BYTES != PLI.IO_INTER_BYTES THEN XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(PLI.IO_BYTES / DECODE(PLI.IO_INTER_BYTES, 0, 1, PLI.IO_INTER_BYTES), 2)) ELSE NULL END), NVL2(STAT_GID, XMLELEMENT( "rws stats", XMLATTRIBUTES( PLI.STAT_GID AS "group_id"), DECODE(GID_ROWNUM, 1, (SELECT XMLELEMENT( "metadata", NULL, XMLAGG( XMLELEMENT( "stat", XMLATTRIBUTES( ROWNUM AS "id", NAME AS "name", DESCRIPTION AS "desc", TYPE AS "type", DECODE(FLAGS, 0, NULL, FLAGS) AS "flags"), NULL) ORDER BY ID)) FROM V$SQL_MONITOR_STATNAME WHERE GROUP_ID = PLI.STAT_GID), NULL), NVL2(STAT1_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(1 AS "id"), STAT1_VALUE), NULL), NVL2(STAT2_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(2 AS "id"), STAT2_VALUE), NULL), NVL2(STAT3_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(3 AS "id"), STAT3_VALUE), NULL), NVL2(STAT4_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(4 AS "id"), STAT4_VALUE), NULL), NVL2(STAT5_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(5 AS "id"), STAT5_VALUE), NULL), NVL2(STAT6_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(6 AS "id"), STAT6_VALUE), NULL), NVL2(STAT7_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(7 AS "id"), STAT7_VALUE), NULL), NVL2(STAT8_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(8 AS "id"), STAT8_VALUE), NULL), NVL2(STAT9_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(9 AS "id"), STAT9_VALUE), NULL), NVL2(STAT10_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(10 AS "id"), STAT10_VALUE), NULL)), NULL), CASE WHEN PLI.LINE_ACTIVITY_COUNT > 0 AND :B33 = 1 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( TO_CHAR(PLI.LINE_ACTIVITY_START, :B12 ) AS "start_time", TO_CHAR(PLI.LINE_ACTIVITY_END, :B12 ) AS "end_time", ROUND((PLI.LINE_ACTIVITY_END - PLI.LINE_ACTIVITY_START) 360024) + 1 AS "duration", PLI.LINE_ACTIVITY_COUNT AS "count", PLI.LINE_IMQ_COUNT AS "imq_cou nt", PLI.LINE_WAIT_COUNT AS "wait_count", PLI.LINE_CPU_COUNT AS "cpu_count", PLI.LINE_OTHER_SQL_COUNT AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), PLI.ACTIVITY_TOTAL, PLI.PLAN_ACTIVITY_HISTO) ELSE NULL END) ORDER BY PLI.PLAN_LINE_ID) ) FROM (SELECT AT.MAX_LINE_ACTIVITY_COUNT, PM.OVERALL_MAX_IO_REQS, PM.OVERALL_MAX_IO_BYTES, AT.MAX_LINE_IMQ_COUNT, AT.MAX_LINE_CPU_COUNT, AT.MAX_LINE_WAIT_COUNT, AT.LINE_OTHER_SQL_COUNT, AT.MAX_LINE_OTHER_SQL_COUNT, PM.PLAN_LINE_ID, PM.PARENT_ID, PM.OPERATION, PM.OPTIONS, PM.DEPTH, PM.POSITION, PM.INACTIVE, CASE WHEN PM.OPERATION = 'PX COORDINATOR' AND :B23 = 'Y' AND (PM.PX_SERVER_SET IS NOT NULL OR AH.PX_SERVER_SET IS NOT NULL) THEN 'QC' WHEN PM.PX_SERVER_SET IS NOT NULL THEN TO_CHAR(PM.PX_SERVER_SET) WHEN AH.PX_SERVER_SET IS NOT NULL THEN TO_CHAR(AH.PX_SERVER_SET) WHEN (:B23 = 'N' OR (PM.LAST_CHANGE_TIME IS NULL AND AT.LINE_ACTIVITY_END IS NULL)) THEN NULL ELSE 'QC' END PX_TYPE, PM.FIRST_CHANGE_TIME, AT.LINE_ACTIVITY_START, PM.LAST_CHANGE_TIME, PM.OVERALL_LAST_CHANGE_TIME, AT.LINE_ACTIVITY_END, AT.OVERALL_LINE_ACTIVITY_END, LEAST(NVL(AT.LINE_ACTIVITY_START, PM.FIRST_CHANGE_TIME), NVL(PM.FIRST_CHANGE_TIME, AT.LINE_ACTIVITY_START)) FIRST_MOVE_TIME, GREATEST(NVL(AT.LINE_ACTIVITY_END, PM.LAST_CHANGE_TIME), NVL(PM.LAST_CHANGE_TIME, AT.LINE_ACTIVITY_END)) LAST_MOVE_TIME, GREATEST(NVL(AT.OVERALL_LINE_ACTIVITY_END, PM.OVERALL_LAST_CHANGE_TIME), NVL(PM.OVERALL_LAST_CHANGE_TIME, AT.OVERALL_LINE_ACTIVITY_END)) OVERALL_LAST_MOVE_TIME, CASE WHEN PM.STARTS IS NOT NULL AND PM.STARTS > 0 THEN 1 ELSE 0 END HAS_EXECUTED, PM.OBJECT_NAME, PM.OBJECT_TYPE, PM.OBJECT_OWNER, PM.PARTITION_START, PM.PARTITION_STOP, PM.CARDINALITY, PM.BYTES, PM.COST, PM.TEMP_SPACE, PM.TIME, PM.CPU_COST, PM.IO_COST, LO.PERCENT_COMPLETE, LO.TIME_REMAINING, PM.STARTS, PM.DOP, PM.MAX_STARTS, PM.OUTPUT_ROWS, PM.NEED_ROWS, PM.MAX_OUTPUT_ROWS, P M.MEM, PM.MAX_MEM, PM.MIN_MAX_MEM, PM.TEMP, PM.MAX_TEMP, PM.SPILL_COUNT, PM.MAX_MAX_TEMP, PM.READ_REQS, PM.MAX_READ_REQS, PM.READ_BYTES, PM.MAX_READ_BYTES, PM.WRITE_REQS, PM.MAX_WRITE_REQS, PM.WRITE_BYTES, PM.MAX_WRITE_BYTES, PM.IO_INTER_BYTES, PM.IO_BYTES, PM.MAX_IO_INTER_BYTES, AT.LINE_ACTIVITY_COUNT, AT.LINE_IMQ_COUNT, AT.LINE_WAIT_COUNT, AT.LINE_CPU_COUNT, AT.ACTIVITY_TOTAL, AH.PLAN_ACTIVITY_HISTO, PM.STAT_GID, PM.GID_ROWNUM, PM.STAT1_VALUE, PM.STAT2_VALUE, PM.STAT3_VALUE, PM.STAT4_VALUE, PM.STAT5_VALUE, PM.STAT6_VALUE, PM.STAT7_VALUE, PM.STAT8_VALUE, PM.STAT9_VALUE, PM.STAT10_VALUE FROM (SELECT AT0., MAX(LINE_ACTIVITY_END) OVER() OVERALL_LINE_ACTIVITY_END, MAX(LINE_ACTIVITY_COUNT) OVER() MAX_LINE_ACTIVITY_COUNT, MAX(LINE_IMQ_COUNT) OVER() MAX_LINE_IMQ_COUNT, MAX(LINE_CPU_COUNT) OVER() MAX_LINE_CPU_COUNT, MAX(LINE_WAIT_COUNT) OVER() MAX_LINE_WAIT_COUNT, MAX(LINE_OTHER_SQL_COUNT) OVER() MAX_LINE_OTHER_SQL_COUNT FROM (SELECT AD1.PLAN_LINE_ID, MIN(AD1.LINE_ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD1.LINE_ACTIVITY_END) LINE_ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) LINE_ACTIVITY_COUNT, SUM(AD1.IMQ_COUNT) LINE_IMQ_COUNT, SUM(AD1.WAIT_COUNT) LINE_WAIT_COUNT, SUM(AD1.OTHER_SQL_COUNT) LINE_OTHER_SQL_COUNT, SUM(AD1.CPU_COUNT) LINE_CPU_COUNT, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)\|\| AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG(XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_TOTAL FROM (SELECT AD0.PLAN_LINE_ID, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(AD0.ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD0.ACTIVITY_END) LINE_ACTIVITY_END, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTHER_SQL_COUNT, MAX(AD0.DFO_MOST_ACTIVE_IID) DFO_MOST_ACTIVE_IID, MAX(AD0.DFO _MOST_ACTIVE_SID) DFO_MOST_ACTIVE_SID, SUM(AD0.DFO_MOST_ACTIVE_COUNT) DFO_MOST_ACTIVE_COUNT FROM ASH_DATA AD0 WHERE AD0.PLAN_LINE_ID IS NOT NULL GROUP BY AD0.PLAN_LINE_ID, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1 GROUP BY AD1.PLAN_LINE_ID) AT0) AT, (SELECT AD2.PLAN_LINE_ID, MIN(AD2.PX_SERVER_SET) PX_SERVER_SET, MIN(AD2.LINE_ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD2.LINE_ACTIVITY_END) LINE_ACTIVITY_END, SUM(AD2.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD2.IMQ_COUNT) IMQ_COUNT, SUM(AD2.WAIT_COUNT) WAIT_COUNT, SUM(AD2.CPU_COUNT) CPU_COUNT, SUM(AD2.OTHER_SQL_COUNT) OTHER_SQL_COUNT, CASE WHEN :B29 = 1 AND SUM(AD2.ACTIVITY_COUNT) > 0 THEN XMLELEMENT( "activity_histogram", XMLATTRIBUTES( :B26 AS "bucket_interval", :B27 AS "bucket_count", TO_CHAR( :B20 , :B12 ) AS "start_time", TO_CHAR(:B22 , :B12 ) AS "end_time", ROUND((:B22 -:B20 ) 360024) + 1 AS "duration"), XMLAGG(XMLELEMENT( "bucket", XMLATTRIBUTE S( AD2.BUCKET_NUM AS "number"), AD2.ACTIVITY_BUCKET) ORDER BY AD2.BUCKET_NUM)) ELSE NULL END PLAN_ACTIVITY_HISTO FROM (SELECT AD1.PLAN_LINE_ID, AD1.BUCKET_NUM, MIN(AD1.PX_SERVER_SET) PX_SERVER_SET, MIN(AD1.LINE_ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD1.LINE_ACTIVITY_END) LINE_ACTIVITY_END, MIN(AD1.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD1.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD1.IMQ_COUNT) IMQ_COUNT, SUM(AD1.WAIT_COUNT) WAIT_COUNT, SUM(AD1.CPU_COUNT) CPU_COUNT, SUM(AD1.OTHER_SQL_COUNT) OTHER_SQL_COUNT, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)\|\| AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG(NVL2(AD1.ACTIVITY_TYPE, XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT), NULL) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_BUCKET FROM (SELECT AD0.PLAN_LINE_ID, AD0.PLAN_ACTIVITY_BUCKET_NUM BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(NVL2(AD0.ACTIVITY_START, AD0.PX_SERVER_SET, NULL)) PX_SERVER_SET, MIN(AD0.ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD0.ACTIVITY_END) LINE_ACTIVITY_END, MIN(AD0.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD0.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTHER_SQL_COUNT, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT FROM ASH_DATA AD0 GROUP BY AD0.PLAN_LINE_ID, AD0.PLAN_ACTIVITY_BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1 GROUP BY AD1.PLAN_LINE_ID, AD1.BUCKET_NUM) AD2 GROUP BY AD2.PLAN_LINE_ID) AH, (SELECT LO.SQL_PLAN_LINE_ID PLAN_LINE_ID, DECODE(SUM(LO.TOTALWORK), 0, NULL, ROUND(SUM(LO.SOFAR)100/SUM(LO.TOTALWORK))) PERCENT_COMPLETE, MAX(LO.TIME_REMAINING) TIME_REMAINING FROM GV$SESSION_LONGOPS LO, MONITOR_DATA MO WHERE (:B49 = 'Y' OR :B70 = 'DONE (ERROR)') AND LO.SQL_ID = :B9 AND LO.SQL_EXEC_START = :B8 AN D LO.SQL_EXEC_ID = :B7 AND LO.INST_ID = MO.INST_ID AND LO.SID = MO.SID GROUP BY LO.SQL_PLAN_LINE_ID) LO, (SELECT PM0., CASE WHEN PM0.STARTS IS NULL OR PM0.STARTS = 0 OR PM0.OUTPUT_ROWS IS NULL THEN NULL ELSE 1 END NEED_ROWS, ROW_NUMBER() OVER(PARTITION BY PM0.STAT_GID ORDER BY PM0.PLAN_LINE_ID ) GID_ROWNUM, MAX(LAST_CHANGE_TIME) OVER() OVERALL_LAST_CHANGE_TIME, MAX(MAX_IO_REQS) OVER() OVERALL_MAX_IO_REQS, MAX(MAX_IO_BYTES) OVER() OVERALL_MAX_IO_BYTES FROM (SELECT /+ leading(mo) use_hash(plm) / PLM.PLAN_LINE_ID PLAN_LINE_ID, PLM.PLAN_OPERATION OPERATION, PLM.PLAN_OPTIONS OPTIONS, MAX(PLM.PLAN_PARENT_ID) PARENT_ID, MAX(PLM.PLAN_DEPTH) DEPTH, MAX(PLM.PLAN_POSITION) POSITION, MAX(PLM.PLAN_OPERATION_INACTIVE) INACTIVE, MAX(PLM.PLAN_OBJECT_OWNER) OBJECT_OWNER, MAX(PLM.PLAN_OBJECT_NAME) OBJECT_NAME, MAX(PLM.PLAN_OBJECT_TYPE) OBJECT_TYPE, MAX(PLM.PLAN_COST) COST, MAX(PLM.PLAN_CARDINALITY) CARDINALITY, MAX(PLM.PLAN_BYTES) BYTES, MAX(PLM.PLAN_CPU_COST) CPU_COST, MAX(PLM.PL AN_IO_COST) IO_COST, MAX(PLM.PLAN_TEMP_SPACE) TEMP_SPACE, MAX(PLM.PLAN_TIME) TIME, MAX(PLM.PLAN_PARTITION_START) PARTITION_START, MAX(PLM.PLAN_PARTITION_STOP) PARTITION_STOP, MIN(PLM.FIRST_CHANGE_TIME) FIRST_CHANGE_TIME, MAX(PLM.LAST_CHANGE_TIME) LAST_CHANGE_TIME, MIN(PLM.LAST_CHANGE_TIME) MIN_LAST_CHANGE_TIME, MIN(NVL2(PLM.FIRST_CHANGE_TIME, MO.PX_SERVER_SET, NULL)) PX_SERVER_SET, COUNT(CASE WHEN PLM.PAR IS NOT NULL AND PLM.STARTS IS NOT NULL AND PLM.STARTS > 0 AND PLM.PLAN_LINE_ID != 0 AND PLM.PLAN_OPERATION != 'PX COORDINATOR' THEN 1 ELSE NULL END) DOP, SUM(PLM.STARTS) STARTS, MAX(NVL2(PAR, PLM.STARTS * 10000000000 + PLM.ES, NULL)) MAX_STARTS, SUM(PLM.OUTPUT_ROWS) OUTPUT_ROWS, MAX(NVL2(PAR, PLM.OUTPUT_ROWS * 10000000000 +PLM.ES, NULL)) MAX_OUTPUT_ROWS, SUM(PLM.WORKAREA_MEM) MEM, SUM(PLM.WORKAREA_MAX_MEM) MAX_MEM, MIN(NVL2(PAR, PLM.WORKAREA_MAX_MEM * 10000000000 + PLM.ES, NULL)) MIN_MAX_MEM, SUM(PLM.WORKAREA_TEMPSEG) TEMP, SUM(PLM.WORKAREA_MAX_TEMPSEG) MA X_TEMP, MAX(NVL2(PAR, PLM.WORKAREA_MAX_TEMPSEG * 10000000000 + PLM.ES, NULL)) MAX_MAX_TEMP, COUNT(PLM.WORKAREA_MAX_TEMPSEG) SPILL_COUNT, SUM(PLM.PHYSICAL_READ_REQUESTS) READ_REQS, MAX(NVL2(PAR, PLM.PHYSICAL_READ_REQUESTS * 10000000000 + PLM.ES, NULL)) MAX_READ_REQS, SUM(PLM.PHYSICAL_READ_BYTES) READ_BYTES, MAX(NVL2(PAR, PLM.PHYSICAL_READ_BYTES * 10000000000 + PLM.ES, NULL)) MAX_READ_BYTES, SUM(PLM.PHYSICAL_WRITE_REQUESTS) WRITE_REQS, MAX(NVL2(PAR, PLM.PHYSICAL_WRITE_REQUESTS * 10000000000 + PLM.ES, NULL)) MAX_WRITE_REQS, SUM(PLM.PHYSICAL_WRITE_BYTES) WRITE_BYTES, MAX(NVL2(PAR, PLM.PHYSICAL_WRITE_BYTES * 10000000000 + PLM.ES, NULL)) MAX_WRITE_BYTES, NVL(SUM(PLM.PHYSICAL_READ_BYTES), 0) + NVL(SUM(PLM.PHYSICAL_WRITE_BYTES), 0) IO_BYTES, SUM(NVL(PLM.PHYSICAL_READ_REQUESTS, 0) + NVL(PLM.PHYSICAL_WRITE_REQUESTS, 0)) MAX_IO_REQS, SUM(NVL(PLM.PHYSICAL_READ_BYTES, 0) + NVL(PLM.PHYSICAL_WRITE_BYTES, 0)) MAX_IO_BYTES, SUM(PLM.IO_INTERCONNECT_BYTES) IO_INTER_BYTES, M AX(NVL2(PAR, PLM.IO_INTERCONNECT_BYTES * 10000000000 + PLM.ES, NULL)) MAX_IO_INTER_BYTES, MAX(OTHERSTAT_GROUP_ID) STAT_GID, NVL(DECODE(MAX(OTHERSTAT_1_TYPE), 3, MAX(OTHERSTAT_1_VALUE), 4, MAX(OTHERSTAT_1_VALUE), 6, MIN(OTHERSTAT_1_VALUE), 7, MIN(OTHERSTAT_1_VALUE), NULL), SUM(DECODE(OTHERSTAT_1_TYPE, 1, OTHERSTAT_1_VALUE, 2, OTHERSTAT_1_VALUE, NULL))) STAT1_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_2_TYPE), 3, MAX(OTHERSTAT_2_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_2_VALUE), 7, MIN(RMAX1 + OTHERSTAT_2_VALUE), NULL), 6, MIN(OTHERSTAT_2_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_2_TYPE, 1, OTHERSTAT_2_VALUE, 2, OTHERSTAT_2_VALUE, NULL))) STAT2_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_3_TYPE), 3, MAX(OTHERSTAT_3_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_3_VALUE), 7, MIN(RMAX1 + OTHERSTAT_3_VALUE), NULL), 6, MIN(OTHERSTAT_3_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_3_ TYPE, 1, OTHERSTAT_3_VALUE, 2, OTHERSTAT_3_VALUE, NULL))) STAT3_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_4_TYPE), 3, MAX(OTHERSTAT_4_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_4_VALUE), 7, MIN(RMAX1 + OTHERSTAT_4_VALUE), NULL), 6, MIN(OTHERSTAT_4_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_4_TYPE, 1, OTHERSTAT_4_VALUE, 2, OTHERSTAT_4_VALUE, NULL))) STAT4_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_5_TYPE), 3, MAX(OTHERSTAT_5_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_5_VALUE), 7, MIN(RMAX1 + OTHERSTAT_5_VALUE), NULL), 6, MIN(OTHERSTAT_5_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_5_TYPE, 1, OTHERSTAT_5_VALUE, 2, OTHERSTAT_5_VALUE, NULL))) STAT5_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_6_TYPE), 3, MAX(OTHERSTAT_6_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_6_VALUE), 7, MIN(RMAX1 + OTHERSTAT_6_VALUE), NULL), 6, MIN(OTHERSTAT_6_VALUE), NULL)), 100000000 00000000), SUM(DECODE(OTHERSTAT_6_TYPE, 1, OTHERSTAT_6_VALUE, 2, OTHERSTAT_6_VALUE, NULL))) STAT6_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_7_TYPE), 3, MAX(OTHERSTAT_7_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_7_VALUE), 7, MIN(RMAX1 + OTHERSTAT_7_VALUE), NULL), 6, MIN(OTHERSTAT_7_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_7_TYPE, 1, OTHERSTAT_7_VALUE, 2, OTHERSTAT_7_VALUE, NULL))) STAT7_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_8_TYPE), 3, MAX(OTHERSTAT_8_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_8_VALUE), 7, MIN(RMAX1 + OTHERSTAT_8_VALUE), NULL), 6, MIN(OTHERSTAT_8_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_8_TYPE, 1, OTHERSTAT_8_VALUE, 2, OTHERSTAT_8_VALUE, NULL))) STAT8_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_9_TYPE), 3, MAX(OTHERSTAT_9_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_9_VALUE), 7, MIN(RMAX1 + OTHERSTAT_9_VALUE), NULL), 6, MIN(OTHE RSTAT_9_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_9_TYPE, 1, OTHERSTAT_9_VALUE, 2, OTHERSTAT_9_VALUE, NULL))) STAT9_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_10_TYPE), 3, MAX(OTHERSTAT_10_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_10_VALUE), 7, MIN(RMAX1 + OTHERSTAT_10_VALUE), NULL), 6, MIN(OTHERSTAT_10_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_10_TYPE, 1, OTHERSTAT_10_VALUE, 2, OTHERSTAT_10_VALUE, NULL))) STAT10_VALUE FROM (SELECT A., OTHERSTAT_1_VALUE 10000000000000000 RMAX1, A.INST_ID * 1000000 + A.SID ES, DECODE(A.PROCESS_NAME, 'ora', NULL, 1) PAR FROM GV$SQL_PLAN_MONITOR A) PLM, MONITOR_DATA MO WHERE PLM.SQL_ID = :B9 AND PLM.SQL_EXEC_START = :B8 AND PLM.SQL_EXEC_ID = :B7 AND PLM.INST_ID = MO.INST_ID AND PLM.INST_ID BETWEEN :B11 AND :B10 AND PLM.KEY = MO.KEY GROUP BY PLM.PLAN_LINE_ID, PLM.PLAN_OPERATION, PLM.PLAN_OPTIONS) PM0) PM WHERE AH.PLAN_LINE_ID(+) = PM.PLAN_LINE_ID AND AT.PLAN_LINE_ID(+) = PM.PLAN_LINE_ID AND LO.PLAN_LINE_ID(+) = PM.PLAN_LINE_ID AND (:B21 IS NULL OR PM.PLAN_LINE_ID = :B21 )) PLI) ELSE NULL END, CASE WHEN :B42 = 1 THEN DBMS_SQLTUNE.BUILD_STASH_XML( SESSION_ID=>:B19 , SESSION_SERIAL=>:B18 , SESSION_INST_ID=>:B17 , PX_MODE=>'yes', START_TIME=>:B20 , END_TIME=>:B22 , MISSING_SECONDS=> :B41 , INSTANCE_LOW_FILTER=>:B11 , INSTANCE_HIGH_FILTER=>:B10 , BUCKET_MAX_COUNT=>NULL, BUCKET_INTERVAL=>:B26 , REPORT_LEVEL=>'typical', CPU_CORES=>:B40 , IS_HYPER=>:B39 ) ELSE NULL END), (CASE WHEN :B38 = 1 THEN (SELECT XMLELEMENT( "skewed_sessions", XMLATTRIBUTES( DECODE(MIN(INST_ID), NULL, :B17 , MIN(INST_ID)) AS "min_iid", DECODE(MAX(INST_ID), NULL, :B17 , MAX(INST_ID)) AS "max_iid"), XMLAGG( XMLELEMENT( "s", XMLATTRIBUTES( INST_ID AS "i"), SESSION_ID) ORDER BY INST_ID, SESSION_ID)) FROM (SELECT SESS.* FROM (SELECT DECODE(AD.DFO_MOST_ACTIVE_IID, :B17 , NULL, AD.DFO_MOST_ACTIVE_IID) INST_ID, AD.DFO_MOST_ACTIVE_SID SESSION_ID FROM ASH_DATA AD WHERE AD.DFO_MOST_ACTIVE_COUNT IS NOT NULL GROUP BY AD.DFO_MOST_ACTIVE_IID, AD.DFO_MOST_ACTIVE_SID ORDER BY MAX(AD.DFO_MOST_ACTIVE_COUNT) DESC) SESS WHERE ROWNUM <= 100)) ELSE NULL END), (CASE WHEN :B37 = 1 THEN (SELECT XMLELEMENT( "report_repository_summary", CASE WHEN MA.MAX_DBOP_NAME IS NOT NULL THEN XMLELEMENT( "dbop", XMLATTRIBUTES('F' AS "detail", MA.MAX_DBOP_NAME AS "dbop_name", TO_CHAR(MA.MIN_FIRST_REFRESH_TIME, :B12 ) AS "dbop_exec_start", MA.MAX_DBOP_EXEC_ID AS "dbop_exec_id"), XMLFOREST( MA.MAX_STATUS AS "status", TO_CHAR(NVL(MA.MAX_SQL_EXEC_START, MA.MIN_FIRST_REFRESH_TIME), :B12 )AS "first_refresh_time", TO_CHAR(MA.MAX_LAST_REFRESH_TIME, :B12 )AS "last_refresh_time", MA.SUM_REFRESH_COUNT AS "refresh_count", MA.MAX_INST_ID AS "inst_id", MA.MAX_SESSION_ID A S "session_id", MA.MAX_SESSION_SERIAL AS "session_serial", MA.MAX_USERID AS "user_id", MA.MAX_USERNAME AS "user", MA.MAX_CON_ID AS "con_id", MA.MAX_CON_NAME AS "con_name", MA.MAX_MODULE AS "module", MA.MAX_ACTION AS "action", MA.MAX_SERVICE_NAME AS "service", MA.MAX_CLIENT_ID AS "client_id", MA.MAX_CLIENT_INFO AS "client_info", MA.MAX_PROGRAM AS "program", MA.MAX_PL_ENTRY_OID AS "plsql_entry_object_id", MA.MAX_PL_ENTRY_PROGID AS "plsql_entry_subprogram_id", MA.MAX_PL_OID AS "plsql_object_id", MA.MAX_PL_PROGID AS "plsql_subprogram_id", MA.MAX_PX_IS_CROSS_INSTANCE AS "is_cross_instance", MA.MAX_PX_DOP AS "dop", MA.MAX_PX_DOP_INSTANCES AS "instances"), CASE WHEN MA.MAX_ERROR_NUMBER IS NULL THEN NULL ELSE XMLELEMENT( "error", XMLATTRIBUTES(MA.MAX_ERROR_NUMBER AS "numbe r", MA.MAX_ERROR_FACILITY AS "facility"), MA.MAX_ERROR_MESSAGE) END, XMLELEMENT( "stats", XMLATTRIBUTES('monitor' AS "type"), XMLELEMENT( "stat", XMLATTRIBUTES('duration' AS "name"), GREATEST(ROUND((MA.MAX_LAST_REFRESH_TIME- NVL(MA.MAX_SQL_EXEC_START, MA.MIN_FIRST_REFRESH_TIME))86400), LEAST(MA.SUM_ELAPSED_TIME/1000000, 1), CEIL(MA.MAX_QUEUING_TIME/1000000))), DECODE(MA.SUM_ELAPSED_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MA.SUM_ELAPSED_TIME)), DECODE(MA.MAX_QUEUING_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MA.MAX_QUEUING_TIME)), DECODE(MA.SUM_CPU_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MA.SUM_CPU_TIME)), DECODE(MA.SUM_USER_IO_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), MA.SUM_ USER_IO_WAIT_TIME)), DECODE(MA.SUM_APPLICATION_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MA.SUM_APPLICATION_WAIT_TIME)), DECODE(MA.SUM_CONCURRENCY_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('concurrency_wait_time' AS "name"), MA.SUM_CONCURRENCY_WAIT_TIME)), DECODE(MA.SUM_CLUSTER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MA.SUM_CLUSTER_WAIT_TIME)), DECODE(MA.SUM_PLSQL_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), MA.SUM_PLSQL_EXEC_TIME)), DECODE(MA.SUM_JAVA_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MA.SUM_JAVA_EXEC_TIME)), DECODE(MA.SUM_OTHER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('other_wait_time' AS "name"), MA.SUM_OTHER_WAIT_TIME)), DEC ODE(MA.SUM_FETCHES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MA.SUM_FETCHES)), DECODE(MA.SUM_BUFFER_GETS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), MA.SUM_BUFFER_GETS)), DECODE(MA.SUM_READ_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MA.SUM_READ_REQS)), DECODE(MA.SUM_READ_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), MA.SUM_READ_BYTES)), DECODE(MA.SUM_WRITE_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MA.SUM_WRITE_REQS)), DECODE(MA.SUM_WRITE_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MA.SUM_WRITE_BYTES)), CASE WHEN MA.SUM_IO_INTER_BYTES IS NULL OR MA.SUM_IO_INTER_BYTES = MA.SUM_IO_BYTES OR MA.SUM_IO_BYTES = 0 OR NVL(MA.SUM_IO_ELIG_BYTES, 0) = 0 THEN NULL E LSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MA.SUM_IO_BYTES / DECODE(MA.SUM_IO_INTER_BYTES, 0, 1, MA.SUM_IO_INTER_BYTES), 2)) END, CASE WHEN NVL(MA.SUM_IO_ELIG_BYTES, 0) = 0 OR MA.SUM_IO_UNC_BYTES = MA.SUM_IO_RET_BYTES THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency2' AS "name"), GREATEST(0, ROUND(100 (MA.SUM_IO_UNC_BYTES - MA.SUM_IO_RET_BYTES) / MA.SUM_IO_ELIG_BYTES, 2))) END) ) ELSE XMLELEMENT( "sql", XMLATTRIBUTES( MA.MAX_SQL_ID AS "sql_id", TO_CHAR(MA.MAX_SQL_EXEC_START, :B12 ) AS "sql_exec_start", MA.MAX_SQL_EXEC_ID AS "sql_exec_id"), XMLFOREST(MA.MAX_STATUS AS "status", SUBSTR(MA.SQLMON_TEXT, 1, 100) AS "sql_text", TO_CHAR(MA.MIN_FIRST_REFRESH_TIME, :B12 ) AS "first_refresh_time", TO_CHAR(MA.MAX_LAST_REFRESH_TIME, :B12 ) AS "last_refresh_time", MA.SUM_REFRESH_COUNT AS "refresh_count", MA.MAX_INST_ID AS "inst_id", MA.MAX_SESSION_ID AS "session_id", MA.MAX_SESSION_SERIAL AS "session_serial", MA.MAX_USERID AS "user_id", MA.MAX_USERNAME AS "user", MA.MAX_CON_ID AS "con_id", MA.MAX_CON_NAME AS "con_name", MA.MAX_MODULE AS "module", MA.MAX_ACTION AS "action", MA.MAX_SERVICE_NAME AS "service", MA.MAX_CLIENT_ID AS "client_id", MA.MAX_CLIENT_INFO AS "client_info", MA.MAX_PROGRAM AS "program", MA.MAX_PLAN_HASH_VALUE AS "plan_hash", MA.MAX_PL_ENTRY_OID AS "plsql_entry_object_id", MA.MAX_PL_ENTRY_PROGID AS "plsql_entry_subprogram_id", MA.MAX_PL_OID AS "plsql_object_id", MA.MAX_PL_PROGID AS "plsql_subprogram_id", MA.MAX_PX_IS_CROSS_INSTANCE AS "is_cross_instance", MA.MAX_PX_DOP AS "dop", MA.MAX_PX_DOP_INSTANCES AS "instances" , MA.SUM_SERVERS_REQUESTED AS "px_servers_requested", MA.SUM_SERVERS_ALLOCATED AS "px_servers_allocated"), XMLELEMENT( "stats", XMLATTRIBUTES('monitor' AS "type"), XMLELEMENT( "stat", XMLATTRIBUTES('duration' AS "name"), GREATEST(ROUND((MA.MAX_LAST_REFRESH_TIME- MA.MAX_SQL_EXEC_START) * 86400), LEAST(MA.SUM_ELAPSED_TIME/1000000, 1), CEIL(MA.MAX_QUEUING_TIME/1000000))), DECODE(MA.SUM_ELAPSED_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MA.SUM_ELAPSED_TIME)), DECODE(MA.MAX_QUEUING_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MA.MAX_QUEUING_TIME)), DECODE(MA.SUM_CPU_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MA.SUM_CPU_TIME)), DECODE(MA.SUM_USER_IO_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name "), MA.SUM_USER_IO_WAIT_TIME)), DECODE(MA.SUM_APPLICATION_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MA.SUM_APPLICATION_WAIT_TIME)), DECODE(MA.SUM_CONCURRENCY_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('concurrency_wait_time' AS "name"), MA.SUM_CONCURRENCY_WAIT_TIME)), DECODE(MA.SUM_CLUSTER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MA.SUM_CLUSTER_WAIT_TIME)), DECODE(MA.SUM_PLSQL_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), MA.SUM_PLSQL_EXEC_TIME)), DECODE(MA.SUM_JAVA_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MA.SUM_JAVA_EXEC_TIME)), DECODE(MA.SUM_OTHER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('other_wait_time' AS "name"), MA.SUM_OTHER_ WAIT_TIME)), DECODE(MA.SUM_FETCHES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MA.SUM_FETCHES)), DECODE(MA.SUM_BUFFER_GETS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), MA.SUM_BUFFER_GETS)), DECODE(MA.SUM_READ_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MA.SUM_READ_REQS)), DECODE(MA.SUM_READ_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), MA.SUM_READ_BYTES)), DECODE(MA.SUM_WRITE_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MA.SUM_WRITE_REQS)), DECODE(MA.SUM_WRITE_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MA.SUM_WRITE_BYTES)), DECODE(MA.SUM_IO_UNC_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('unc_bytes' AS "name"), MA.SUM_IO_UNC_BYT ES)), DECODE(MA.SUM_IO_ELIG_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elig_bytes' AS "name"), MA.SUM_IO_ELIG_BYTES)), DECODE(MA.SUM_IO_RET_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('ret_bytes' AS "name"), MA.SUM_IO_RET_BYTES)), CASE WHEN MA.SUM_IO_INTER_BYTES IS NULL OR MA.SUM_IO_INTER_BYTES = MA.SUM_IO_BYTES OR MA.SUM_IO_BYTES = 0 OR NVL(MA.SUM_IO_ELIG_BYTES, 0) = 0 THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MA.SUM_IO_BYTES / DECODE(MA.SUM_IO_INTER_BYTES, 0, 1, MA.SUM_IO_INTER_BYTES), 2)) END, CASE WHEN NVL(MA.SUM_IO_ELIG_BYTES, 0) = 0 OR MA.SUM_IO_UNC_BYTES = MA.SUM_IO_RET_BYTES THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency2' AS "name"), GREATEST(0, ROUND(100 * (MA.SUM_IO_UNC_BYTES - MA.SUM_IO_RET_BYTES) / MA.SUM_IO_ELIG_BYTES, 2))) END) ) END) FROM MONITOR_AGG MA) ELSE NULL END) FROM ( SELECT CASE WHEN V1.XPLAN_XML IS NULL OR V1.XPLAN_XML.EXISTSNODE('/error') > 0 THEN NULL ELSE V1.XPLAN_XML END XPLAN_XML FROM (SELECT CASE WHEN :B36 = 1 THEN DBMS_XPLAN.BUILD_PLAN_XML( TABLE_NAME=>'gv$sql_plan', PLAN_TAG=>'plan', FILTER_PREDS=>:B35 , FORMAT=>'-PROJECTION +ALIAS +ADAPTIVE') ELSE NULL END XPLAN_XML FROM DUAL) V1) CONST_VIEW
2p9fv35c7zxtg	select /* KSXM:LOAD_DML_INF //+ leading(o) index(m) use_nl(m) */ nvl(m.inserts, 0) ins, nvl(m.updates, 0) upd, nvl(m.deletes, 0) del, nvl(m.drop_segments, 0) dropseg, nvl(m.flags, 0) flags, nvl(rowcnt, 0) rowcnt, o.pobjn pobjn from (select :objn objn, 0 pobjn, rowcnt from tab$ t where t.obj# = :objn union all select :objn objn, tp.bo# pobjn, rowcnt from tabpart$ tp where tp.obj# = :objn union all select :objn objn, tcp.bo# pobjn, rowcnt from tabcompart$ tcp where tcp.obj# = :objn union all select :objn objn, tsp.pobj# pobjn, rowcnt from tabsubpart$ tsp where tsp.obj# = :objn) o, sys.mon_mods_all$ m where o.objn = m.obj#(+) and rownum < 2
32s7zx8c4d69s	INSERT INTO t_game_XYDC_detail VALUES( :1 , :2 , :3 , 'HallID', 'TID', sysdate, 1, 12, 'WheelPos', 123456, 123456, 123456, 0, 1)
3dbzmtf9ahvzt	merge /* KSXM:OPTIM_DML_INF */ into sys.mon_mods_all$ m using dual on (m.obj# = :objn and (:pobjn = 0 or m.obj# = :pobjn or m.obj# in (select obj# from tabpart$ where bo# = :pobjn and obj# = :objn union all select obj# from tabcompart$ where bo# = :pobjn and obj# = :objn union all select ts p.obj# from tabsubpart$ tsp, tabcompart$ tcp where tsp.pobj# = tcp.obj# and (tcp.bo# = :pobjn or tcp.obj# = :pobjn) and tsp.obj# = :objn))) when matched then update set inserts = decode(:reset, 1, 0, inserts) + :ins, updates = decode(:reset, 1, 0, updates) + :upd, deletes = decode(:reset, 1, 0, deletes) + :del, flags = decode(:reset, 1, 0, flags - bitand(flags, :flag)) + :flag, drop_segments = decode(:reset, 1, 0, drop_segments) + :dropseg, timestamp = :time when NOT matched then insert (obj#, inserts, updates, deletes, timestamp, flags, drop_segments) values (:objn, :ins, :upd, :del, :time, :flag, :dropseg) where :ins != 0 or :upd != 0 or :del != 0 or :flag != 0 or :dropseg !=0
3un99a0zwp4vd	select owner#, name, namespace, remoteowner, linkname, p_timestamp, p_obj#, nvl(property, 0), subname, type#, flags, d_attrs from dependency$ d, obj$ o where d_obj#=:1 and p_obj#=obj#(+) order by order#
4952vfpfwhz25	SELECT 'gc buffer busy acquire' \|\| '\|' \|\| SUM(TIME_WAITED_MICRO)/1000 \|\| '\|' \|\| SUM(TOTAL_WAITS) DATA FROM GV$SYSTEM_EVENT WHERE EVENT = 'gc buffer busy acquire'
4cgarqmus6w3s	SELECT 'buffer busy waits' \|\| '\|' \|\| SUM(TIME_WAITED_MICRO)/1000 \|\| '\|' \|\| SUM(TOTAL_WAITS) DATA FROM GV$SYSTEM_EVENT WHERE EVENT = 'buffer busy waits'
4k5bnqqmc8pph	SELECT 'log file sync' \|\| '\|' \|\| SUM(TIME_WAITED_MICRO)/1000 \|\| '\|' \|\| SUM(TOTAL_WAITS) DATA FROM GV$SYSTEM_EVENT WHERE EVENT = 'log file sync'
4xujvn21qwxn7	SELECT BonusCount, LineCost FROM t_game_XYDC WHERE serialid=:1 and detailid=:2 and DBNodeID = 1
56vd37c105kc2	begin dbms_workload_repository.create_snapshot; dbms_lock.sleep(600); dbms_workload_repository.create_snapshot; end;
5h6jt076zc1rv	SELECT DBNODEID, CARDID, BALANCE, PRIZETAX, PRIZENOTAX, ISCLIENTRECEIVED, ISONESTEPFINISHED, GAMEID, SESSIONSTATE, BETMONEY, WFDETAILID FROM T_SESSION WHERE termid=:1 and hallid=:2 and serialid = :3 and SessionState='1' FOR UPDATE NOWAIT
6ajkhukk78nsr	begin prvt_hdm.auto_execute( :dbid, :inst_num , :end_snap_id ); end;
700kd06ujjzmc	UPDATE t_game_XYDC SET FinishBonus = 2 WHERE serialid=:1 and detailid=:2 and DBNodeID = 1
7f3hgty7qb86g	UPDATE t_game_XYDC_detail set BONUSPRIZE = 12345678 WHERE serialid=:1 and detailid=:2 and DBNodeID = 1
8fgdzmkchnn1a	INSERT /+ APPEND LEADING(@"SEL$F5BB74E1" "H"@"SEL$2" "A"@"SEL$1") USE_NL(@"SEL$F5BB74E1" "A"@"SEL$1") / INTO WRH$_ACTIVE_SESSION_HISTORY ( snap_id, dbid, instance_number , sample_id, sample_time, sample_time_utc, usecs_per_row , session_id, session_serial#, session_type , flags , user_id , sql_id, sql_child_number, sql_opcode, force_matching_signature , top_level_sql_id, top_level_sql_opcode , sql_plan_hash_value, sql_full_plan_hash_value , sql_adaptive_plan_resolved , sql_plan_line_id , sql_plan_operation#, sql_plan_options# , sql_exec_id, sql_exec_start , plsql_entry_object_id, plsql_entry_subprogram_id , plsql_object_id, plsql_subprogram_id , qc_instance_id, qc_session_id, qc_session_serial#, px_flags , event_id, seq#, p1, p2, p3 , wait_time, time_waited , blocking_session, blocking_session_serial#, blocking_inst_id , current_obj#, current_f ile#, current_block#, current_row# , top_level_call#, consumer_group_id, xid, remote_instance#, time_model , service_hash, program, module, action, client_id, machine, port, ecid , dbreplay_file_id, dbreplay_call_counter , con_dbid, per_pdb , tm_delta_time, tm_delta_cpu_time, tm_delta_db_time, delta_time, delta_read_io_requests, delta_write_io_requests, delta_read_io_bytes, delta_write_io_bytes, delta_interconnect_io_bytes, pga_allocated, temp_space_allocated , dbop_name, dbop_exec_id ) (SELECT /+ PARAM('_module_action_old_length', 0) /:snap_id, :dbid, :instance_number , a.sample_id, a.sample_time, a.sample_time_utc , a.usecs_per_row * :disk_filter_ratio , a.session_id, a.session_serial#, a.session_type , decode(a.flags, 0, to_number(NULL), a.flags) , a.user_id , a.sql_id, a.sql_child_number, a.sql_opcode, a.force_matching_signature , a.top_level_sql_id, a.top_level_sql_opcode , a.sql_plan_hash_value, a.sql_full_plan_hash_value , a.sql_adaptive_plan_resolved , a.sql_plan_line_id , a.sql_plan_operation#, a.sql_plan_options# , a.sql_exec_id, a.sql_exec_start , a.plsql_entry_object_id, a.plsql_entry_subprogram_id , a.plsql_object_id, a.plsql_subprogram_id , a.qc_instance_id, a.qc_session_id, a.qc_session_serial#, a.px_flags , a.event_id, a.seq#, a.p1, a.p2, a.p3 , a.wait_time, a.time_waited , a.blocking_session, a.blocking_session_serial#, a.blocking_inst_id , a.current_obj#, a.current_file#, a.current_block#, a.current_row# , a.top_level_call#, a.consumer_group_id, a.xid, a.remote_instance# , a.time_model , a.service_hash , substrb(a.program, 1, 64) , a.module, a.action, a.client_id, a.machine, a.port, a.ecid , a.dbreplay_file_id, a.dbreplay_call_counter , a.con_dbid, a.con_id , decode(a.tm_delta_time, 0, to_number(null), a.tm_delta_time), decode(a.tm_delta_time, 0, to_number(null), a.tm_delta_cpu_time), decode(a.tm_delta_time, 0, to_number(null), a.tm_delta_db_time), decode(a.delta_time, 0, to_number(null), a.delta_time), decode(a.delta_time, 0, to_number(null), decode(a.delta_read_io_requests, 0, to_number(null), a.delta_read_io_requests)), decode(a.delta_time, 0, to_number(null), decode(a.delta_write_io_requests, 0, to_number(null), a.delta_write_io_requests)), decode(a.delta_time, 0, to_number(null), decode(a.delta_read_io_bytes, 0, to_number(null), a.delta_read_io_bytes)), decode(a.delta_time, 0, to_number(null), decode(a.delta_write_io_bytes, 0, to_number(null), a.delta_write_io_bytes)), decode(a.delta_time, 0, to_number(null), decode(a.delta_interconnect_io_bytes, 0, to_number(null), a.delta_interconnect_io_bytes)), decode(a.pga_allocated, 0, to_number(null), a.pga_allocated), decode(a.pga_allocated, 0, to_number(null), decode(a.temp _space_allocated, 0, to_number(null), a.temp_space_allocated)) , a.dbop_name, a.dbop_exec_id FROM x$ash a, (SELECT h.sample_addr, h.sample_id FROM x$kewash h WHERE ( (h.sample_id >= :begin_flushing) and (h.sample_id < :latest_sample_id) ) and (nlssort(h.is_awr_sample, 'nls_sort=BINARY') = nlssort('Y', 'nls_sort=BINARY')) ) shdr WHERE (1 = 1) and shdr.sample_addr = a.sample_addr and shdr.sample_id = a.sample_id and nlssort(a.need_awr_sample, 'nls_sort=BINARY') = nlssort('Y', 'nls_sort=BINARY'))
8mdz49zkajhw3	SELECT /+ OPT_PARAM('_fix_control' '16391176:1') / GROUP_TYPE, BUCKET_START, BUCKET_END, TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END, SUM(TM_CPU_FIRST_BUCKET_VALUE) TM_CPU_FIRST_BUCKET_VALUE, SUM(TM_CPU_MIDDLE_BUCKETS_VALUE) TM_CPU_MIDDLE_BUCKETS_VALUE, SUM(TM_CPU_LAST_BUCKET_VALUE) TM_CPU_LAST_BUCKET_VALUE, SUM(TM_DB_FIRST_BUCKET_VALUE) TM_DB_FIRST_BUCKET_VALUE, SUM(TM_DB_MIDDLE_BUCKETS_VALUE) TM_DB_MIDDLE_BUCKETS_VALUE, SUM(TM_DB_LAST_BUCKET_VALUE) TM_DB_LAST_BUCKET_VALUE, SUM(RREQS_FIRST_BUCKET_VALUE) RREQS_FIRST_BUCKET_VALUE, SUM(RREQS_MIDDLE_BUCKETS_VALUE) RREQS_MIDDLE_BUCKETS_VALUE, SUM(RREQS_LAST_BUCKET_VALUE) RREQS_LAST_BUCKET_VALUE, SUM(WREQS_FIRST_BUCKET_VALUE) WREQS_FIRST_BUCKET_VALUE, SUM(WREQS_MIDDLE_BUCKETS_VALUE) WREQS_MIDDLE_BUCKETS_VALUE, SUM(WREQS_LAST_BUCKET_VALUE) WREQS_LAST_BUCKET_VALUE, SUM(RBYTES_FIRST_BUCKET_VALUE) RBYTES_FIRST_BUCKET_VALUE, SUM(RBYTES_MIDDLE_BUCKETS_VALUE) RBYTES_MIDDLE_BUCKETS_VALUE, SUM(RBYTES_LAST_BUCKET_VALUE) RBYTES _LAST_BUCKET_VALUE, SUM(WBYTES_FIRST_BUCKET_VALUE) WBYTES_FIRST_BUCKET_VALUE, SUM(WBYTES_MIDDLE_BUCKETS_VALUE) WBYTES_MIDDLE_BUCKETS_VALUE, SUM(WBYTES_LAST_BUCKET_VALUE) WBYTES_LAST_BUCKET_VALUE, SUM(IBYTES_FIRST_BUCKET_VALUE) IBYTES_FIRST_BUCKET_VALUE, SUM(IBYTES_MIDDLE_BUCKETS_VALUE) IBYTES_MIDDLE_BUCKETS_VALUE, SUM(IBYTES_LAST_BUCKET_VALUE) IBYTES_LAST_BUCKET_VALUE, SUM(CRBYTES_FIRST_BUCKET_VALUE) CRBYTES_FIRST_BUCKET_VALUE, SUM(CRBYTES_MIDDLE_BUCKETS_VALUE) CRBYTES_MIDDLE_BUCKETS_VALUE, SUM(CRBYTES_LAST_BUCKET_VALUE) CRBYTES_LAST_BUCKET_VALUE, SUM(PGA_ALLOC_FIRST_BUCKET_VALUE) PGA_ALLOC_FIRST_BUCKET_VALUE, SUM(PGA_ALLOC_MIDDLE_BUCKETS_VALUE) PGA_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(PGA_ALLOC_LAST_BUCKET_VALUE) PGA_ALLOC_LAST_BUCKET_VALUE, SUM(TMP_ALLOC_FIRST_BUCKET_VALUE) TMP_ALLOC_FIRST_BUCKET_VALUE, SUM(TMP_ALLOC_MIDDLE_BUCKETS_VALUE) TMP_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(TMP_ALLOC_LAST_BUCKET_VALUE) TMP_ALLOC_LAST_BUCKET_VALUE FROM ( SELECT GROUP_TYPE, BUCKET_START, TM _BUCKET_START, TM_BUCKET_END, BUCKET_END, TM_GROUP_TYPE, SUM(GVTF.TM_CPU_FIRST_BUCKET_VALUE) TM_CPU_FIRST_BUCKET_VALUE, SUM(GVTF.TM_CPU_MIDDLE_BUCKETS_VALUE) TM_CPU_MIDDLE_BUCKETS_VALUE, SUM(GVTF.TM_CPU_LAST_BUCKET_VALUE) TM_CPU_LAST_BUCKET_VALUE, SUM(GVTF.TM_DB_FIRST_BUCKET_VALUE) TM_DB_FIRST_BUCKET_VALUE, SUM(GVTF.TM_DB_MIDDLE_BUCKETS_VALUE) TM_DB_MIDDLE_BUCKETS_VALUE, SUM(GVTF.TM_DB_LAST_BUCKET_VALUE) TM_DB_LAST_BUCKET_VALUE, SUM(GVTF.RREQS_FIRST_BUCKET_VALUE) RREQS_FIRST_BUCKET_VALUE, SUM(GVTF.RREQS_MIDDLE_BUCKETS_VALUE) RREQS_MIDDLE_BUCKETS_VALUE, SUM(GVTF.RREQS_LAST_BUCKET_VALUE) RREQS_LAST_BUCKET_VALUE, SUM(GVTF.WREQS_FIRST_BUCKET_VALUE) WREQS_FIRST_BUCKET_VALUE, SUM(GVTF.WREQS_MIDDLE_BUCKETS_VALUE) WREQS_MIDDLE_BUCKETS_VALUE, SUM(GVTF.WREQS_LAST_BUCKET_VALUE) WREQS_LAST_BUCKET_VALUE, SUM(GVTF.RBYTES_FIRST_BUCKET_VALUE) RBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.RBYTES_MIDDLE_BUCKETS_VALUE) RBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.RBYTES_LAST_BUCKET_VALUE) RBYTES_LAST_BU CKET_VALUE, SUM(GVTF.WBYTES_FIRST_BUCKET_VALUE) WBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.WBYTES_MIDDLE_BUCKETS_VALUE) WBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.WBYTES_LAST_BUCKET_VALUE) WBYTES_LAST_BUCKET_VALUE, SUM(GVTF.IBYTES_FIRST_BUCKET_VALUE) IBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.IBYTES_MIDDLE_BUCKETS_VALUE) IBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.IBYTES_LAST_BUCKET_VALUE) IBYTES_LAST_BUCKET_VALUE, SUM(GVTF.CRBYTES_FIRST_BUCKET_VALUE) CRBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.CRBYTES_MIDDLE_BUCKETS_VALUE) CRBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.CRBYTES_LAST_BUCKET_VALUE) CRBYTES_LAST_BUCKET_VALUE, SUM(GVTF.PGA_ALLOC_FIRST_BUCKET_VALUE) PGA_ALLOC_FIRST_BUCKET_VALUE, SUM(GVTF.PGA_ALLOC_MIDDLE_BUCKETS_VALUE) PGA_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(GVTF.PGA_ALLOC_LAST_BUCKET_VALUE) PGA_ALLOC_LAST_BUCKET_VALUE, SUM(GVTF.TMP_ALLOC_FIRST_BUCKET_VALUE) TMP_ALLOC_FIRST_BUCKET_VALUE, SUM(GVTF.TMP_ALLOC_MIDDLE_BUCKETS_VALUE) TMP_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(GVTF.TMP_ALLOC_LAST_BUCKET_VALUE) TMP_A LLOC_LAST_BUCKET_VALUE FROM TABLE(SYS.GV$(CURSOR( SELECT INST_ID, GROUP_TYPE, BUCKET_START, TM_BUCKET_START, TM_BUCKET_END, BUCKET_END, TM_GROUP_TYPE, SUM(TM_DELTA_CPU_TIME * TM_FIRST_BUCKET_RATIO) TM_CPU_FIRST_BUCKET_VALUE, SUM(TM_DELTA_CPU_TIME * TM_MIDDLE_BUCKETS_RATIO) TM_CPU_MIDDLE_BUCKETS_VALUE, SUM(TM_DELTA_CPU_TIME * TM_LAST_BUCKET_RATIO) TM_CPU_LAST_BUCKET_VALUE, SUM(TM_DELTA_DB_TIME * TM_FIRST_BUCKET_RATIO) TM_DB_FIRST_BUCKET_VALUE, SUM(TM_DELTA_DB_TIME * TM_MIDDLE_BUCKETS_RATIO) TM_DB_MIDDLE_BUCKETS_VALUE, SUM(TM_DELTA_DB_TIME * TM_LAST_BUCKET_RATIO) TM_DB_LAST_BUCKET_VALUE, SUM(DELTA_READ_REQUESTS * FIRST_BUCKET_RATIO) RREQS_FIRST_BUCKET_VALUE, SUM(DELTA_READ_REQUESTS * MIDDLE_BUCKETS_RATIO) RREQS_MIDDLE_BUCKETS_VALUE, SUM(DELTA_READ_REQUESTS * LAST_BUCKET_RATIO) RREQS_LAST_BUCKET_VALUE, SUM(DELTA_WRITE_REQUESTS * FIRST_BUCKET_RATIO) WREQS_FIRST_BUCKET_VALUE, SUM(DELTA_WRITE_REQUESTS * MIDDLE_BUCKETS_RATIO) WREQS_MIDDLE_BUCKETS_VALUE, SUM(DELTA_WRITE_REQUE STS * LAST_BUCKET_RATIO) WREQS_LAST_BUCKET_VALUE, SUM(DELTA_READ_BYTES * FIRST_BUCKET_RATIO) RBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_READ_BYTES * MIDDLE_BUCKETS_RATIO) RBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_READ_BYTES * LAST_BUCKET_RATIO) RBYTES_LAST_BUCKET_VALUE, SUM(DELTA_WRITE_BYTES * FIRST_BUCKET_RATIO) WBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_WRITE_BYTES * MIDDLE_BUCKETS_RATIO) WBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_WRITE_BYTES * LAST_BUCKET_RATIO) WBYTES_LAST_BUCKET_VALUE, SUM(DELTA_INTERCONNECT_BYTES * FIRST_BUCKET_RATIO) IBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_INTERCONNECT_BYTES * MIDDLE_BUCKETS_RATIO) IBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_INTERCONNECT_BYTES * LAST_BUCKET_RATIO) IBYTES_LAST_BUCKET_VALUE, SUM(DELTA_READ_MEM_BYTES * FIRST_BUCKET_RATIO) CRBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_READ_MEM_BYTES * MIDDLE_BUCKETS_RATIO) CRBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_READ_MEM_BYTES * LAST_BUCKET_RATIO) CRBYTES_LAST_BUCKET_VALUE, SUM(PGA_ALLOCATED * LENGTH_SEG * FIRST_BUCKET_R ATIO) PGA_ALLOC_FIRST_BUCKET_VALUE, SUM(PGA_ALLOCATED * LENGTH_SEG * MIDDLE_BUCKETS_RATIO) PGA_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(PGA_ALLOCATED * LENGTH_SEG * LAST_BUCKET_RATIO) PGA_ALLOC_LAST_BUCKET_VALUE, SUM(TEMP_SPACE_ALLOCATED * LENGTH_SEG * FIRST_BUCKET_RATIO) TMP_ALLOC_FIRST_BUCKET_VALUE, SUM(TEMP_SPACE_ALLOCATED * LENGTH_SEG * MIDDLE_BUCKETS_RATIO) TMP_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(TEMP_SPACE_ALLOCATED * LENGTH_SEG * LAST_BUCKET_RATIO) TMP_ALLOC_LAST_BUCKET_VALUE FROM ( SELECT USERENV('INSTANCE') INST_ID, ROW_ID, SID, SAMPLE_TIME, CASE WHEN BUCKET_END IS NULL OR BUCKET_START IS NULL THEN NULL WHEN BUCKET_START = TM_BUCKET_START AND BUCKET_START = BUCKET_END THEN 'CO' WHEN BUCKET_START = TM_BUCKET_START THEN 'CM' WHEN BUCKET_START = BUCKET_END THEN 'SO' ELSE 'SM' END GROUP_TYPE, CASE WHEN TM_BUCKET_START IS NULL OR BUCKET_END IS NULL OR (TM_BUCKET_START = BUCKET_START) THEN NULL WHEN TM_BUCKET_START = BUCKET_END THEN 'O' ELSE 'M' END TM_GROUP_TYPE, START_SEG, BUCKET_S TART, BUCKET_START_OFFSET, TM_START_SEG, CASE WHEN TM_BUCKET_START IS NULL OR (TM_BUCKET_START = BUCKET_START) THEN NULL ELSE TM_BUCKET_START END TM_BUCKET_START, CASE WHEN TM_BUCKET_START IS NULL OR (TM_BUCKET_START = BUCKET_START) THEN NULL ELSE BUCKET_END END TM_BUCKET_END, TM_BUCKET_START_OFFSET, LENGTH_SEG, TM_LENGTH_SEG, END_SEG, BUCKET_END, BUCKET_END_OFFSET, CASE WHEN BUCKET_START != BUCKET_END THEN (:B7 - BUCKET_START_OFFSET) / LENGTH_SEG ELSE 1 END FIRST_BUCKET_RATIO, CASE WHEN BUCKET_END >= BUCKET_START + 2 THEN :B7 / LENGTH_SEG ELSE NULL END MIDDLE_BUCKETS_RATIO, CASE WHEN BUCKET_START != BUCKET_END THEN BUCKET_END_OFFSET / LENGTH_SEG ELSE NULL END LAST_BUCKET_RATIO, CASE WHEN TM_BUCKET_START != BUCKET_END THEN (:B7 - TM_BUCKET_START_OFFSET) / TM_LENGTH_SEG ELSE 1 END TM_FIRST_BUCKET_RATIO, CASE WHEN BUCKET_END >= TM_BUCKET_START + 2 THEN :B7 / TM_LENGTH_SEG ELSE NULL END TM_MIDDLE_BUCKETS_RATIO, CASE WHEN TM_BUCKET_START != BUCKET_END THEN BUCKET_END_ OFFSET / TM_LENGTH_SEG ELSE NULL END TM_LAST_BUCKET_RATIO, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS DELTA_READ_REQUESTS, DELTA_WRITE_IO_REQUESTS DELTA_WRITE_REQUESTS, DELTA_READ_IO_BYTES DELTA_READ_BYTES, DELTA_WRITE_IO_BYTES DELTA_WRITE_BYTES, DELTA_INTERCONNECT_IO_BYTES DELTA_INTERCONNECT_BYTES, DELTA_READ_MEM_BYTES DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROW_ID, SID, SAMPLE_TIME, START_SEG, TRUNC(START_SEG / :B7 ) BUCKET_START, MOD(START_SEG, :B7 ) BUCKET_START_OFFSET, TM_START_SEG, TRUNC(TM_START_SEG/:B7 ) TM_BUCKET_START, MOD(TM_START_SEG, :B7 ) TM_BUCKET_START_OFFSET, TRUNC(END_SEG/:B7 ) BUCKET_END, MOD(END_SEG, :B7 ) BUCKET_END_OFFSET, END_SEG, LENGTH_SEG, TM_LENGTH_SEG, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELEC T ROW_ID, SID, SAMPLE_TIME, TIME_INTERVAL, CASE WHEN START_SEG < 0 THEN 0 ELSE START_SEG END START_SEG, CASE WHEN TM_START_SEG < 0 THEN 0 ELSE TM_START_SEG END TM_START_SEG, CASE WHEN END_SEG > TIME_INTERVAL THEN TIME_INTERVAL ELSE END_SEG END END_SEG, (LENGTH_SEG - (CASE WHEN START_SEG < 0 THEN -START_SEG ELSE 0 END + CASE WHEN END_SEG > TIME_INTERVAL THEN END_SEG - TIME_INTERVAL ELSE 0 END)) LENGTH_SEG, (TM_LENGTH_SEG - (CASE WHEN TM_START_SEG < 0 THEN -TM_START_SEG ELSE 0 END + CASE WHEN END_SEG > TIME_INTERVAL THEN END_SEG - TIME_INTERVAL ELSE 0 END)) TM_LENGTH_SEG, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROW_ID, SID, SAMPLE_TIME, TIME_INTERVAL, LENGTH_SEG, TM_LENGTH_SEG, END_SEG - TM_LENGTH_SEG TM_START_SEG, END_SEG - LENGTH_SEG START_SEG, END_SEG, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROW_ID, SID, SAMPLE_TIME, EXTRACT(SECOND FROM REL_SAMPLE_TIME_INT) + EXTRACT(MINUTE FROM REL_SAMPLE_TIME_INT)60 + EXTRACT(HOUR FROM REL_SAMPLE_TIME_INT)3600 + EXTRACT(DAY FROM REL_SAMPLE_TIME_INT)360024 END_SEG, TIME_INTERVAL, DELTA_TIME/1000000 LENGTH_SEG, TM_DELTA_TIME/1000000 TM_LENGTH_SEG, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROWNUM ROW_ID, SESSION_ID SID, CAST(FROM_TZ(SAMPLE_TIME, DBTIMEZONE) AS DATE) SAMPLE_DATE, SAMPLE_TIME, (SAMPLE_TIME - CAST(:B6 AS TIMESTAMP)) REL_SAMPLE_TIME_INT, TRUNC((:B5 - :B6 ) * 3600 * 24) TIME_INTERVAL, :B6 AS BND_START_INTERVAL , :B5 AS BND_END_INTERVAL , TM_DELTA_TIME, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ASH0.* FROM V$ACTIVE_SESSION_HISTORY ASH0 WHERE ((SESSION_ID = :B2 AND SESSION_SERIAL# = :B1 AND USERENV('INSTANCE') = :B3 ) OR (:B4 = 'yes' AND QC_INSTANCE_ID = :B3 AND QC_SESSION_ID = :B2 AND QC_SESSION_SERIAL# = :B1 ))) ) ASH1 WHERE SAMPLE_DATE >= BND_START_INTERVAL AND SAMPLE_DATE <= BND_END_INTERVAL + 120/3600/24 ) ) WHERE START_SEG <= TIME_INTERVAL ) WHERE (LENGTH_SEG IS NOT NULL AND LENGTH_SEG > 0) OR (TM_LENGTH_SEG IS NOT NULL AND TM_LENGTH_SEG > 0)) ) GROUP BY INST_ID, GROUP_TYPE, BUCKET_START, BUCKET_END, TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END))) GVTF WHERE INST_ID >= :B9 AND INST_ID <= :B8 GROUP BY GROUP_TYPE, BUCKET_START , BUCKET_END, TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END ) GROUP BY GROUPING SETS ( (GROUP_TYPE, BUCKET_START, BUCKET_END), (TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END) )
8swypbbr0m372	select order#, columns, types from access$ where d_obj#=:1
94qn6y14kw01g	SELECT NVL(TO_NUMBER(EXTRACT(XMLTYPE(:B2 ), :B1 )), 0) FROM DUAL
94ukxr9b2xmst	SELECT COUNT(*) FROM GV$SESSION WHERE USERNAME LIKE :B1
aaz3bayav0jwj	update /* KSXM:FLUSH COL */ sys.col_usage$ set equality_preds = equality_preds + decode(bitand(:flag, 1), 0, 0, 1), equijoin_preds = equijoin_preds + decode(bitand(:flag, 2), 0, 0, 1), nonequijoin_preds = nonequijoin_preds + decode(bitand(:flag, 4), 0, 0, 1), range_preds = range_preds + decode(bitand(:flag, 8), 0, 0, 1), like_preds = like_preds + decode(bitand(:flag, 16), 0, 0, 1), null_preds = null_preds + decode(bitand(:flag, 32), 0, 0, 1), flags = :flag, timestamp = :time where obj# = :objn and intcol# = :coln
abr26jpdfxwhy	SELECT APPENDCHILDXML(:B2 , '/*', :B1 ) FROM DUAL
apqrms2c1kc9p	BEGIN :1 := mon_db.startup(interval=>5, server=>'10.128.18.121', port=>2700, userfilter=>'CLO_NORMAL%') ; END;
ay797pvkwkujh	SELECT NVL(TO_NUMBER(EXTRACT(XMLTYPE(:B2 ), :B3 )), 0) + NVL(TO_NUMBER(EXTRACT(XMLTYPE(:B2 ), :B1 )), 0) FROM DUAL
bqfx5q2jas08u	SELECT TASK_LIST.TASK_ID FROM (SELECT /+ NO_MERGE(T) ORDERED / T.TASK_ID FROM (SELECT * FROM DBA_ADVISOR_TASKS ORDER BY TASK_ID DESC) T, DBA_ADVISOR_PARAMETERS_PROJ P1, DBA_ADVISOR_PARAMETERS_PROJ P2 WHERE T.ADVISOR_NAME='ADDM' AND T.STATUS = 'COMPLETED' AND T.EXECUTION_START >= (SYSDATE - 1) AND T.HOW_CREATED = 'AUTO' AND T.TASK_ID = P1.TASK_ID AND P1.PARAMETER_NAME = 'INSTANCE' AND P1.PARAMETER_VALUE = SYS_CONTEXT('USERENV', 'INSTANCE') AND T.TASK_ID = P2.TASK_ID AND P2.PARAMETER_NAME = 'DB_ID' AND P2.PARAMETER_VALUE = TO_CHAR(:B1 ) ORDER BY T.TASK_ID DESC) TASK_LIST WHERE ROWNUM = 1
cb2rs7t0z99yt	SELECT DBNODEID, CARDID, BALANCE, PRIZETAX, PRIZENOTAX, ISCLIENTRECEIVED, ISONESTEPFINISHED, GAMEID, SESSIONSTATE, BETMONEY, WFDETAILID FROM T_SESSION WHERE termid=:1 and hallid=:2 and serialid = :3 and SessionState='1' FOR UPDATE NOWAIT
cp168yc65na4a	SELECT EVENT \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI<=1 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI>1 AND WAIT_TIME_MILLI<=2 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI>2 AND WAIT_TIME_MILLI<=4 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI>4 AND WAIT_TIME_MILLI<=8 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI>8 AND WAIT_TIME_MILLI<=16 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI>16 AND WAIT_TIME_MILLI<=32 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI> 32 AND WAIT_TIME_MILLI<=64 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI> 64 AND WAIT_TIME_MILLI<=128 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI> 128 AND WAIT_TIME_MILLI<=256 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI> 256 AND WAIT_TIME_MILLI<=512 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI> 512 AND WAIT_TIME_MILLI<=1024 THEN WAIT_COUNT ELSE 0 END) \|\| '\|' \|\| SUM(CASE WHEN WAIT_TIME_MILLI>1024 THEN WAIT_COUNT ELSE 0 END) DATA FROM GV$EVENT_HISTOGRAM WHERE EVENT IN ('log file sync', 'log file parallel write') GROUP BY EVENT ORDER BY EVENT
d5vhrurw6qufa	SELECT DECODE(ASH.WAIT_CLASS, '', 'ON CPU', ASH.WAIT_CLASS) \|\| '\|' \|\| DECODE(ASH.SESSION_STATE, 'ON CPU', 'ON CPU', ASH.EVENT) \|\| '\|' \|\| ROUND(COUNT(1)/:B3 , 2) \|\| '\|' \|\| ROUND(MAX(TIME_WAITED/1000)) DATA FROM GV$ACTIVE_SESSION_HISTORY ASH WHERE SAMPLE_TIME >= :B2 - NUMTODSINTERVAL(1, 'SECOND') AND SAMPLE_TIME < :B1 - NUMTODSINTERVAL(1, 'SECOND') GROUP BY DECODE(ASH.SESSION_STATE, 'ON CPU', 'ON CPU', ASH.EVENT), DECODE(ASH.WAIT_CLASS, '', 'ON CPU', ASH.WAIT_CLASS)
f80h0xb1qvbsk	SELECT sys.wri$_adv_seq_msggroup.nextval FROM dual
fhf8upax5cxsz	BEGIN sys.dbms_auto_report_internal.i_save_report (:rep_ref, :snap_id, :pr_class, :rep_id, :suc); END;
fn5s5p6hr6702	INSERT INTO wri$_adv_message_groups (task_id, id, seq, message#, fac, hdr, lm, nl, p1, p2, p3, p4, p5) VALUES (:1, :2, :3, :4, :5, :6, :7, :8, :9, :10, :11, :12, :13)
grwydz59pu6mc	select text from view$ where rowid=:1

Instance Activity Statistics

Key Instance Activity Stats

Instance Activity Stats

Instance Activity Stats - Absolute Values

Instance Activity Stats - Thread Activity

IO Stats

IOStat by Function summary

IOStat by Filetype summary

IOStat by Function/Filetype summary

Tablespace IO Stats

File IO Stats

Buffer Pool Statistics

Checkpoint Activity

Advisory Statistics

Instance Recovery Stats

MTTR Advisory

Buffer Pool Advisory

PGA Aggr Summary

PGA Aggr Target Stats

PGA Aggr Target Histogram

PGA Memory Advisory

Shared Pool Advisory

SGA Target Advisory

Streams Pool Advisory

Java Pool Advisory

Wait Statistics

Buffer Wait Statistics

Enqueue Activity

Undo Statistics

Undo Segment Summary

Undo Segment Stats

Latch Statistics

Latch Activity

Latch Sleep Breakdown

Latch Miss Sources

Mutex Sleep Summary

Parent Latch Statistics

Child Latch Statistics

Segment Statistics

Segments by Logical Reads

Segments by Physical Reads

Segments by Physical Read Requests

Segments by UnOptimized Reads

Segments by Optimized Reads

Segments by Direct Physical Reads

Segments by Physical Writes

Segments by Physical Write Requests

Segments by Direct Physical Writes

Segments by Table Scans

Segments by DB Blocks Changes

Segments by Row Lock Waits

Segments by ITL Waits

Segments by Buffer Busy Waits

Segments by Global Cache Buffer Busy

Segments by CR Blocks Received

Segments by Current Blocks Received

Dictionary Cache Statistics

Dictionary Cache Stats

Dictionary Cache Stats (RAC)

Library Cache Statistics

Library Cache Activity

Library Cache Activity (RAC)

Memory Statistics

Memory Dynamic Components

Memory Resize Operations Summary

Memory Resize Ops

Process Memory Summary

SGA Memory Summary

SGA breakdown difference

Replication Statistics (GoldenGate, XStream)

Replication System Resource Usage

Replication SGA Usage

GoldenGate Capture

GoldenGate Capture Rate

GoldenGate Apply Reader

GoldenGate Apply Coordinator

GoldenGate Apply Server

GoldenGate Apply Coordinator Rate

GoldenGate Apply Reader and Server Rate

XStream Capture

XStream Capture Rate

XStream Apply Reader

XStream Apply Coordinator

XStream Apply Server

XStream Apply Coordinator Rate

XStream Apply Reader and Server Rate

Table Statistics by DML Operations

Table Statistics by Conflict Resolutions

Replication Large Transaction Statistics

Replication Long Running Transaction Statistics

Streams Statistics

Streams CPU/IO Usage

Streams Capture

Streams Capture Rate

Streams Apply

Streams Apply Rate

Buffered Queues

Buffered Queue Subscribers

Rule Set

Persistent Queues

Persistent Queues Rate

Persistent Queue Subscribers

Resource Limit Stats

Shared Server Statistics

Shared Servers Activity

Shared Servers Rates

Shared Servers Utilization

Shared Servers Common Queue

Shared Servers Dispatchers

init.ora Parameters

init.ora Multi-Valued Parameters

Active Session History (ASH) Report

Top SQL with Top Events

Top SQL with Top Row Sources

Top Sessions

Top Blocking Sessions

Top PL/SQL Procedures

Top Events

Top Event P1/P2/P3 Values

Top DB Objects

Activity Over Time

ADDM Task ADDM:5801112_2_27009

RAC Statistics

Statistic	Total	per Second	per Trans
db block changes	135,403	219.48	14.05
execute count	54,556	88.43	5.66
gc cr block receive time	32	0.05	0.00
gc cr blocks received	2,713	4.40	0.28
gc current block receive time	25	0.04	0.00
gc current blocks received	2,897	4.70	0.30
logons cumulative	2,000	3.24	0.21
opened cursors cumulative	23,364	37.87	2.42
parse count (total)	9,981	16.18	1.04
parse time elapsed	211	0.34	0.02
physical reads	3,519,250,103	5,704,502.33	365,067.44
physical writes	193,813	314.16	20.11
redo size	31,800,628	51,546.99	3,298.82
session cursor cache hits	18,337	29.72	1.90
session logical reads	3,539,126,604	5,736,721.00	367,129.32
user calls	51,416	83.34	5.33
user commits	9,640	15.63	1.00
user rollbacks	0	0.00	0.00
workarea executions - multipass	0	0.00	0.00
workarea executions - optimal	26,275	42.59	2.73

Statistic	Total	per Second	per Trans
ASSM bg: segment fix monitor	1	0.00	0.00
ASSM cbk:blocks examined	1,958	3.17	0.20
ASSM cbk:blocks marked full	382	0.62	0.04
ASSM gsp:L1 bitmaps examined	1,612	2.61	0.17
ASSM gsp:L2 bitmap full	14	0.02	0.00
ASSM gsp:L2 bitmaps examined	126	0.20	0.01
ASSM gsp:L3 bitmaps examined	0	0.00	0.00
ASSM gsp:Optimized reject DB	0	0.00	0.00
ASSM gsp:Optimized reject l1	0	0.00	0.00
ASSM gsp:Optimized reject l2	0	0.00	0.00
ASSM gsp:Search all	13	0.02	0.00
ASSM gsp:Search hint	16	0.03	0.00
ASSM gsp:Search steal	7	0.01	0.00
ASSM gsp:bump HWM	7	0.01	0.00
ASSM gsp:get free block	1,576	2.55	0.16
ASSM gsp:get free data block	1,312	2.13	0.14
ASSM gsp:get free index block	264	0.43	0.03
ASSM gsp:good hint	1,539	2.49	0.16
ASSM gsp:reject L1	0	0.00	0.00
ASSM gsp:reject L2	0	0.00	0.00
ASSM gsp:reject db	0	0.00	0.00
ASSM rsv:alloc from reserve	0	0.00	0.00
ASSM rsv:alloc from reserve succ	0	0.00	0.00
ASSM rsv:clear reserve	0	0.00	0.00
ASSM rsv:fill reserve	1	0.00	0.00
ASSM wasted db state change	359	0.58	0.04
BPS commit wait	0	0.00	0.00
Batched IO (bound) vector count	136	0.22	0.01
Batched IO (full) vector count	0	0.00	0.00
Batched IO block miss count	431	0.70	0.04
Batched IO buffer defrag count	0	0.00	0.00
Batched IO double miss count	3	0.00	0.00
Batched IO same unit count	280	0.45	0.03
Batched IO single block count	130	0.21	0.01
Batched IO slow jump count	1	0.00	0.00
Batched IO vector block count	20	0.03	0.00
Batched IO vector read count	8	0.01	0.00
Block Cleanout Optim referenced	316	0.51	0.03
CCursor + sql area evicted	39	0.06	0.00
CPU used by this session	145,848	236.41	15.13
CPU used when call started	137,288	222.54	14.24
CR blocks created	30	0.05	0.00
Cached Commit SCN referenced	627,515	1,017.17	65.09
Commit SCN cached	2	0.00	0.00
DBWR checkpoint buffers written	185,053	299.96	19.20
DBWR checkpoints	21,650	35.09	2.25
DBWR fusion writes	58	0.09	0.01
DBWR object drop buffers written	150	0.24	0.02
DBWR parallel query checkpoint buffers written	28,283	45.85	2.93
DBWR revisited being-written buffer	0	0.00	0.00
DBWR transaction table writes	405	0.66	0.04
DBWR undo block writes	52,402	84.94	5.44
DDL statements parallelized	0	0.00	0.00
DFO trees parallelized	1,916	3.11	0.20
DML statements parallelized	0	0.00	0.00
Effective IO time	0	0.00	0.00
HSC Heap Segment Block Changes	33,154	53.74	3.44
Heap Segment Array Inserts	231	0.37	0.02
Heap Segment Array Updates	8	0.01	0.00
Heatmap BlkLevel Flushed	0	0.00	0.00
Heatmap BlkLevel Flushed to SYSAUX	0	0.00	0.00
Heatmap BlkLevel Ranges Flushed	0	0.00	0.00
Heatmap Blklevel Flush Task Count	0	0.00	0.00
IPC CPU used by this session	0	0.00	0.00
KTFB alloc myinst	10	0.02	0.00
KTFB alloc req	10	0.02	0.00
KTFB alloc search FFB	10	0.02	0.00
KTFB alloc space (block)	440	0.71	0.05
KTFB alloc steal	0	0.00	0.00
KTFB alloc time (ms)	2,256	3.66	0.23
KTFB apply req	11	0.02	0.00
KTFB apply time (ms)	656	1.06	0.07
KTFB commit req	0	0.00	0.00
KTFB commit time (ms)	0	0.00	0.00
KTFB free req	11	0.02	0.00
KTFB free space (block)	1,408	2.28	0.15
KTFB free time (ms)	11	0.02	0.00
LOB table id lookup cache misses	0	0.00	0.00
Misses for writing mapping	0	0.00	0.00
Number of read IOs issued	0	0.00	0.00
OS Block input operations	0	0.00	0.00
OS Block output operations	0	0.00	0.00
OS Involuntary context switches	0	0.00	0.00
OS Maximum resident set size	0	0.00	0.00
OS Page faults	0	0.00	0.00
OS Page reclaims	0	0.00	0.00
OS System time used	0	0.00	0.00
OS User time used	0	0.00	0.00
OS Voluntary context switches	0	0.00	0.00
PX local messages recv'd	8,307	13.47	0.86
PX local messages sent	8,307	13.47	0.86
PX remote messages recv'd	3,910	6.34	0.41
PX remote messages sent	4,495	7.29	0.47
Parallel operations downgraded to serial	0	0.00	0.00
Parallel operations not downgraded	1,916	3.11	0.20
Requests to/from client	41,497	67.26	4.30
RowCR - row contention	0	0.00	0.00
RowCR attempts	0	0.00	0.00
RowCR hits	0	0.00	0.00
SMON posted for instance recovery	0	0.00	0.00
SMON posted for undo segment shrink	1	0.00	0.00
SQL*Net roundtrips to/from client	41,499	67.27	4.30
TBS Extension: tasks created	0	0.00	0.00
active txn count during cleanout	1,649,566	2,673.85	171.12
auto extends on undo tablespace	0	0.00	0.00
background checkpoints completed	0	0.00	0.00
background checkpoints started	0	0.00	0.00
background timeouts	7,172	11.63	0.74
blocks cleaned out using minact	3,490	5.66	0.36
branch node splits	1	0.00	0.00
buffer is not pinned count	183,698	297.76	19.06
buffer is pinned count	349,527	566.56	36.26
bytes received via SQL*Net from client	7,898,600	12,803.18	819.36
bytes sent via SQL*Net to client	12,372,212	20,054.65	1,283.42
calls to get snapshot scn: kcmgss	85,598	138.75	8.88
calls to kcmgas	43,993	71.31	4.56
calls to kcmgcs	7,338,008	11,894.49	761.20
cell IO uncompressed bytes	18,186,918,805,504	29,479,951,056.46	1,886,609,834.60
cell blocks helped by commit cache	728,077	1,180.17	75.53
cell blocks helped by minscn optimization	2,205,875,434	3,575,597.41	228,825.25
cell blocks processed by cache layer	2,220,081,966	3,598,625.39	230,298.96
cell blocks processed by data layer	2,210,507,143	3,583,105.15	229,305.72
cell blocks processed by txn layer	2,210,507,143	3,583,105.15	229,305.72
cell commit cache queries	10,282,369	16,667.13	1,066.64
cell flash cache read hits	69,513,256	112,677.00	7,210.92
cell flash cache read hits for controlfile reads	3,161	5.12	0.33
cell flash cache read hits for smart IO	69,501,180	112,657.42	7,209.67
cell logical write IO requests	51,824	84.00	5.38
cell logical write IO requests eligible for offload	0	0.00	0.00
cell num bytes in passthru during predicate offload	121,626,624	197,149.77	12,616.87
cell num smartio automem buffer allocation attempts	21,450	34.77	2.23
cell overwrites in flash cache	98,152	159.10	10.18
cell partial writes in flash cache	0	0.00	0.00
cell physical IO bytes eligible for predicate offload	28,830,015,053,824	46,731,798,928.27	2,990,665,462.01
cell physical IO bytes eligible for smart IOs	28,830,014,005,248	46,731,797,228.59	2,990,665,353.24
cell physical IO bytes saved by storage index	10,637,820,960,768	17,243,296,933.61	1,103,508,398.42
cell physical IO bytes saved during optimized file creation	0	0.00	0.00
cell physical IO bytes sent directly to DB node to balance CPU	5,700,722,688	9,240,544.13	591,361.27
cell physical IO interconnect bytes	92,849,983,528	150,504,491.68	9,631,741.03
cell physical IO interconnect bytes returned by smart scan	89,420,641,168	144,945,724.63	9,276,000.12
cell physical write IO bytes eligible for offload	0	0.00	0.00
cell physical write IO host network bytes written during offloa	0	0.00	0.00
cell physical write bytes saved by smart file initialization	0	0.00	0.00
cell scans	21,450	34.77	2.23
cell smart IO session cache hits	0	0.00	0.00
cell smart IO session cache hwm	0	0.00	0.00
cell smart IO session cache lookups	0	0.00	0.00
cell transactions found in commit cache	728,382	1,180.67	75.56
cell writes to flash cache	98,366	159.45	10.20
change write time	88	0.14	0.01
cleanout - number of ktugct calls	9,561,357	15,498.41	991.84
cleanouts and rollbacks - consistent read gets	1,729,592	2,803.57	179.42
cleanouts only - consistent read gets	7,829,475	12,691.13	812.19
cluster key scan block gets	6,184	10.02	0.64
cluster key scans	3,957	6.41	0.41
commit batch performed	0	0.00	0.00
commit batch requested	0	0.00	0.00
commit batch/immediate performed	9,643	15.63	1.00
commit batch/immediate requested	9,643	15.63	1.00
commit cleanout failures: block lost	14	0.02	0.00
commit cleanout failures: buffer being written	17	0.03	0.00
commit cleanout failures: callback failure	52	0.08	0.01
commit cleanout failures: cannot pin	3	0.00	0.00
commit cleanouts	32,790	53.15	3.40
commit cleanouts successfully completed	32,704	53.01	3.39
commit immediate performed	9,643	15.63	1.00
commit immediate requested	9,643	15.63	1.00
commit txn count during cleanout	7,944,531	12,877.63	824.12
commit wait performed	9,640	15.63	1.00
commit wait requested	9,640	15.63	1.00
commit wait/nowait performed	9,640	15.63	1.00
commit wait/nowait requested	9,640	15.63	1.00
consistent changes	10,810	17.52	1.12
consistent gets	3,538,910,137	5,736,370.12	367,106.86
consistent gets direct	3,519,240,289	5,704,486.43	365,066.42
consistent gets examination	12,206,879	19,786.65	1,266.27
consistent gets examination (fastpath)	12,206,424	19,785.91	1,266.23
consistent gets from cache	19,674,190	31,890.73	2,040.89
consistent gets pin	7,467,326	12,104.11	774.62
consistent gets pin (fastpath)	7,460,897	12,093.69	773.95
cursor authentications	358	0.58	0.04
cursor reload failures	0	0.00	0.00
data blocks consistent reads - undo records applied	2,571,728	4,168.62	266.78
db block changes	135,403	219.48	14.05
db block gets	239,164	387.67	24.81
db block gets direct	629	1.02	0.07
db block gets from cache	238,535	386.65	24.74
db block gets from cache (fastpath)	211,392	342.65	21.93
deferred (CURRENT) block cleanout applications	10,851	17.59	1.13
dirty buffers inspected	840	1.36	0.09
enqueue conversions	138,616	224.69	14.38
enqueue releases	174,277	282.49	18.08
enqueue requests	174,303	282.54	18.08
enqueue timeouts	29	0.05	0.00
enqueue waits	57,217	92.75	5.94
exchange deadlocks	0	0.00	0.00
execute count	54,556	88.43	5.66
failed probes on index block reclamation	0	0.00	0.00
fastpath consistent get quota limit	0	0.00	0.00
file io service time	0	0.00	0.00
frame signature mismatch	0	0.00	0.00
free buffer inspected	17,789	28.83	1.85
free buffer requested	18,795	30.47	1.95
gc blocks compressed	0	0.00	0.00
gc cleanout applied	0	0.00	0.00
gc cleanout saved	14	0.02	0.00
gc cr anti locks created	0	0.00	0.00
gc cr block build time	1	0.00	0.00
gc cr block flush time	0	0.00	0.00
gc cr block receive time	32	0.05	0.00
gc cr blocks built	114	0.18	0.01
gc cr blocks flushed	3	0.00	0.00
gc cr blocks received	2,713	4.40	0.28
gc cr blocks received with BPS	11	0.02	0.00
gc cr blocks served	199	0.32	0.02
gc cr blocks served with BPS	3	0.00	0.00
gc cr multiblock grant time	0	0.00	0.00
gc cr multiblock grants received	0	0.00	0.00
gc current block flush time	0	0.00	0.00
gc current block pin time	0	0.00	0.00
gc current block receive time	25	0.04	0.00
gc current blocks flushed	4	0.01	0.00
gc current blocks pinned	0	0.00	0.00
gc current blocks received	2,897	4.70	0.30
gc current blocks received with BPS	7	0.01	0.00
gc current blocks served	267	0.43	0.03
gc current blocks served with BPS	4	0.01	0.00
gc force cr read cr	316	0.51	0.03
gc force cr read current	1	0.00	0.00
gc index split wait timeouts	0	0.00	0.00
gc kbytes saved	0	0.00	0.00
gc kbytes sent	3,728	6.04	0.39
gc local grants	9,594	15.55	1.00
gc merge pi bg	0	0.00	0.00
gc merge pi fg	12	0.02	0.00
gc read time waited	0	0.00	0.00
gc read waits	0	0.00	0.00
gc reader bypass grants	19	0.03	0.00
gc reader bypass waits	4	0.01	0.00
gc remote grants	296	0.48	0.03
gc status messages received	259	0.42	0.03
gc status messages sent	124	0.20	0.01
gcs affinity lock failures	49	0.08	0.01
gcs affinity lock grants	8,972	14.54	0.93
gcs anti-locks created	0	0.00	0.00
gcs messages sent	72,346	117.27	7.50
gcs read-mostly lock failures	0	0.00	0.00
gcs read-mostly lock grants	0	0.00	0.00
ges messages sent	115,116	186.60	11.94
global enqueue CPU used by this session	0	0.00	0.00
global enqueue get time	18,330	29.71	1.90
global enqueue gets async	265	0.43	0.03
global enqueue gets sync	393,268	637.46	40.80
global enqueue releases	254,014	411.74	26.35
global undo segment hints helped	0	0.00	0.00
global undo segment hints were stale	0	0.00	0.00
heap block compress	10,102	16.37	1.05
hot buffers moved to head of LRU	8,957	14.52	0.93
immediate (CR) block cleanout applications	9,559,072	15,494.71	991.60
immediate (CURRENT) block cleanout applications	722	1.17	0.07
index crx upgrade (positioned)	62	0.10	0.01
index fast full scans (full)	222	0.36	0.02
index fetch by key	31,832	51.60	3.30
index reclamation/extension switch	1	0.00	0.00
index scans kdiixs1	27,576	44.70	2.86
index split cancel op set	0	0.00	0.00
index split cancel wait clean	0	0.00	0.00
index split cancel wait noclean	0	0.00	0.00
leaf node 90-10 splits	33	0.05	0.00
leaf node splits	260	0.42	0.03
lob reads	3,186	5.16	0.33
lob writes	3,361	5.45	0.35
lob writes unaligned	3,361	5.45	0.35
logical read bytes from cache	163,125,387,264	264,416,885.79	16,921,720.67
logons cumulative	2,000	3.24	0.21
max cf enq hold time	0	0.00	0.00
messages received	311,624	505.12	32.33
messages sent	311,624	505.12	32.33
min active SCN optimization applied on CR	0	0.00	0.00
no buffer to keep pinned count	0	0.00	0.00
no work - consistent read gets	774,415	1,255.28	80.33
non-idle wait count	31,013,192	50,270.60	3,217.14
opened cursors cumulative	23,364	37.87	2.42
parse count (describe)	84	0.14	0.01
parse count (failures)	0	0.00	0.00
parse count (hard)	1,009	1.64	0.10
parse count (total)	9,981	16.18	1.04
parse time cpu	190	0.31	0.02
parse time elapsed	211	0.34	0.02
physical read IO requests	110,115,833	178,491.44	11,422.80
physical read bytes	28,829,738,721,280	46,731,351,009.09	2,990,636,796.81
physical read partial requests	0	0.00	0.00
physical read requests optimized	110,099,732	178,465.34	11,421.13
physical read snap IO requests no data	0	0.00	0.00
physical read total IO requests	110,118,195	178,495.27	11,423.05
physical read total bytes	28,829,581,747,200	46,731,096,563.12	2,990,620,513.20
physical read total bytes optimized	28,824,938,520,576	46,723,570,159.38	2,990,138,850.68
physical read total multi block requests	82,782,680	134,185.97	8,587.41
physical reads	3,519,250,103	5,704,502.33	365,067.44
physical reads cache	9,170	14.86	0.95
physical reads cache prefetch	54	0.09	0.01
physical reads direct	3,519,245,661	5,704,495.13	365,066.98
physical reads direct (lob)	0	0.00	0.00
physical reads direct temporary tablespace	0	0.00	0.00
physical reads prefetch warmup	0	0.00	0.00
physical write IO requests	47,745	77.39	4.95
physical write bytes	1,587,716,096	2,573,596.62	164,700.84
physical write requests optimized	49,220	79.78	5.11
physical write total IO requests	69,542	112.72	7.21
physical write total bytes	1,642,716,672	2,662,749.40	170,406.29
physical write total bytes optimized	1,600,904,704	2,594,974.60	166,068.95
physical write total multi block requests	7,637	12.38	0.79
physical writes	193,813	314.16	20.11
physical writes direct	629	1.02	0.07
physical writes direct (lob)	0	0.00	0.00
physical writes direct temporary tablespace	300	0.49	0.03
physical writes from cache	193,184	313.14	20.04
physical writes non checkpoint	83,671	135.63	8.68
pinned buffers inspected	0	0.00	0.00
pinned cursors current	1	0.00	0.00
prefetch clients - default	0	0.00	0.00
prefetch warmup blocks aged out before use	0	0.00	0.00
prefetch warmup blocks flushed out before use	0	0.00	0.00
prefetched blocks aged out before use	0	0.00	0.00
process last non-idle time	616	1.00	0.06
queries parallelized	0	0.00	0.00
recursive aborts on index block reclamation	0	0.00	0.00
recursive calls	91,691	148.63	9.51
recursive cpu usage	12,812	20.77	1.33
redo KB read	4,280	6.94	0.44
redo blocks checksummed by FG (exclusive)	12,247	19.85	1.27
redo blocks written	76,518	124.03	7.94
redo blocks written (group 0)	73,763	119.57	7.65
redo blocks written (group 1)	2,755	4.47	0.29
redo buffer allocation retries	0	0.00	0.00
redo entries	109,399	177.33	11.35
redo log space requests	0	0.00	0.00
redo ordering marks	0	0.00	0.00
redo size	31,800,628	51,546.99	3,298.82
redo size for direct writes	824	1.34	0.09
redo subscn max counts	116	0.19	0.01
redo synch long waits	3	0.00	0.00
redo synch poll writes	0	0.00	0.00
redo synch polls	0	0.00	0.00
redo synch time	799	1.30	0.08
redo synch time (usec)	7,933,981	12,860.53	823.03
redo synch time overhead (usec)	492,951	799.05	51.14
redo synch time overhead count ( 2ms)	9,643	15.63	1.00
redo synch time overhead count ( 8ms)	0	0.00	0.00
redo synch time overhead count ( 32ms)	0	0.00	0.00
redo synch time overhead count (128ms)	1	0.00	0.00
redo synch time overhead count (inf)	0	0.00	0.00
redo synch writes	9,654	15.65	1.00
redo wastage	5,804,112	9,408.13	602.09
redo write active strands	22,233	36.04	2.31
redo write broadcast ack count	44	0.07	0.00
redo write broadcast ack time	3,450	5.59	0.36
redo write broadcast lgwr post count	0	0.00	0.00
redo write finish time	13,439,958	21,785.40	1,394.19
redo write gather time	1,212,694	1,965.71	125.80
redo write info find	9,647	15.64	1.00
redo write info find fail	3	0.00	0.00
redo write issue time	2,657,607	4,307.83	275.69
redo write schedule time	1,283,475	2,080.44	133.14
redo write size count ( 4KB)	19,632	31.82	2.04
redo write size count ( 8KB)	774	1.25	0.08
redo write size count ( 16KB)	195	0.32	0.02
redo write size count ( 32KB)	173	0.28	0.02
redo write size count ( 128KB)	42	0.07	0.00
redo write size count ( 256KB)	6	0.01	0.00
redo write size count ( 512KB)	3	0.00	0.00
redo write size count (1024KB)	2	0.00	0.00
redo write size count (inf)	1	0.00	0.00
redo write time	1,360	2.20	0.14
redo write time (usec)	13,597,803	22,041.26	1,410.56
redo write total time	14,628,801	23,712.45	1,517.51
redo write worker delay (usec)	579,552	939.42	60.12
redo write worker delay count	20,828	33.76	2.16
redo writes	20,828	33.76	2.16
redo writes (group 0)	18,903	30.64	1.96
redo writes (group 1)	1,925	3.12	0.20
redo writes adaptive all	20,828	33.76	2.16
redo writes adaptive worker	20,828	33.76	2.16
remote Oradebug requests	0	0.00	0.00
rollback changes - undo records applied	1	0.00	0.00
rollbacks only - consistent read gets	22,339	36.21	2.32
root node splits	1	0.00	0.00
rows fetched via callback	5,905	9.57	0.61
saved cleanout failures: callback failure	0	0.00	0.00
saved cleanouts	0	0.00	0.00
saved cleanouts successfully completed	0	0.00	0.00
securefile allocation bytes	0	0.00	0.00
securefile allocation chunks	0	0.00	0.00
securefile bytes non-transformed	180,367	292.36	18.71
securefile direct read bytes	0	0.00	0.00
securefile direct read ops	0	0.00	0.00
securefile direct write bytes	0	0.00	0.00
securefile direct write ops	0	0.00	0.00
securefile number of non-transformed flushes	62	0.10	0.01
segment cfs allocations	0	0.00	0.00
segment chunks allocation from dispenser	0	0.00	0.00
segment dispenser allocations	0	0.00	0.00
segment dispenser load empty	0	0.00	0.00
segment dispenser load tasks	0	0.00	0.00
segment prealloc bytes	0	0.00	0.00
segment prealloc ops	2	0.00	0.00
segment prealloc tasks	0	0.00	0.00
segment prealloc time (ms)	137	0.22	0.01
segment prealloc ufs2cfs bytes	0	0.00	0.00
segment total chunk allocation	0	0.00	0.00
session connect time	0	0.00	0.00
session cursor cache hits	18,337	29.72	1.90
session logical reads	3,539,126,604	5,736,721.00	367,129.32
shared hash latch upgrades - no wait	6,629	10.75	0.69
shared hash latch upgrades - wait	2	0.00	0.00
shared io pool buffer get success	0	0.00	0.00
sorts (disk)	0	0.00	0.00
sorts (memory)	16,093	26.09	1.67
sorts (rows)	558,308	904.99	57.92
sql area evicted	15	0.02	0.00
sql area purged	15	0.02	0.00
summed dirty queue length	21,381	34.66	2.22
switch current caused by our pin	82	0.13	0.01
switch current to new buffer	83	0.13	0.01
table fetch by rowid	130,065	210.83	13.49
table fetch continued row	628	1.02	0.07
table scan blocks gotten	10,315,540	16,720.90	1,070.08
table scan disk non-IMC rows gotten	962,560,940	1,560,256.01	99,850.72
table scan rows gotten	962,561,033	1,560,256.16	99,850.73
table scans (direct read)	21,450	34.77	2.23
table scans (long tables)	19,840	32.16	2.06
table scans (rowid ranges)	0	0.00	0.00
table scans (short tables)	31,049	50.33	3.22
temp space allocated (bytes)	0	0.00	0.00
total cf enq hold time	2,174	3.52	0.23
total number of cf enq holders	97	0.16	0.01
total number of times SMON posted	1	0.00	0.00
transaction lock background get time	0	0.00	0.00
transaction lock background gets	0	0.00	0.00
transaction lock foreground requests	0	0.00	0.00
transaction rollbacks	0	0.00	0.00
transaction tables consistent read rollbacks	0	0.00	0.00
transaction tables consistent reads - undo records applied	0	0.00	0.00
undo change vector size	7,801,132	12,645.19	809.25
user calls	51,416	83.34	5.33
user commits	9,640	15.63	1.00
user logons cumulative	4	0.01	0.00
user logouts cumulative	4	0.01	0.00
user rollbacks	0	0.00	0.00
workarea executions - multipass	0	0.00	0.00
workarea executions - optimal	26,275	42.59	2.73
write clones created in background	0	0.00	0.00
write clones created in foreground	15	0.02	0.00

Statistic	Begin Value	End Value
logons current	203	202
opened cursors current	1,564	1,565
session cursor cache count	7,228,552	7,231,126
session pga memory	2,138,343,840	2,131,778,736
session pga memory max	2,717,895,744	2,756,681,552
session uga memory	640,333,586,920	640,533,735,448
session uga memory max	2,749,215,679,920	2,750,922,617,280
workarea memory allocated	691,104	691,104

Statistic	Total	per Hour
log switches (derived)	0	0.00

Function Name	Reads: Data	Reqs per sec	Data per sec	Writes: Data	Reqs per sec	Data per sec	Waits: Count	Avg Time
Smart Scan	6T	176903.99	9.9G	0M	0.00	0M	0
DBWR	0M	0.00	0M	1.5G	76.30	2.407M	0
Others	53M	5.10	.086M	20M	2.03	.032M	2499	8.32ms
Buffer Cache Reads	71M	14.67	.115M	0M	0.00	0M	9053	4.26ms
LGWR	0M	0.00	0M	37M	33.65	.06M	0
Direct Writes	0M	0.00	0M	0M	0.00	0M	0
TOTAL:	6T	176923.76	9.9G	1.5G	111.99	2.499M	11.6K	5.14ms

Filetype Name	Reads: Data	Reqs per sec	Data per sec	Writes: Data	Reqs per sec	Data per sec	Small Read	Large Read
Data File	26T	176908.93	43.1G	1.5G	76.08	2.409M	101.38us	5.71ms
Control File	49M	5.07	.079M	15M	1.54	.024M	5.23ms
Log File	5M	0.01	.008M	37M	33.66	.06M	15.00ms	37.60ms
Temp File	7M	1.36	.011M	4M	0.72	.006M	2.83ms
TOTAL:	26T	176915.37	43.1G	1.5G	112.00	2.499M	102.05us	5.71ms

Function/File Name	Reads: Data	Reqs per sec	Data per sec	Writes: Data	Reqs per sec	Data per sec	Waits: Count	Avg Time
Smart Scan (Data File)	6T	176895.71	9.9G	0M	0.00	0M	0
Smart Scan	6T	176895.71	9.9G	0M	0.00	0M	0
DBWR	0M	0.00	0M	1.5G	76.30	2.407M	0
DBWR (Data File)	0M	0.00	0M	1.4G	76.06	2.405M	0
DBWR (Temp File)	0M	0.00	0M	1M	0.24	.002M	0
Others	53M	5.10	.086M	20M	2.03	.032M	2183	7.87ms
Others (Control File)	49M	5.07	.079M	15M	1.54	.024M	2170	7.91ms
Others (Log File)	4M	0.01	.006M	0M	0.00	0M	2	.00ns
Others (Temp File)	0M	0.00	0M	3M	0.48	.005M	0
Others (Data File)	0M	0.02	0M	2M	0.02	.003M	11	2.37ms
Buffer Cache Reads	71M	14.67	.115M	0M	0.00	0M	9053	4.26ms
Buffer Cache Reads (Data File)	64M	13.32	.104M	0M	0.00	0M	8216	4.38ms
Buffer Cache Reads (Temp File)	7M	1.36	.011M	0M	0.00	0M	837	3.18ms
LGWR (Log File)	0M	0.00	0M	37M	33.65	.06M	0
LGWR	0M	0.00	0M	37M	33.65	.06M	0
Direct Writes (Data File)	0M	0.00	0M	0M	0.00	0M	0
Direct Writes	0M	0.00	0M	0M	0.00	0M	0
TOTAL:	6T	176915.48	9.9G	1.5G	111.99	2.499M	11.2K	4.97ms

P	Number of Buffers	Pool Hit%	Buffer Gets	Physical Reads	Physical Writes	Free Buff Wait	Writ Comp Wait	Buffer Busy Waits
D	489,809	100	19,798,513	9,174	193,181	0	0	156

MTTR Writes	Log Size Writes	Log Ckpt Writes	Other Settings Writes	Autotune Ckpt Writes	Thread Ckpt Writes
0	0	0	0	156,754	0

	Begin	End
Number of Instances:	2	2
Number of LMS's:	3	3
Number of realtime LMS's:	3	3	(0 priority changes)

	Per Second	Per Transaction
Global Cache blocks received:	9.09	0.58
Global Cache blocks served:	0.76	0.05
GCS/GES messages received:	233.42	14.94
GCS/GES messages sent:	304.07	19.46
DBWR Fusion writes:	0.09	0.01
Estd Interconnect traffic (KB)	183.77

Buffer access - local cache %:	99.93
Buffer access - remote cache %:	0.03
Buffer access - disk %:	0.05
Global Cache Locality %:	97.01

Avg global cache cr block receive time (us):	118.0
Avg global cache current block receive time (us):	86.3
Avg LMS process busy %:	0.3
Avg global cache cr block build time (us):	87.7
Global cache log flushes for cr blocks served %:	4.0
Avg global cache cr block flush time (us):	0.0
Avg global cache current block pin time (us):
Global cache log flushes for current blocks served %:	2.2
Avg global cache current block flush time (us):	0.0
Avg global enqueue get time (us):	465.8

Avg message sent queue time (us):	2,233.3
Avg message sent queue time on ksxp (us):	15.8
Avg message received queue time (us):	4.9
Avg GCS message process time (us):	3.8
Avg GES message process time (us):	5.6
% of direct sent messages:	55.49
% of indirect sent messages:	44.48
% of flow controlled messages:	0.02

RAC Statistics

Global Messaging Statistics

Global CR Server Statistics

Global Current Server Statistics

Global Cache Transfer Statistics

Global Cache Transfer Times (us)

Global Cache Transfer (Immediate)

Global Cache Times (Immediate)

Interconnect Statistics

Interconnect Ping Latency Statistics

Interconnect Throughput by Client

Interconnect Device Statistics

Dynamic Remastering Statistics

Exadata Configuration and Statistics

Exadata Storage Server Model

Model Information of Servers
CPU Count refers to logical CPUs, including cores and hyperthreads

Model	CPU Count	Memory (GB)	# Cells	Cells
Oracle Corporation SUN SERVER X4-2L High Performance	24/24	94	7	scao08celadm01, scao08celadm02, scao08celadm03, scao08celadm04, scao08celadm05, scao08celadm06, scao08celadm07

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Exadata Storage Server Version

Version information of packages on the storage server

Package Type	Package Version	Cells
Kernel	4.1.12-61.47.1.el6uek.x86_64	All (7)
Cell	cell-12.2.1.1.2_LINUX.X64_170714-1.x86_64	All (7)
Offload	cellofl-12.1.2.4.0_LINUX.X64_170701	All (7)
Offload	cellofl-12.2.1.1.2_LINUX.X64_170714	All (7)
Offload	cellofl-11.2.3.3.1_LINUX.X64_170621.1	All (7)

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Exadata Storage Information

Storage information per cell
'Total' is the sum for all cells

# Cells	Flash Cache Size (GB)	Flash Log Size (GB)	Hard Disk	Flash	# Griddisks	Cell Name
			# Celldisks
7	2,945.25	2.00	12	16	98	All (7)
Total (7)	20,616.75	14.00	84	112	686	All (7)

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Exadata Griddisks

Griddisks on the storage servervs
Disk Type <F|H>/<size>: F-Flash, H-Harddisk
Size (GB) - Griddisk: indicates size of individual Griddisks in the cells
Size (GB) - Cell Total: indicates total size per cell
Size (GB) - System Total: indicates total size over all cells

Griddisk Name Prefix	# Griddisks	Griddisk	Cell Total	System Total	Disk Type	Cells
		Size (GB)
CLUSTER	12	2.00	24.00	168.00	H/1.1T	All (7)
DATA_ALL	12	50.00	600.00	4,200.00	H/1.1T	All (7)
DATA_LOW7	12	433.00	5,196.00	36,372.00	H/1.1T	All (7)
DATA_TOP7	12	433.00	5,196.00	36,372.00	H/1.1T	All (7)
DBFS_DG	10	33.80	338.00	2,366.00	H/1.1T	All (7)
NOFLASH	12	25.00	300.00	2,100.00	H/1.1T	All (7)
RECO_ALL	12	20.00	240.00	1,680.00	H/1.1T	All (7)
flash	16	2.00	32.00	224.00	F/186G	All (7)

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Exadata Celldisks

Celldisks on the storage servervs
Disk Type <F|H>/<size>: F-Flash, H-Harddisk
Celldisk Size indicates size of individual Celldisks in the cells, not the total size
System disks have the same disk type, but are smaller in size

Disk Type	Celldisk Size (GB)	# Celldisks	Cells
F/186G	186.25	16	All (7)
H/1.1T	1,116.64	10	All (7)
H/1.1T	1,082.84	2	All (7)

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ASM Diskgroups

ASM Diskgroups at the end of the report period for the database

Disk Group	Size (GB)	Used (GB)	# Griddisks	Redundancy
DATA_ALL	4,200.00	2,706.35	84	NORMAL
DATA_TOP7	36,372.00	24,940.82	84	NORMAL
NOFLASH	2,100.00	417.82	84	NORMAL

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Exadata Server Health Report

Exadata Alerts Summary
Exadata Alerts Detail
Exadata Non-Online Disks

Exadata Alerts Summary

No open alerts.

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Exadata Alert Details

No open alerts.

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Exadata Non-Online Disks

All disks were online at the end of the report period.

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Exadata Statistics

Exadata Resource Statistics

Exadata Outlier Summary
Exadata OS Statistics Outliers

Exadata OS IO Statistics
Exadata OS IO Latency
Exadata OS CPU Statistics

Exadata Cell Server Statistics Outliers

Cell Server IOPS Statistics
Cell Server IO MB/s Statistics
Cell Server IO Latency Statistics

Exadata Outlier Details

Exadata OS Statistics Outlier Details
Exadata Cell Server Outlier Details

Exadata OS Statistics Top

Exadata OS IO Statistcs
Exadata OS IO Latency Statistics
Exadata OS CPU Statistics

Exadata Cell Server Statistics Top

Cell Server IOPS Statistics
Cell Server IO MB/s Statistics
Cell Server IO Latency

Exadata Smart Statistics

Smart IO
Passthru Reasons
Flash Log
Flash Cache

Exadata IO Reasons

Top IO Reasons by Requests
Top IO Reasons by MB

Exadata Top Database Consumers

Top Databases by Requests
Top Databases by Throughput
Top Databases by Requests per Cell
Top Databases by Throughput per Cell

Exadata Resource Statistics

Exadata Outlier Summary
Exadata OS Statistics Outliers

Exadata OS IO Statistics
Exadata OS IO Latency
Exadata OS CPU Statistics

Exadata Cell Server Statistics Outliers

Cell Server IOPS Statistics
Cell Server IO MB/s Statistics
Cell Server IO Latency Statistics

Exadata Outlier Details

Exadata OS Statistics Outlier Details
Exadata Cell Server Outlier Details

Exadata OS Statistics Top

Exadata OS IO Statistcs
Exadata OS IO Latency Statistics
Exadata OS CPU Statistics

Exadata Cell Server Statistics Top

Cell Server IOPS Statistics
Cell Server IO MB/s Statistics
Cell Server IO Latency

Exadata Outlier Summary

Cell Level
Disk Level

Outlier Summary - Cell Level

Outliers are cells whose average performance is outside the normal range, where normal range is -/+ 1 standard deviation
Outlier cells must have a mininum of 10 IOPs. Idle cells are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
A '*' and a dark red background indicates over maximum capacity
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Maximum cell capacity for hard disks: IOPS: H/1.1T: 3,168 | IO MB/s: H/1.1T: 1,440
Maximum cell capacity for flash disks: IOPS: F/186G: 459,984 | IO MB/s: F/186G: 8,272
There are no cell outliers on flash
There are no cell outliers on hard disks

Cell Name	Disk Type	Statistic Name	Cell		Mean	Std Dev	Normal Range
			Value		Typical
scao08celadm02	Cell	% CPU	^	71.10	52.99	12.78	40.21 - 65.76
		% User CPU	^	63.60	47.10	11.60	35.50 - 58.70
		% System CPU	^	7.50	5.89	1.23	4.66 - 7.11
scao08celadm07	Cell	% CPU	v	37.70	52.99	12.78	40.21 - 65.76
		% User CPU	v	33.30	47.10	11.60	35.50 - 58.70
		% System CPU	v	4.40	5.89	1.23	4.66 - 7.11
scao08celadm04	Cell	% CPU	^	66.00	52.99	12.78	40.21 - 65.76
		% System CPU	^	7.30	5.89	1.23	4.66 - 7.11

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Outlier Summary - Disk Level

Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
A '*' and a dark red background indicates over maximum capacity
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Maximum hard disk capacity: IOPS: H/1.1T: 264 | IO MB/s: H/1.1T: 120
Maximum flash disk capacity: IOPS: F/186G: 28,749 | IO MB/s: F/186G: 517

Disk Name	Cell Name	Disk Type	Statistic Name	Value		Mean	Std Dev	Normal Range
FD_12_scao08celadm04	scao08celadm04	F/186G	Wait Time	^	126.30ms	14.79ms	20.21ms	0.00ns - 75.42ms
			Small Read Latency	^	110.73ms	11.34ms	19.67ms	0.00ns - 70.34ms
			Large Read Latency	^	126.29ms	15.03ms	19.99ms	0.00ns - 75.01ms
			Cell IO Latency	^	126.11ms	15.01ms	19.97ms	0.00ns - 74.92ms
FD_13_scao08celadm04	scao08celadm04	F/186G	Wait Time	^	96.76ms	14.79ms	20.21ms	0.00ns - 75.42ms
			Small Read Latency	^	93.76ms	11.34ms	19.67ms	0.00ns - 70.34ms
			Large Read Latency	^	96.83ms	15.03ms	19.99ms	0.00ns - 75.01ms
			Cell IO Latency	^	96.77ms	15.01ms	19.97ms	0.00ns - 74.92ms
CD_04_scao08celadm06	scao08celadm06	H/1.1T	IOPs	^	36.30	3.38	10.35	0.00 - 34.42
			Cell Server IOPs	^	36.40	3.36	10.36	0.00 - 34.45
			Small Reads/s	^	32.30	2.03	8.45	0.00 - 27.38
CD_09_scao08celadm02	scao08celadm02	H/1.1T	IOPs	^	36.10	3.38	10.35	0.00 - 34.42
			Cell Server IOPs	^	36.00	3.36	10.36	0.00 - 34.45
			Small Reads/s	^	32.00	2.03	8.45	0.00 - 27.38
CD_09_scao08celadm03	scao08celadm03	H/1.1T	IOPs	^	36.30	3.38	10.35	0.00 - 34.42
			Cell Server IOPs	^	36.20	3.36	10.36	0.00 - 34.45
			Small Reads/s	^	32.20	2.03	8.45	0.00 - 27.38
CD_09_scao08celadm04	scao08celadm04	H/1.1T	IOPs	^	36.10	3.38	10.35	0.00 - 34.42
			Cell Server IOPs	^	35.80	3.36	10.36	0.00 - 34.45
			Small Reads/s	^	31.70	2.03	8.45	0.00 - 27.38
CD_10_scao08celadm05	scao08celadm05	H/1.1T	IOPs	^	35.90	3.38	10.35	0.00 - 34.42
			Cell Server IOPs	^	35.80	3.36	10.36	0.00 - 34.45
			Small Reads/s	^	31.70	2.03	8.45	0.00 - 27.38
FD_00_scao08celadm07	scao08celadm07	F/186G	Small Reads/s	^	106.80	26.32	25.22	0.00 - 102.00

Back to Exadata Outlier Summary
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Exadata OS Statistics Outliers

Exadata OS IO Statistics

Outlier Cells
Outlier Disks

Exadata OS IO Latency

Outlier Cells
Outlier Disks

Exadata OS CPU Statistics - Outlier Cells

Exadata OS IO Statistics - Outlier Cells

These statistics are collected by the OS on the cells and are not restricted to this database or instance
Outliers are cells whose average performance is outside the normal range, where normal range is -/+ 1 standard deviation
Outlier cells must have a mininum of 10 IOPs. Idle cells are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
A '*' and a dark red background indicates over maximum capacity
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
%Total - Avg [IOPs |IO MB/s] of the cell as a percentage of total [IOPs | IO MB/s] for the disk type
There are no cell outliers on flash
There are no cell outliers on hard disks

Disk Type	Cell Name	# Cells	# Disks	Total	% Total	Average	Mean	Std Dev	Normal Range	Total	% Total	Average	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range
				IOPs						IO MB/s						% Disk Utilization
				Total	% Total	Per Cell	Per Disk			Total	% Total	Per Cell	Per Disk			% Disk Utilization
F/186G	All	7	112	455,077.70		65,011.10	4,063.19	1,435.25	2,627.95 - 5,498.44	28,264.20		4,037.74	252.36	89.44	162.92 - 341.80	51.12	17.81	33.31 - 68.94
H/1.1T	All	7	84	283.50		40.50	3.38	10.35	0.00 - 13.72	7.10		1.01	0.08	0.77	0.00 - 0.86	0.02	0.14	0.00 - 0.16

Exadata OS IO Statistics - Outlier Disks

These statistics are collected by the OS on the cells and are not restricted to this database or instance
Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
A '*' and a dark red background indicates over maximum capacity
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
% Total - Avg [IOPs |IO MB/s] of the disk as a percentage of total [IOPs | IO MB/s] for the disk type
There are no disk outliers on flash

Disk Type	Cell Name	Disk Name	# Disks	% Total	Mean		Std Dev	Normal Range	% Total	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range
				IOPs					IO MB/s				% Disk Utilization
F/186G	All	All	112		4,063.19		1,435.25	0.00 - 8,368.93		252.36	89.44	0.00 - 520.68	51.12	17.81	0.00 - 104.56
H/1.1T	All	All	84		3.38		10.35	0.00 - 34.42		0.08	0.77	0.00 - 2.41	0.02	0.14	0.00 - 0.44
Outlier	scao08celadm06	CD_04_scao08celadm06		12.80	^	36.30			0.00	0.00			0.00
Outlier	scao08celadm03	CD_09_scao08celadm03		12.80	^	36.30			0.00	0.00			0.00
Outlier	scao08celadm02	CD_09_scao08celadm02		12.73	^	36.10			0.00	0.00			0.00
Outlier	scao08celadm04	CD_09_scao08celadm04		12.73	^	36.10			0.00	0.00			0.00
Outlier	scao08celadm05	CD_10_scao08celadm05		12.66	^	35.90			0.00	0.00			0.00

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Exadata OS IO Latency - Outlier Cells

These statistics are collected by the OS on the cells and are not restricted to this database or instance
Outliers are cells whose average performance is outside the normal range, where normal range is -/+ 1 standard deviation
Outlier cells must have a mininum of 10 IOPs. Idle cells are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
There are no cell outliers on flash
There are no cell outliers on hard disks

Disk Type	Cell Name	# Cells	# Disks	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range
				Avg Service Time			Avg Wait Time
F/186G	All	7	112	126.89us	4.04us	122.85us - 130.93us	14.79ms	20.21ms	0.00ms - 35.00ms
H/1.1T	All	7	84	248.02us	874.05us	0.00us - 1,122.08us	281.85us	915.87us	0.00us - 1,197.72us

Exadata OS IO Latency - Outlier Disks

These statistics are collected by the OS on the cells and are not restricted to this database or instance
Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
There are no disk outliers on hard disks

Disk Type	Cell Name	Disk Name	Mean	Std Dev	Normal Range	Mean		Std Dev	Normal Range
			Avg Service Time			Avg Wait Time
F/186G	All	All	126.89us	4.04us	114.77us - 139.00us	14.79ms		20.21ms	0.00ms - 75.42ms
Outlier	scao08celadm04	FD_12_scao08celadm04	124.50us			^	126.30ms
Outlier	scao08celadm04	FD_13_scao08celadm04	128.90us			^	96.76ms
H/1.1T	All	All	248.02us	874.05us	0.00us - 2,870.18us	281.85us		915.87us	0.00us - 3,029.46us

Back to Exadata OS Statistics Outliers
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Exadata OS CPU Statistics - Outlier Cells

These statistics are collected by the OS on the cells and are not restricted to this database or instance
Outliers are cells whose average performance is outside the normal range, where normal range is -/+ 1 standard deviation
Outlier cells must have a mininum of 10 IOPs. Idle cells are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Outliers for CPU are displayed when CPU exceeds 20%
There are no cell outliers for cpu

Cell Name	# Cells	Mean		Std Dev	Normal Range	Mean		Std Dev	Normal Range	Mean		Std Dev	Normal Range
		% CPU Usage				% User CPU				% System CPU
All	7	52.99		12.78	40.21 - 65.76	47.10		11.60	35.50 - 58.70	5.89		1.23	4.66 - 7.11
scao08celadm02		^	71.10			^	63.60			^	7.50
scao08celadm04		^	66.00			58.70				^	7.30
scao08celadm07		v	37.70			v	33.30			v	4.40

Back to Exadata OS Statistics Outliers
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Exadata Cell Server Statistics Outliers

Cell Server IOPS Statistics

Outlier Cells
Outlier Disks

Cell Server IO MB/s Statistics

Outlier Cells
Outlier Disks

Cell Server IO Latency Statistics

Outlier Cells
Outlier Disks

Exadata Cell Server IOPS Statistics - Outlier Cells

These statistics are collected by the cells and are not restricted to this database or instance
Outliers are cells whose average performance is outside the normal range, where normal range is -/+ 1 standard deviation
Outlier cells must have a mininum of 10 IOPs. Idle cells are not considered for outlier analysis.
Outliers for small reads, small writes, large read, large writes, must have a minimum of 10 requests for the corresponding small read, small write, large read, large write statistic.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
% Total - Avg IOPs of the cell as a percentage of total IOPs for the disk type
There are no cell outliers on flash
There are no cell outliers on hard disks

Disk Type	Cell Name	# Cells	# Disks	Total	% Total	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range
				IOPs						Small Reads/s				Small Writes/s				Large Reads/s				Large Writes/s
				Total	% Total	Per Cell	Per Disk			Per Cell	Per Disk			Per Cell	Per Disk			Per Cell	Per Disk			Per Cell	Per Disk
F/186G	All	7	112	455,170.50		65,024.36	4,064.02	1,432.34	2,631.69 - 5,496.36	421.19	26.32	25.22	1.10 - 51.55	42.03	2.63	2.87	0.00 - 5.50	64,556.11	4,034.76	1,423.07	2,611.68 - 5,457.83	5.03	0.31	0.70	0.00 - 1.01
H/1.1T	All	7	84	282.50		40.36	3.36	10.36	0.00 - 13.73	24.39	2.03	8.45	0.00 - 10.48	14.86	1.24	4.84	0.00 - 6.08	1.11	0.09	0.82	0.00 - 0.91	0.00	0.00	0.00	0.00 - 0.00

Exadata Cell Server IOPS Statistics - Outlier Disks

These statistics are collected by the cells and are not restricted to this database or instance
Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for small reads, small writes, large read, large writes, must have a minimum of 10 requests for the corresponding small read, small write, large read, large write statistic.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
% Total - Avg IOPs of the disk as a percentage of total IOPs for the disk type

Disk Type	Cell Name	Disk Name	% Total	Mean		Std Dev	Normal Range	Mean		Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range
			IOPs					Small Reads/s				Small Writes/s			Large Reads/s			Large Writes/s
F/186G	All	All		4,064.02		1,432.34	0.00 - 8,361.03	26.32		25.22	0.00 - 102.00	2.63	2.87	0.00 - 11.24	4,034.76	1,423.07	0.00 - 8,303.98	0.31	0.70	0.00 - 2.42
Outlier	scao08celadm07	FD_00_scao08celadm07	0.50	2,279.40				^	106.80			2.40			2,169.80			0.40
H/1.1T	All	All		3.36		10.36	0.00 - 34.45	2.03		8.45	0.00 - 27.38	1.24	4.84	0.00 - 15.77	0.09	0.82	0.00 - 2.54	0.00	0.00	0.00 - 0.00
Outlier	scao08celadm06	CD_04_scao08celadm06	12.88	^	36.40			^	32.30			4.00			0.10			0.00
Outlier	scao08celadm03	CD_09_scao08celadm03	12.81	^	36.20			^	32.20			4.00			0.00			0.00
Outlier	scao08celadm02	CD_09_scao08celadm02	12.74	^	36.00			^	32.00			4.00			0.00			0.00
Outlier	scao08celadm04	CD_09_scao08celadm04	12.67	^	35.80			^	31.70			4.00			0.10			0.00
Outlier	scao08celadm05	CD_10_scao08celadm05	12.67	^	35.80			^	31.70			4.00			0.10			0.00

Back to Exadata Cell Server Statistics Outliers
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Exadata Cell Server IO MB/s Statistics - Outlier Cells

These statistics are collected by the cells and are not restricted to this database or instance
Outliers are cells whose average performance is outside the normal range, where normal range is -/+ 1 standard deviation
Outlier cells must have a mininum of 10 IOPs. Idle cells are not considered for outlier analysis.
Outliers for small reads, small writes, large read, large writes, must have a minimum of 10 requests for the corresponding small read, small write, large read, large write statistic.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
% Total - Avg IO MB/s of the cell as a percentage of total IO MB/s for the disk type
There are no cell outliers on flash
There are no cell outliers on hard disks

Disk Type	Cell Name	# Cells	# Disks	Total	% Total	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range	Average	Mean	Std Dev	Normal Range
				IO MB/s						Small Reads/s				Small Writes/s				Large Reads/s				Large Writes/s
				Total	% Total	Per Cell	Per Disk			Per Cell	Per Disk			Per Cell	Per Disk			Per Cell	Per Disk			Per Cell	Per Disk
F/186G	All	7	112	28,340.27		4,048.61	253.04	89.26	163.77 - 342.30	12.31	0.77	0.74	0.03 - 1.51	0.52	0.03	0.03	0.00 - 0.06	4,035.23	252.20	88.94	163.26 - 341.15	0.54	0.03	0.05	0.00 - 0.08
H/1.1T	All	7	84	10.02		1.43	0.12	0.84	0.00 - 0.95	0.03	0.00	0.01	0.00 - 0.01	0.05	0.00	0.02	0.00 - 0.03	1.34	0.11	0.83	0.00 - 0.95	0.01	0.00	0.01	0.00 - 0.01

Exadata Cell Server IO MB/s Statistics - Outlier Disks

These statistics are collected by the cells and are not restricted to this database or instance
Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for small reads, small writes, large read, large writes, must have a minimum of 10 requests for the corresponding small read, small write, large read, large write statistic.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
% Total - Avg IO MB/s of the disk as a percentage of total IO MB/s for the disk type
There are no disk outliers on flash

Disk Type	Cell Name	Disk Name	% Total	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range
			IO MB/s				Small Reads/s			Small Writes/s			Large Reads/s			Large Writes/s
F/186G	All	All		253.04	89.26	0.00 - 520.83	0.77	0.74	0.00 - 3.00	0.03	0.03	0.00 - 0.13	252.20	88.94	0.00 - 519.03	0.03	0.05	0.00 - 0.17
H/1.1T	All	All		0.12	0.84	0.00 - 2.63	0.00	0.01	0.00 - 0.03	0.00	0.02	0.00 - 0.07	0.11	0.83	0.00 - 2.61	0.00	0.01	0.00 - 0.02

Back to Exadata Cell Server Statistics Outliers
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Exadata Cell Server IO Latency - Outlier Cells

These statistics are collected by the cells and are not restricted to this database or instance
Outliers are cells whose average performance is outside the normal range, where normal range is -/+ 1 standard deviation
Outlier cells must have a mininum of 10 IOPs. Idle cells are not considered for outlier analysis.
Outliers for small reads, small writes, large read, large writes, must have a minimum of 10 requests for the corresponding small read, small write, large read, large write statistic.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
There are no cell outliers on flash
There are no cell outliers on hard disks

Disk Type	Cell Name	# Cells	# Disks	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean	Std Dev	Normal Range
				Cell Latency			Small Read			Small Write			Large Read			Large Write
F/186G	All	7	112	15.01ms	19.97ms	0.00ms - 34.98ms	11.34ms	19.67ms	0.00ms - 31.01ms	2.36ms	1.96ms	0.40ms - 4.31ms	15.03ms	19.99ms	0.00ms - 35.03ms	1.68ms	6.13ms	0.00ms - 7.81ms
H/1.1T	All	7	84	110.62us	535.90us	0.00us - 646.52us	224.83us	832.39us	0.00us - 1,057.23us	155.89us	200.01us	0.00us - 355.90us	494.68us	1,907.58us	0.00us - 2,402.26us	15.85us	91.53us	0.00us - 107.38us

Exadata Cell Server IO Latency - Outlier Disks

These statistics are collected by the cells and are not restricted to this database or instance
Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for small reads, small writes, large read, large writes, must have a minimum of 10 requests for the corresponding small read, small write, large read, large write statistic.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
There are no disk outliers on hard disks

Disk Type	Cell Name	Disk Name	Mean		Std Dev	Normal Range	Mean		Std Dev	Normal Range	Mean	Std Dev	Normal Range	Mean		Std Dev	Normal Range	Mean	Std Dev	Normal Range
			Cell Latency				Small Read				Small Write			Large Read				Large Write
F/186G	All	All	15.01ms		19.97ms	0.00ms - 74.92ms	11.34ms		19.67ms	0.00ms - 70.34ms	2.36ms	1.96ms	0.00ms - 8.23ms	15.03ms		19.99ms	0.00ms - 75.01ms	1.68ms	6.13ms	0.00ms - 20.06ms
Outlier	scao08celadm04	FD_12_scao08celadm04	^	126.11ms			^	110.73ms			10.58ms			^	126.29ms			12.29ms
Outlier	scao08celadm04	FD_13_scao08celadm04	^	96.77ms			^	93.76ms			8.12ms			^	96.83ms			23.49ms
H/1.1T	All	All	110.62us		535.90us	0.00us - 1,718.33us	224.83us		832.39us	0.00us - 2,722.01us	155.89us	200.01us	0.00us - 755.92us	494.68us		1,907.58us	0.00us - 6,217.43us	15.85us	91.53us	0.00us - 290.45us

Back to Exadata Cell Server Statistics Outliers
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Exadata Outlier Details

Exadata OS Statistics Outlier Details

Cell Outliers
Disk Outliers

Exadata Cell Server Outlier Details

Cell Outliers
Disk Outliers

Exadata OS IO Statistics Details for Outlier Cells

No data exists for this section of the report.

Exadata OS IO Statistics Details for Outlier Disks

These statistics are collected by the OS on the cells and are not restricted to this database or instance
Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Only disks with outliers in an OS IO statistic are displayed

Disk Type	Disk Name	Cell Name	Mean		Std Dev	Range	Mean	Std Dev	Range	Mean	Std Dev	Range	Mean	Std Dev	Range	Mean		Std Dev	Range
			IOPs				IO MB/s			% Disk Utilization			Avg Service Time			Avg Wait Time
F/186G	All	All	4,063.19		1,435.25	0.00 - 8,368.93	252.36	89.44	0.00 - 520.68	51.12	17.81	0.00 - 104.56	126.89us	4.04us	114.77us - 139.00us	14.79ms		20.21ms	0.00ns - 75.42ms
F/186G	FD_12_scao08celadm04	scao08celadm04	7,767.70				482.70			96.30			124.50us			^	126.30ms
F/186G	FD_13_scao08celadm04	scao08celadm04	7,334.30				456.90			94.10			128.90us			^	96.76ms
H/1.1T	All	All	3.38		10.35	0.00 - 34.42	0.08	0.77	0.00 - 2.41	0.02	0.14	0.00 - 0.44	248.02us	874.05us	0.00ns - 2.87ms	281.85us		915.87us	0.00ns - 3.03ms
H/1.1T	CD_04_scao08celadm06	scao08celadm06	^	36.30			0.00			0.00			78.80us			87.80us
H/1.1T	CD_09_scao08celadm02	scao08celadm02	^	36.10			0.00			0.00			91.60us			95.80us
H/1.1T	CD_09_scao08celadm03	scao08celadm03	^	36.30			0.00			0.00			90.40us			98.00us
H/1.1T	CD_09_scao08celadm04	scao08celadm04	^	36.10			0.00			0.00			84.60us			91.80us
H/1.1T	CD_10_scao08celadm05	scao08celadm05	^	35.90			0.00			0.00			90.70us			94.20us

Back to Exadata Outlier Details
Back to Exadata Resource Statistics

Exadata Cell Server Details for Outlier Cells

No data exists for this section of the report.

Exadata Cell Server Details for Outlier Disks

These statistics are collected by the cells and are not restricted to this database or instance
Outliers are disks whose average performance is outside the normal range, where normal range is -/+ 3 standard deviation
Outlier disks must have a mininum of 10 IOPs. Idle disks are not considered for outlier analysis.
Outliers for small reads, small writes, large read, large writes, must have a minimum of 10 requests for the corresponding small read, small write, large read, large write statistic.
Outliers for hard disks are displayed when Hard Disk IOPs exceeds 221.76 (1% of maximum capacity of 22,176)
Outliers for flash disks are displayed when Flash Disk IOPs exceeds 32198.88 (1% of maximum capacity of 3,219,888)
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Only disks with outliers in a cell server statistic are displayed

Disk Type	Disk Name	Cell Name	Statistic	per Disk		Std Dev	Range	per Disk		Std Dev	Range	per Disk	Std Dev	Range	per Disk		Std Dev	Range	per Disk	Std Dev	Range
				I/O				Small Read				Small Write			Large Read				Large Write
F/186G	All	All	Cell Server IOPs	4,064.02		1,432.34	0.00 - 8,361.03	26.32		25.22	0.00 - 102.00	2.63	2.87	0.00 - 11.24	4,034.76		1,423.07	0.00 - 8,303.98	0.31	0.70	0.00 - 2.42
			Cell Server IO MB/s	253.04		89.26	0.00 - 520.83	0.77		0.74	0.00 - 3.00	0.03	0.03	0.00 - 0.13	252.20		88.94	0.00 - 519.03	0.03	0.05	0.00 - 0.17
			Cell Server IO Latency	15.01ms		19.97ms	0.00ns - 74.92ms	11.34ms		19.67ms	0.00ns - 70.34ms	2.36ms	1.96ms	0.00ns - 8.23ms	15.03ms		19.99ms	0.00ns - 75.01ms	1.68ms	6.13ms	0.00ns - 20.06ms
F/186G	FD_00_scao08celadm07	scao08celadm07	Cell Server IOPs	2,279.40				^	106.80			2.40			2,169.80				0.40
			Cell Server IO MB/s	136.54				0.84				0.02			135.65				0.03
			Cell Server IO Latency	3.74ms				167.30us				777.20us			3.92ms				389.40us
F/186G	FD_12_scao08celadm04	scao08celadm04	Cell Server IOPs	7,775.40				63.80				2.80			7,708.60				0.20
			Cell Server IO MB/s	483.88				2.00				0.03			481.82				0.03
			Cell Server IO Latency	^	126.11ms			^	110.73ms			10.58ms			^	126.29ms			12.29ms
F/186G	FD_13_scao08celadm04	scao08celadm04	Cell Server IOPs	7,344.50				21.00				3.70			7,319.60				0.20
			Cell Server IO MB/s	458.24				0.66				0.05			457.50				0.03
			Cell Server IO Latency	^	96.77ms			^	93.76ms			8.12ms			^	96.83ms			23.49ms
H/1.1T	All	All	Cell Server IOPs	3.36		10.36	0.00 - 34.45	2.03		8.45	0.00 - 27.38	1.24	4.84	0.00 - 15.77	0.09		0.82	0.00 - 2.54	0.00	0.00	0.00 - 0.00
			Cell Server IO MB/s	0.12		0.84	0.00 - 2.63	0.00		0.01	0.00 - 0.03	0.00	0.02	0.00 - 0.07	0.11		0.83	0.00 - 2.61	0.00	0.01	0.00 - 0.02
			Cell Server IO Latency	110.62us		535.90us	0.00ns - 1.72ms	224.83us		832.39us	0.00ns - 2.72ms	155.89us	200.01us	0.00ns - 755.92us	494.68us		1.91ms	0.00ns - 6.22ms	15.85us	91.53us	0.00ns - 290.45us
H/1.1T	CD_04_scao08celadm06	scao08celadm06	Cell Server IOPs	^	36.40			^	32.30			4.00			0.10				0.00
			Cell Server IO MB/s	0.08				0.02				0.00			0.05				0.00
			Cell Server IO Latency	289.65us				281.80us				357.70us			253.00us				0.00ns
H/1.1T	CD_09_scao08celadm02	scao08celadm02	Cell Server IOPs	^	36.00			^	32.00			4.00			0.00				0.00
			Cell Server IO MB/s	0.08				0.02				0.00			0.06				0.00
			Cell Server IO Latency	277.02us				270.90us				316.30us			267.40us				91.40us
H/1.1T	CD_09_scao08celadm03	scao08celadm03	Cell Server IOPs	^	36.20			^	32.20			4.00			0.00				0.00
			Cell Server IO MB/s	0.08				0.02				0.00			0.06				0.00
			Cell Server IO Latency	261.53us				253.20us				322.20us			396.30us				0.00ns
H/1.1T	CD_09_scao08celadm04	scao08celadm04	Cell Server IOPs	^	35.80			^	31.70			4.00			0.10				0.00
			Cell Server IO MB/s	0.08				0.02				0.00			0.05				0.00
			Cell Server IO Latency	365.93us				357.60us				419.60us			264.30us				31.50us
H/1.1T	CD_10_scao08celadm05	scao08celadm05	Cell Server IOPs	^	35.80			^	31.70			4.00			0.10				0.00
			Cell Server IO MB/s	0.08				0.02				0.00			0.05				0.00
			Cell Server IO Latency	342.64us				337.30us				386.80us			181.00us				50.40us

Back to Exadata Outlier Details
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Exadata OS Statistics Top

Exadata OS IO Statistcs

Top Cells
Top Disks

Exadata OS IO Latency Statistics

Top Cells
Top Disks

Exadata OS CPU Statistics - Top Cells

Exadata OS IO Statistics - Top Cells

These statistics are collected by the OS on the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
A '*' and a dark red background indicates over maximum capacity
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Maximum cell capacity for hard disks: IOPS: H/1.1T: 3,168 | IO MB/s: H/1.1T: 1,440
Maximum cell capacity for flash disks: IOPS: F/186G: 459,984 | IO MB/s: F/186G: 8,272
Within each disk type, the top cells by Avg IOPs are displayed
%Total - Avg [IOPs | IO MB/s] as a percentage of total [IOPs | IO MB/s] for the disk type
Ordered by Disk Type, IOPs desc
F/186G Average: 65,011.10 IOPs, 4,037.74 IO MB/s, 51.12 % Disk Utilization
H/1.1T Average: 40.50 IOPs, 1.01 IO MB/s, 0.02 % Disk Utilization

Disk Type	Cell Name	%Total	Avg	%Total	Avg	Avg
		IOPs		IO MB/s		%Disk Utilization
F/186G	scao08celadm02	19.71	89,705.30	19.73	5,575.90	70.63
	scao08celadm04	17.13	77,938.90	17.14	4,845.50	61.68
	scao08celadm03	16.21	73,748.20	16.22	4,583.30	57.83
	scao08celadm05	14.62	66,541.20	14.63	4,134.80	52.43
	scao08celadm06	11.41	51,946.10	11.41	3,224.20	40.75
	scao08celadm01	10.93	49,731.90	10.91	3,083.00	38.99
	scao08celadm07	9.99	45,466.10	9.97	2,817.50	35.58
H/1.1T	scao08celadm06	19.89	56.40	94.37	6.70	0.09
	scao08celadm03	14.50	41.10	0.00	0.00	0.00
	scao08celadm02	14.43	40.90	2.82	0.20	0.00
	scao08celadm05	14.36	40.70	0.00	0.00	0.00
	scao08celadm01	13.72	38.90	0.00	0.00	0.00
	scao08celadm04	13.16	37.30	0.00	0.00	0.00
	scao08celadm07	9.95	28.20	2.82	0.20	0.02

Exadata OS IO Statistics - Top Disks

These statistics are collected by the OS on the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
A '*' and a dark red background indicates over maximum capacity
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Maximum hard disk capacity: IOPS: H/1.1T: 264 | IO MB/s: H/1.1T: 120
Maximum flash disk capacity: IOPS: F/186G: 28,749 | IO MB/s: F/186G: 517
Within each disk type, the top disks by Avg IOPs are displayed
%Total - Avg [IOPs | IO MB/s] as a percentage of the total [IOPs | IO MB/s] for the disk type
Ordered by Disk Type, IOPs desc
F/186G Average: 4,063.19 IOPs, 252.36 IO MB/s, 51.12 % Disk Utilization
H/1.1T Average: 3.38 IOPs, 0.08 IO MB/s, 0.02 % Disk Utilization

Disk Type	Cell Name	Disk Name	%Total	Avg		%Total	Avg	Avg
			IOPs			IO MB/s		%Disk Utilization
F/186G	scao08celadm04	FD_12_scao08celadm04	1.71	7,767.70		1.71	482.70	96.30
	scao08celadm04	FD_14_scao08celadm04	1.63	7,439.80		1.64	462.20	92.60
	scao08celadm04	FD_13_scao08celadm04	1.61	7,334.30		1.62	456.90	94.10
	scao08celadm04	FD_15_scao08celadm04	1.58	7,210.00		1.59	448.60	89.40
	scao08celadm02	FD_05_scao08celadm02	1.40	6,389.10		1.40	395.90	78.40
	scao08celadm03	FD_09_scao08celadm03	1.40	6,387.50		1.40	397.00	79.30
	scao08celadm02	FD_08_scao08celadm02	1.40	6,373.00		1.40	396.70	79.80
	scao08celadm02	FD_10_scao08celadm02	1.39	6,313.50		1.39	393.00	79.10
	scao08celadm02	FD_09_scao08celadm02	1.34	6,107.00		1.35	380.90	75.70
	scao08celadm03	FD_11_scao08celadm03	1.34	6,086.00		1.34	378.00	76.10
	scao08celadm02	FD_11_scao08celadm02	1.32	5,997.50		1.32	371.70	74.60
	scao08celadm03	FD_08_scao08celadm03	1.32	5,994.10		1.32	372.20	74.30
	scao08celadm02	FD_07_scao08celadm02	1.31	5,979.10		1.32	372.10	74.90
	scao08celadm02	FD_06_scao08celadm02	1.31	5,959.70		1.31	371.10	76.00
	scao08celadm02	FD_12_scao08celadm02	1.29	5,881.10		1.29	365.00	73.10
H/1.1T	scao08celadm06	CD_04_scao08celadm06	12.80	^	36.30	0.00	0.00	0.00
	scao08celadm03	CD_09_scao08celadm03	12.80	^	36.30	0.00	0.00	0.00
	scao08celadm02	CD_09_scao08celadm02	12.73	^	36.10	0.00	0.00	0.00
	scao08celadm04	CD_09_scao08celadm04	12.73	^	36.10	0.00	0.00	0.00
	scao08celadm05	CD_10_scao08celadm05	12.66	^	35.90	0.00	0.00	0.00
	scao08celadm01	CD_03_scao08celadm01	4.27	12.10		0.00	0.00	0.00
	scao08celadm06	CD_03_scao08celadm06	2.43	6.90		94.37	6.70	1.10
	scao08celadm01	CD_11_scao08celadm01	2.15	6.10		0.00	0.00	0.00
	scao08celadm01	CD_06_scao08celadm01	1.87	5.30		0.00	0.00	0.00
	scao08celadm07	CD_06_scao08celadm07	1.80	5.10		0.00	0.00	0.00
	scao08celadm06	CD_07_scao08celadm06	1.80	5.10		0.00	0.00	0.00
	scao08celadm07	CD_11_scao08celadm07	1.76	5.00		2.82	0.20	0.20
	scao08celadm07	CD_04_scao08celadm07	1.73	4.90		0.00	0.00	0.00
	scao08celadm06	CD_09_scao08celadm06	1.73	4.90		0.00	0.00	0.00
	scao08celadm07	CD_01_scao08celadm07	1.69	4.80		0.00	0.00	0.00

Back to Exadata OS Statistics Top
Back to Exadata Resource Statistics

Exadata OS IO Latency - Top Cells

These statistics are collected by the OS on the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top cells by Wait Time are displayed
Ordered by Disk Type, Avg Wait Time desc
F/186G Average: 126.89us Service Time, 14.79ms Wait Time
H/1.1T Average: 248.02us Service Time, 281.85us Wait Time

Disk Type	Cell Name	Service Time	Wait Time
		Average Times
F/186G	scao08celadm04	127.71us	27.54ms
	scao08celadm02	126.70us	22.57ms
	scao08celadm03	126.29us	15.20ms
	scao08celadm05	126.86us	10.95ms
	scao08celadm01	127.28us	10.11ms
	scao08celadm06	126.88us	8.62ms
	scao08celadm07	126.50us	8.56ms
H/1.1T	scao08celadm06	352.60us	433.34us
	scao08celadm01	289.73us	343.71us
	scao08celadm02	260.47us	300.01us
	scao08celadm05	291.73us	292.89us
	scao08celadm07	255.29us	289.92us
	scao08celadm04	156.00us	156.70us
	scao08celadm03	130.35us	156.41us

Exadata OS IO Latency - Top Disks

These statistics are collected by the OS on the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top disks by Wait Time are displayed
Ordered by Disk Type, Avg Wait Time desc
F/186G Average: 126.89us Service Time, 14.79ms Wait Time
H/1.1T Average: 248.02us Service Time, 281.85us Wait Time

Disk Type	Cell Name	Disk Name	Service Time	Wait Time
			Average Times
F/186G	scao08celadm04	FD_12_scao08celadm04	124.50us	^	126.30ms
	scao08celadm04	FD_13_scao08celadm04	128.90us	^	96.76ms
	scao08celadm02	FD_08_scao08celadm02	126.00us	66.54ms
	scao08celadm04	FD_14_scao08celadm04	124.60us	56.99ms
	scao08celadm02	FD_10_scao08celadm02	126.00us	50.51ms
	scao08celadm04	FD_15_scao08celadm04	124.50us	44.08ms
	scao08celadm02	FD_09_scao08celadm02	124.60us	38.11ms
	scao08celadm03	FD_02_scao08celadm03	125.80us	30.91ms
	scao08celadm01	FD_11_scao08celadm01	124.80us	28.65ms
	scao08celadm03	FD_09_scao08celadm03	124.70us	27.69ms
	scao08celadm02	FD_11_scao08celadm02	124.80us	24.34ms
	scao08celadm01	FD_08_scao08celadm01	124.10us	23.96ms
	scao08celadm03	FD_03_scao08celadm03	125.30us	23.61ms
	scao08celadm02	FD_05_scao08celadm02	122.90us	23.60ms
	scao08celadm02	FD_12_scao08celadm02	124.60us	22.55ms
H/1.1T	scao08celadm06	CD_03_scao08celadm06	2,021.50us	2,937.40us
	scao08celadm05	CD_02_scao08celadm05	2,555.00us	2,562.70us
	scao08celadm07	CD_11_scao08celadm07	1,694.00us	1,777.00us
	scao08celadm01	CD_06_scao08celadm01	1,026.60us	1,227.00us
	scao08celadm02	CD_06_scao08celadm02	856.60us	920.90us
	scao08celadm02	CD_11_scao08celadm02	779.40us	891.80us
	scao08celadm01	CD_09_scao08celadm01	831.70us	833.90us
	scao08celadm06	CD_08_scao08celadm06	637.20us	646.30us
	scao08celadm01	CD_02_scao08celadm01	608.90us	617.60us
	scao08celadm04	CD_05_scao08celadm04	616.40us	616.40us
	scao08celadm02	CD_00_scao08celadm02	482.20us	509.50us
	scao08celadm06	CD_10_scao08celadm06	452.60us	454.10us
	scao08celadm01	CD_11_scao08celadm01	365.70us	369.40us
	scao08celadm02	CD_01_scao08celadm02	362.60us	362.60us
	scao08celadm03	CD_00_scao08celadm03	344.40us	349.40us

Back to Exadata OS Statistics Top
Back to Exadata Resource Statistics

Exadata OS CPU Statistics - Top Cells

These statistics are collected by the OS on the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
The top cells by %CPU are displayed
Ordered by % CPU desc
Average: 52.99 % CPU, 47.10 % User, 5.89 % Sys

Cell Name	% CPU		% User		% Sys
scao08celadm02	^	71.10	^	63.60	^	7.50
scao08celadm04	^	66.00	58.70		^	7.30
scao08celadm03	58.90		52.60		6.30
scao08celadm05	54.10		48.30		5.80
scao08celadm06	42.20		37.40		4.80
scao08celadm01	40.90		35.80		5.10
scao08celadm07	v	37.70	v	33.30	v	4.40

Back to Exadata OS Statistics Top
Back to Exadata Resource Statistics

Exadata Cell Server Statistics Top

Cell Server IOPS Statistics

Top Cells
Top Disks

Cell Server IO MB/s Statistics

Top Cells
Top Disks

Cell Server IO Latency

Top Cells
Top Disks

Exadata Cell Server IOPS Statistics - Top Cells

These statistics are collected by the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top cells by Avg IOPs are displayed
%Total - Avg IOPs as a percentage of the IOPs for the disk type
Ordered by Disk Type, IOPs desc
F/186G Average Requests: 65,024.36 IOPs, 421.19 Small Reads, 42.03 Small Writes, 64,556.11 Large Reads, 5.03 Large Writes
H/1.1T Average Requests: 40.36 IOPs, 24.39 Small Reads, 14.86 Small Writes, 1.11 Large Reads, 0.00 Large Writes

Disk Type	Cell Name	% Total	Average	Small Reads	Small Writes	Large Reads	Large Writes
		IOPs		Average Per Second
F/186G	scao08celadm02	19.69	89,622.30	613.50	42.70	88,959.70	6.40
	scao08celadm04	17.15	78,081.00	473.60	32.00	77,569.90	5.50
	scao08celadm03	16.18	73,646.70	455.50	29.80	73,157.50	3.90
	scao08celadm05	14.62	66,543.80	417.60	24.50	66,098.20	3.50
	scao08celadm06	11.41	51,954.10	349.50	39.90	51,560.20	4.50
	scao08celadm01	10.93	49,748.00	362.40	73.80	49,305.70	6.10
	scao08celadm07	10.01	45,574.60	276.20	51.50	45,241.60	5.30
H/1.1T	scao08celadm06	20.11	56.80	32.30	17.30	7.20	0.00
	scao08celadm02	14.37	40.60	32.00	8.40	0.20	0.00
	scao08celadm03	14.37	40.60	32.60	8.00	0.00	0.00
	scao08celadm05	14.27	40.30	32.00	8.20	0.10	0.00
	scao08celadm01	13.88	39.20	9.60	29.60	0.00	0.00
	scao08celadm04	13.03	36.80	32.20	4.50	0.10	0.00
	scao08celadm07	9.98	28.20	0.00	28.00	0.20	0.00

Exadata Cell Server IOPS - Top Disks

These statistics are collected by the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top disks by Avg IOPs are displayed
%Total - Avg IOPs as a percentage of the total IOPs for the disk type
Ordered by Disk Type, IOPs desc
F/186G Average Requests: 4,064.02 IOPs, 26.32 Small Reads, 2.63 Small Writes, 4,034.76 Large Reads, 0.31 Large Writes
H/1.1T Average Requests: 3.36 IOPs, 2.03 Small Reads, 1.24 Small Writes, 0.09 Large Reads, 0.00 Large Writes

Disk Type	Cell Name	Disk Name	%Total	Average		Small Reads		Small Writes	Large Reads	Large Writes
			IOPs			Average Per Second
F/186G	scao08celadm04	FD_12_scao08celadm04	1.71	7,775.40		63.80		2.80	7,708.60	0.20
	scao08celadm04	FD_14_scao08celadm04	1.64	7,450.50		65.00		2.20	7,383.00	0.30
	scao08celadm04	FD_13_scao08celadm04	1.61	7,344.50		21.00		3.70	7,319.60	0.20
	scao08celadm04	FD_15_scao08celadm04	1.59	7,219.30		34.90		2.10	7,182.10	0.20
	scao08celadm02	FD_05_scao08celadm02	1.40	6,390.90		90.20		1.90	6,298.40	0.40
	scao08celadm03	FD_09_scao08celadm03	1.40	6,377.60		53.40		1.80	6,322.20	0.20
	scao08celadm02	FD_08_scao08celadm02	1.40	6,361.40		25.50		2.40	6,333.00	0.50
	scao08celadm02	FD_10_scao08celadm02	1.38	6,304.10		26.20		3.30	6,274.10	0.50
	scao08celadm02	FD_09_scao08celadm02	1.34	6,096.20		0.30		2.80	6,092.70	0.40
	scao08celadm03	FD_11_scao08celadm03	1.34	6,077.30		51.70		1.70	6,023.70	0.20
	scao08celadm02	FD_11_scao08celadm02	1.32	5,987.20		76.40		2.80	5,907.50	0.50
	scao08celadm03	FD_08_scao08celadm03	1.32	5,986.60		58.60		1.50	5,926.20	0.30
	scao08celadm02	FD_07_scao08celadm02	1.31	5,979.80		26.90		3.20	5,949.40	0.30
	scao08celadm02	FD_06_scao08celadm02	1.31	5,959.70		18.00		3.60	5,937.80	0.30
	scao08celadm02	FD_12_scao08celadm02	1.29	5,874.70		56.20		2.00	5,816.00	0.50
H/1.1T	scao08celadm06	CD_04_scao08celadm06	12.88	^	36.40	^	32.30	4.00	0.10	0.00
	scao08celadm03	CD_09_scao08celadm03	12.81	^	36.20	^	32.20	4.00	0.00	0.00
	scao08celadm02	CD_09_scao08celadm02	12.74	^	36.00	^	32.00	4.00	0.00	0.00
	scao08celadm04	CD_09_scao08celadm04	12.67	^	35.80	^	31.70	4.00	0.10	0.00
	scao08celadm05	CD_10_scao08celadm05	12.67	^	35.80	^	31.70	4.00	0.10	0.00
	scao08celadm01	CD_03_scao08celadm01	4.28	12.10		9.60		2.50	0.00	0.00
	scao08celadm06	CD_03_scao08celadm06	2.51	7.10		0.00		0.00	7.10	0.00
	scao08celadm01	CD_11_scao08celadm01	2.16	6.10		0.00		6.10	0.00	0.00
	scao08celadm01	CD_06_scao08celadm01	1.88	5.30		0.00		5.30	0.00	0.00
	scao08celadm07	CD_06_scao08celadm07	1.81	5.10		0.00		5.10	0.00	0.00
	scao08celadm06	CD_07_scao08celadm06	1.81	5.10		0.00		5.10	0.00	0.00
	scao08celadm07	CD_04_scao08celadm07	1.73	4.90		0.00		4.90	0.00	0.00
	scao08celadm07	CD_01_scao08celadm07	1.73	4.90		0.00		4.90	0.00	0.00
	scao08celadm06	CD_09_scao08celadm06	1.73	4.90		0.00		4.90	0.00	0.00
	scao08celadm07	CD_11_scao08celadm07	1.70	4.80		0.00		4.60	0.20	0.00

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Exadata Cell Server IO MB/s Statistics - Top Cells

These statistics are collected by the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top cells by Avg IO MB/s are displayed
%Total - Avg IO MB/s as a percentage of the IO MB/s for the disk type
Ordered by Disk Type, IO MB/s desc
F/186G Average MB/s: 4,048.61 IO MB/s, 12.31 Small Reads, 0.52 Small Writes, 4,035.23 Large Reads, 0.54 Large Writes
H/1.1T Average MB/s: 1.43 IO MB/s, 0.03 Small Reads, 0.05 Small Writes, 1.34 Large Reads, 0.01 Large Writes

Disk Type	Cell Name	% Total	Average	Small Reads	Small Writes	Large Reads	Large Writes
		IO MB/s		Average MB/s
F/186G	scao08celadm02	19.69	5,580.70	19.04	0.55	5,560.48	0.63
	scao08celadm04	17.16	4,864.02	14.37	0.45	4,848.61	0.60
	scao08celadm03	16.18	4,586.85	13.10	0.39	4,572.85	0.51
	scao08celadm05	14.63	4,144.82	12.34	0.38	4,131.65	0.45
	scao08celadm06	11.41	3,234.81	10.82	0.49	3,223.02	0.48
	scao08celadm01	10.92	3,094.42	10.98	0.87	3,081.95	0.61
	scao08celadm07	10.00	2,834.65	5.51	0.52	2,828.09	0.53
H/1.1T	scao08celadm06	74.13	7.43	0.02	0.03	7.37	0.01
	scao08celadm01	8.10	0.81	0.05	0.22	0.52	0.01
	scao08celadm02	7.20	0.72	0.02	0.02	0.68	0.01
	scao08celadm07	6.53	0.65	0.01	0.05	0.60	0.00
	scao08celadm03	1.68	0.17	0.03	0.01	0.12	0.00
	scao08celadm05	1.25	0.13	0.03	0.02	0.06	0.02
	scao08celadm04	1.11	0.11	0.03	0.01	0.06	0.02

Exadata Cell Server IO MB/s - Top Disks

These statistics are collected by the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top disks by Avg IO MB/s are displayed
%Total - Avg IO MB/s as a percentage of the total IO MB/s for the disk type
Ordered by Disk Type, IO MB/s desc
F/186G Average MB/s: 253.04 IO MB/s, 0.77 Small Reads, 0.03 Small Writes, 252.20 Large Reads, 0.03 Large Writes
H/1.1T Average MB/s: 0.12 IO MB/s, 0.00 Small Reads, 0.00 Small Writes, 0.11 Large Reads, 0.00 Large Writes

Disk Type	Cell Name	Disk Name	%Total	Average	Small Reads	Small Writes	Large Reads	Large Writes
			IO MB/s		Average MB/s
F/186G	scao08celadm04	FD_12_scao08celadm04	1.71	483.88	2.00	0.03	481.82	0.03
	scao08celadm04	FD_14_scao08celadm04	1.64	463.57	2.04	0.03	461.47	0.03
	scao08celadm04	FD_13_scao08celadm04	1.62	458.24	0.66	0.05	457.50	0.03
	scao08celadm04	FD_15_scao08celadm04	1.59	449.83	0.86	0.03	448.91	0.03
	scao08celadm03	FD_09_scao08celadm03	1.40	396.79	1.56	0.02	395.18	0.03
	scao08celadm02	FD_08_scao08celadm02	1.40	396.73	0.81	0.03	395.84	0.05
	scao08celadm02	FD_05_scao08celadm02	1.40	396.56	2.82	0.02	393.68	0.03
	scao08celadm02	FD_10_scao08celadm02	1.39	393.07	0.83	0.04	392.16	0.05
	scao08celadm02	FD_09_scao08celadm02	1.34	380.91	0.00	0.03	380.83	0.05
	scao08celadm03	FD_11_scao08celadm03	1.33	378.11	1.54	0.02	376.51	0.03
	scao08celadm02	FD_07_scao08celadm02	1.32	372.78	0.84	0.04	371.86	0.03
	scao08celadm03	FD_08_scao08celadm03	1.31	372.22	1.75	0.02	370.42	0.03
	scao08celadm02	FD_06_scao08celadm02	1.31	371.78	0.57	0.04	371.14	0.03
	scao08celadm02	FD_11_scao08celadm02	1.31	371.73	2.39	0.04	369.25	0.05
	scao08celadm02	FD_12_scao08celadm02	1.29	365.35	1.76	0.03	363.53	0.04
H/1.1T	scao08celadm06	CD_03_scao08celadm06	72.42	7.26	0.00	0.00	7.25	0.00
	scao08celadm07	CD_11_scao08celadm07	5.75	0.58	0.00	0.01	0.56	0.00
	scao08celadm02	CD_06_scao08celadm02	2.86	0.29	0.00	0.00	0.29	0.00
	scao08celadm02	CD_11_scao08celadm02	2.75	0.28	0.00	0.00	0.28	0.00
	scao08celadm01	CD_09_scao08celadm01	1.42	0.14	0.00	0.02	0.12	0.00
	scao08celadm01	CD_06_scao08celadm01	1.11	0.11	0.00	0.02	0.09	0.00
	scao08celadm01	CD_02_scao08celadm01	0.96	0.10	0.00	0.01	0.09	0.00
	scao08celadm01	CD_03_scao08celadm01	0.94	0.09	0.04	0.03	0.03	0.00
	scao08celadm02	CD_09_scao08celadm02	0.82	0.08	0.02	0.00	0.06	0.00
	scao08celadm01	CD_05_scao08celadm01	0.82	0.08	0.01	0.04	0.03	0.01
	scao08celadm03	CD_09_scao08celadm03	0.82	0.08	0.02	0.00	0.06	0.00
	scao08celadm04	CD_09_scao08celadm04	0.80	0.08	0.02	0.00	0.05	0.00
	scao08celadm05	CD_10_scao08celadm05	0.79	0.08	0.02	0.00	0.05	0.00
	scao08celadm06	CD_04_scao08celadm06	0.75	0.08	0.02	0.00	0.05	0.00
	scao08celadm06	CD_10_scao08celadm06	0.71	0.07	0.00	0.01	0.06	0.01

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Exadata Cell Server IO Latency - Top Cells

These statistics are collected by the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top cells by Cell Latency are displayed
Ordered by Disk Type, Avg Cell Latency desc
F/186G Average: 15.01ms Cell Latency, 11.34ms Small Read, 2.36ms Small Write, 15.03ms Large Read, 1.68ms Large Write
H/1.1T Average: 110.62us Cell Latency, 224.83us Small Read, 155.89us Small Write, 494.68us Large Read, 15.85us Large Write

Disk Type	Cell Name	Cell Latency	Small Read	Small Write	Large Read	Large Write
		Average Times
F/186G	scao08celadm04	27.82ms	24.07ms	3.76ms	27.85ms	4.08ms
	scao08celadm02	22.51ms	18.92ms	3.87ms	22.54ms	2.36ms
	scao08celadm03	15.49ms	10.04ms	2.57ms	15.51ms	1.42ms
	scao08celadm05	11.32ms	8.56ms	2.01ms	11.33ms	1.42ms
	scao08celadm01	10.26ms	6.90ms	1.41ms	10.30ms	0.92ms
	scao08celadm06	8.85ms	7.79ms	1.54ms	8.86ms	0.88ms
	scao08celadm07	8.80ms	3.13ms	1.32ms	8.83ms	0.66ms
H/1.1T	scao08celadm06	302.04us	266.27us	153.70us	582.44us	10.83us
	scao08celadm02	114.70us	268.47us	155.77us	635.99us	11.57us
	scao08celadm07	112.38us	84.80us	109.63us	580.73us	18.20us
	scao08celadm01	85.86us	249.73us	129.22us	1,174.66us	13.88us
	scao08celadm03	58.67us	297.31us	133.30us	141.28us	13.81us
	scao08celadm04	56.58us	256.98us	181.72us	32.85us	24.00us
	scao08celadm05	44.14us	150.28us	227.91us	314.82us	18.69us

Exadata Cell Server IO Latency - Top Disks

These statistics are collected by the cells and are not restricted to this database or instance
A 'v' and a dark yellow background indicates an outlier value below the low range
A '^' and a light red background indicates an outlier value above the high range
Disk Type <F|H>/<size>: F-Flash, H-Hard Disk
Within each disk type, the top disks by Cell Latency are displayed
Ordered by Disk Type, Avg Wait Time desc
F/186G Average: 15.01ms Cell Latency, 11.34ms Small Read, 2.36ms Small Write, 15.03ms Large Read, 1.68ms Large Write
H/1.1T Average: 110.62us Cell Latency, 224.83us Small Read, 155.89us Small Write, 494.68us Large Read, 15.85us Large Write

Disk Type	Cell Name	Disk Name	Cell Latency		Small Read		Small Write	Large Read		Large Write
			Average Times
F/186G	scao08celadm04	FD_12_scao08celadm04	^	126.11ms	^	110.73ms	10.58ms	^	126.29ms	12.29ms
	scao08celadm04	FD_13_scao08celadm04	^	96.77ms	^	93.76ms	8.12ms	^	96.83ms	23.49ms
	scao08celadm02	FD_08_scao08celadm02	65.86ms		60.30ms		5.84ms	65.91ms		4.04ms
	scao08celadm04	FD_14_scao08celadm04	57.91ms		60.69ms		7.72ms	57.91ms		8.80ms
	scao08celadm02	FD_10_scao08celadm02	49.97ms		50.19ms		6.04ms	50.00ms		4.49ms
	scao08celadm04	FD_15_scao08celadm04	44.46ms		49.63ms		7.19ms	44.45ms		5.97ms
	scao08celadm02	FD_09_scao08celadm02	37.60ms		24.45ms		4.67ms	37.62ms		2.77ms
	scao08celadm03	FD_02_scao08celadm03	31.28ms		5.40ms		3.56ms	31.32ms		1.70ms
	scao08celadm01	FD_11_scao08celadm01	28.55ms		31.18ms		3.31ms	28.57ms		2.14ms
	scao08celadm03	FD_09_scao08celadm03	27.85ms		16.37ms		5.03ms	27.96ms		2.45ms
	scao08celadm02	FD_11_scao08celadm02	24.42ms		20.73ms		4.09ms	24.48ms		3.68ms
	scao08celadm01	FD_08_scao08celadm01	23.90ms		16.77ms		3.77ms	23.97ms		2.29ms
	scao08celadm03	FD_03_scao08celadm03	23.86ms		29.31ms		2.65ms	23.85ms		1.25ms
	scao08celadm02	FD_05_scao08celadm02	23.69ms		23.11ms		5.69ms	23.71ms		3.42ms
	scao08celadm02	FD_12_scao08celadm02	22.27ms		13.74ms		3.55ms	22.37ms		2.59ms
H/1.1T	scao08celadm06	CD_03_scao08celadm06	3,191.20us		51.50us		0.00us	3,191.20us		40.50us
	scao08celadm07	CD_11_scao08celadm07	1,083.23us		124.90us		169.70us	6,083.00us		52.20us
	scao08celadm02	CD_11_scao08celadm02	508.50us		524.30us		74.70us	2,444.30us		0.00us
	scao08celadm02	CD_06_scao08celadm02	476.00us		118.80us		257.00us	2,204.90us		0.00us
	scao08celadm04	CD_09_scao08celadm04	365.93us		357.60us		419.60us	264.30us		31.50us
	scao08celadm03	CD_00_scao08celadm03	352.40us		686.30us		42.50us	0.00us		106.60us
	scao08celadm05	CD_10_scao08celadm05	342.64us		337.30us		386.80us	181.00us		50.40us
	scao08celadm06	CD_04_scao08celadm06	289.65us		281.80us		357.70us	253.00us		0.00us
	scao08celadm04	CD_02_scao08celadm04	277.60us		573.40us		179.30us	0.00us		0.00us
	scao08celadm02	CD_09_scao08celadm02	277.02us		270.90us		316.30us	267.40us		91.40us
	scao08celadm03	CD_09_scao08celadm03	261.53us		253.20us		322.20us	396.30us		0.00us
	scao08celadm01	CD_03_scao08celadm01	246.86us		255.70us		8.60us	158.10us		0.00us
	scao08celadm01	CD_06_scao08celadm01	216.50us		73.70us		216.50us	3,331.10us		0.00us
	scao08celadm01	CD_07_scao08celadm01	191.00us		82.00us		191.00us	161.10us		0.00us
	scao08celadm01	CD_08_scao08celadm01	120.50us		182.00us		120.50us	141.30us		0.00us

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Exadata Smart Statistics

Smart IO
Passthru Reasons
Flash Log
Flash Cache

Smart IO

These statistics are collected by the cells and are not restricted to this database or instance
Storage Index - bytes saved by storage index and percentage of requested bytes saved by storage index
Flash Cache - bytes read from flash cache and percentage of requested bytes read from flash cache
Offload - bytes processed by the cells and not returned to the database
Passthru - bytes returned as-is to the database and percentage of requested bytes returned as-is to the database
Reverse Offload - bytes returned as-is to the database due to high cell cpu and percentage of requested bytes returned as-is to the database
Ordered by Total MB Requested desc

Cell Name	% Total	Total	per Sec	MB	% Optimized	MB	% Optimized	MB	% Efficiency	MB	% Passthru	MB	% ReverseOffload
	MB Requested			Storage Index		Flash Cache		Offload		Passthru		Reverse Offload
Total (7)		27,264,576.76	44,188.94	10,174,418.39	37.32	17,138,165.67	62.86	27,180,229.93	99.69	125.09	0.00	4,608.60	0.02
scao08celadm02	18.90	5,153,736.25	8,352.90	1,804,053.59	35.00	3,363,898.06	65.27	5,133,211.67	99.60	102.65	0.00	3,572.33	0.07
scao08celadm04	16.86	4,598,142.25	7,452.42	1,662,663.91	36.16	2,943,472.03	64.01	4,583,943.68	99.69	2.99	0.00	240.78	0.01
scao08celadm03	15.35	4,184,326.73	6,781.73	1,418,769.66	33.91	2,774,644.66	66.31	4,170,600.04	99.67	10.09	0.00	443.77	0.01
scao08celadm05	14.98	4,085,282.00	6,621.20	1,586,153.31	38.83	2,506,521.94	61.35	4,074,444.02	99.73	8.93	0.00	320.22	0.01
scao08celadm06	12.16	3,314,905.31	5,372.62	1,356,396.97	40.92	1,958,929.72	59.09	3,305,669.90	99.72	0.36	0.00	19.64	0.00
scao08celadm01	11.47	3,127,808.03	5,069.38	1,252,976.41	40.06	1,880,670.67	60.13	3,118,091.85	99.69	0.08	0.00	11.86	0.00
scao08celadm07	10.27	2,800,376.19	4,538.70	1,093,404.53	39.04	1,710,028.59	61.06	2,794,268.78	99.78

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Passthru Reasons

These statistics are for this database, and not restiricted to an instance
Ordered by Number of Sessions desc

Passthru Reasons	Number of Sessions	% Total
cell num smart IO sessions using passthru mode due to cellsrv	0
cell num smart IO sessions using passthru mode due to timezone	0
cell num smart IO sessions using passthru mode due to user	0

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Flash Log Statistics

Flash Log
Redo Write Histogram

Flash Log

These statistics are collected by the cells and are not restricted to this database or instance
Writes - writes serviced by flash log
First Writes Flash Log - writes written first to smart flash log
First Writes DB Log - writes written first to database redo log file
% Efficiency - percentage when flash log prevented writes from exceeding the threshold
Prevented - flash log writes prevented from exceeding outlier threshold
Actual - flash log writes that exceeded outlier threshold
Disk I/O Errors - disk I/O errors encountered by flash log (should be 0)
Flash I/O Errors - flash I/O errors encountered by flash log (should be 0)
Keep - redo saved on flash due to disk I/O errors (should be 0)
Skip Count - redo writes not serviced by flash log (should be 0)
Ordered by Total Write Requests desc

Cell Name	% Total	Total	per Sec	Total	per Sec	%Flash Log	Flash Log	DB Log	% Efficiency	Disk I/O
	Write Requests			Write MB		First Writes			Outliers	Errors
Total (7)		44,077	71.44	209.44	0.34	35.00	15,425	28,652
scao08celadm07	42.64	18,796	30.46	87.58	0.14	38.23	7,186	11,610
scao08celadm06	20.22	8,912	14.44	37.46	0.06	36.15	3,222	5,690
scao08celadm01	18.05	7,957	12.90	42.26	0.07	34.86	2,774	5,183
scao08celadm02	6.23	2,747	4.45	15.15	0.02	20.75	570	2,177
scao08celadm05	6.06	2,672	4.33	12.22	0.02	29.75	795	1,877
scao08celadm03	5.94	2,618	4.24	13.20	0.02	31.32	820	1,798
scao08celadm04	0.85	375	0.61	1.57	0.00	15.47	58	317

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Redo Write Histogram

log file parallel write is for the entire database, not restricted to an instance
Redo log write completions are collected by the cells
Cells for redo log write completions are ordered by # of writes >= 512ms
Redo log write completion Avg Wait is the average time for the redo log write request, including network overhead
Redo log write completion Average IO Time is the average time for the IO request

					% of Total
	Cell Name	Total Waits	Avg Wait		<1us	<2us	<4us	<8us	<16us	<32us	<64us	<128us	<256us	<512us	<1ms	<2ms	<4ms	<8ms	<16ms	<32ms	<64ms	<128ms	<256ms	<512ms	<1s	>=1s
log file parallel write		21,191	499.84us Total Time: 10.59s						0.00		0.00	0.05	26.80	48.00	15.36	7.75	1.71	0.28	0.03
	Cell Name	Total Writes	Avg Wait	Average IO Time	<1us	<2us	<4us	<8us	<16us	<32us	<64us	<128us	<256us	<512us	<1ms	<2ms	<4ms	<8ms	<16ms	<32ms	<64ms	<128ms	<256ms	<512ms	<1s	>=1s
Redo log write completions	Total (7)	44,077 # of Waits: 44077	358.58us Total Time: 15.80s	170.85us Total IO Time: 7,530.56ms	93.68													6.02	0.25	0.02	0.01	0.02
	scao08celadm07	18,796 # of Waits: 18796	318.90us Total Time: 5,994.00ms	133.49us Total IO Time: 2,509.06ms	94.42													5.24	0.29	0.03	0.02	0.01
	scao08celadm06	8,912 # of Waits: 8912	345.94us Total Time: 3,083.00ms	170.23us Total IO Time: 1,517.11ms	93.62													5.98	0.40
	scao08celadm01	7,957 # of Waits: 7957	377.91us Total Time: 3,007.00ms	165.79us Total IO Time: 1,319.23ms	94.43													5.37	0.06	0.03	0.03	0.09
	scao08celadm02	2,747 # of Waits: 2747	445.94us Total Time: 1,225.00ms	267.70us Total IO Time: 735.38ms	91.19													8.70	0.11
	scao08celadm05	2,672 # of Waits: 2672	403.07us Total Time: 1,077.00ms	233.34us Total IO Time: 623.48ms	92.10													7.78	0.11
	scao08celadm03	2,618 # of Waits: 2618	486.25us Total Time: 1,273.00ms	287.95us Total IO Time: 753.85ms	90.72													8.98	0.31
	scao08celadm04	375 # of Waits: 375	389.33us Total Time: 146.00ms	193.20us Total IO Time: 72.45ms	92.53													7.20	0.27

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Flash Cache

Flash Cache Configuration
Flash Cache Space Usage
Flash Cache Performance Summary
Flash Cache User Reads
Flash Cache Efficiency
Flash Cache User Writes
Flash Cache User Writes - Large Writes
Flash Cache Internal Reads
Flash Cache Internal Writes
Flash Cache Scan Population

Flash Cache Configuration

These statistics are collected by the cells and are not restricted to this database or instance

Mode	Compression	Status	Cells
WriteBack	FALSE	normal	All

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Flash Cache Space Usage

These statistics are collected by the cells and are not restricted to this database or instance
Space is at the time of the end snapshot
Ordered by Space (GB) desc

Cell Name	Space (GB)	%Clean	%Unflushed	%Temp Spill	%Scan	%Columnar	%Clean	%Unflushed	%Scan	%Columnar
		Default					Keep
		OLTP		Large Writes	%Scan	%Columnar	OLTP		%Scan	%Columnar
Total (7)	3,604.32	4.30	18.02	0.00	76.75	0.60	0.00	0.33	0.00
scao08celadm02	518.02	4.35	17.90	0.00	76.82	0.59	0.00	0.34	0.00
scao08celadm01	517.87	4.28	17.93	0.00	76.90	0.57	0.00	0.32	0.00
scao08celadm06	517.84	4.27	17.89	0.00	76.94	0.58	0.00	0.32	0.00
scao08celadm05	517.40	4.24	17.98	0.00	76.85	0.59	0.00	0.33	0.00
scao08celadm04	517.07	4.35	17.91	0.00	76.81	0.59	0.00	0.34	0.00
scao08celadm03	516.50	4.25	17.92	0.00	76.87	0.61	0.00	0.35	0.00
scao08celadm07	499.61	4.34	18.63	0.00	76.05	0.66	0.00	0.32	0.00

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Flash Cache Performance Summary

I/O Summary

average requests/second and MB/s per disk

Disk Type	Reads/s	Writes/s	Read MB/s	Write MB/s
	Requests		Throughput
F/186G	4,061.08	2.94	252.97	0.06
H/1.1T	2.12	1.24	0.11	0.00

Flash Cache Savings

Disk write savings (overwrites) - writes absorbed by flash cache that would have otherwise gone to disk
Database Flash Cache Hit% - for the database, not restricted to an instance
Cell OLTP and Cell Scan Flash Cache Hit% - for the cells, not restricted to this database or instance

Database Flash Cache Hit %	63.12
Cell OLTP Hit %	99.89
Cell Scan Hit %	99.94
Disk Write savings/s	223.26
Large Writes/s	2.06

Disk Activity

Flash cache activity resulting in disk I/O
Read Misses - reads from disk, writes to flash
Disk Writer - reads from flash, writes to disk

I/O per second
Read Misses	0.35
Disk writer	0.14
% Utilization
H/1.1T	0.02

Single Block Reads

cell single block physical read wait time for the database, not restricted to an instance
% of small reads from flash/disk from the cells, not restricted to this database or instance
small reads for flash/disk from the cells, not restricted to this database or instance
Total Small Reads/s - small reads/s for the entire system for the disk type
Cell Small Reads/s - average small reads/s for a cell for the disk type
Disk Small Reads/s - average small reads/s for a disk for the disk type

				% of Total Waits
	Total Waits	FG Waits	Avg Wait	<1us	<2us	<4us	<8us	<16us	<32us	<64us	<128us	<256us	<512us	<1ms	<2ms	<4ms	<8ms	<16ms	<32ms	<64ms	<128ms	<256ms	<512ms	<1s	>=1s
cell single block physical read	9,179	398	7.86ms Total Time:3,128.87ms									5.28	56.79	10.62	7.34	5.45	5.70	3.61	2.44	1.47	0.86	0.36	0.08

Small Reads Distribution	%Small Reads	Small Reads/s
Flash	94.53	2,948.30
Disk	5.47	170.70
Small Reads - Flash	# Cells	Total Small Reads/s	Cell Small Reads/s	Disk Small Reads/s	Latency
F/186G	7	2,948.30	421.19	26.32	11.34ms
Small Reads - Disk	# Cells	Total Small Reads/s	Cell Small Reads/s	Disk Small Reads/s	Latency
H/1.1T	7	170.70	24.39	2.03	224.83us

Flash Cache Scan Summary

	%MB	MB/s
Flash	99.94	27,741.72
Disk	0.06	15.68

Temp IO and Large Writes Summary

direct path [read|write] temp wait time for the database, not restricted to an instance
Large writes from the cells, not restricted to this database or instance

				% of Total Waits
	Total Waits	FG Waits	Avg Wait	<1us	<2us	<4us	<8us	<16us	<32us	<64us	<128us	<256us	<512us	<1ms	<2ms	<4ms	<8ms	<16ms	<32ms	<64ms	<128ms	<256ms	<512ms	<1s	>=1s
direct path write temp	300	0	Total Time:0.00ns									16.33	34.67	6.33	6.00	5.67	18.00	13.00
direct path read temp	0	0	Total Time:0.00ns

Large Writes/s
Total	Temp Spill	Data/Temp Tables	Write Only
2.06	1.03		1.03

Flash Cache User Reads

These statistics are collected by the cells and are not restricted to this database or instance
Total - total number of reads from Flash Cache
OLTP/Scan/Columnar reads include reads on keep objects
Misses/Partial Hits - number of read request misses and partial hits
Ordered by Total Read Requests desc

Cell Name	Total	per Sec	OLTP	Scan	Misses Partial Hits	Total	per Sec	OLTP	Scan
	Read Requests					Read Megabytes
Total (7)	17,374,182	28,159.13	197,064	17,177,118	213	17,118,874.44	27,745.34	2,235.81	17,116,638.63
scao08celadm02	3,379,383	5,477.12	9,955	3,369,428	20	3,359,615.70	5,445.08	133.98	3,359,481.73
scao08celadm04	2,961,723	4,800.20	12,651	2,949,072	3	2,939,712.54	4,764.53	365.79	2,939,346.75
scao08celadm03	2,812,054	4,557.62	33,309	2,778,745	33	2,771,301.70	4,491.57	260.98	2,771,040.72
scao08celadm05	2,537,686	4,112.94	27,177	2,510,509		2,503,298.04	4,057.21	381.20	2,502,916.84
scao08celadm06	1,975,497	3,201.78	11,316	1,964,181	4	1,957,230.16	3,172.17	157.90	1,957,072.27
scao08celadm01	1,900,260	3,079.84	12,202	1,888,058	103	1,879,595.26	3,046.35	83.50	1,879,511.77
scao08celadm07	1,807,579	2,929.63	90,454	1,717,125	50	1,708,121.04	2,768.43	852.48	1,707,268.56

Flash Cache User Reads Per Second

These statistics are collected by the cells and are not restricted to this database or instance
Total - total number of reads per second from Flash Cache
OLTP/Scan/Columnar reads include reads on keep objects
Ordered by Total Read Requests per Second desc

Cell Name	Total	OLTP	Scan	Misses	Total	OLTP	Scan
	Read Requests per Second				Read MB per Second
Total (7)	28,159.13	319.39	27,839.74	0.35	27,745.34	3.62	27,741.72
scao08celadm02	5,477.12	16.13	5,460.99	0.03	5,445.08	0.22	5,444.87
scao08celadm04	4,800.20	20.50	4,779.70	0.00	4,764.53	0.59	4,763.93
scao08celadm03	4,557.62	53.99	4,503.64	0.05	4,491.57	0.42	4,491.15
scao08celadm05	4,112.94	44.05	4,068.90		4,057.21	0.62	4,056.59
scao08celadm06	3,201.78	18.34	3,183.44	0.01	3,172.17	0.26	3,171.92
scao08celadm01	3,079.84	19.78	3,060.06	0.17	3,046.35	0.14	3,046.21
scao08celadm07	2,929.63	146.60	2,783.02	0.08	2,768.43	1.38	2,767.05

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Flash Cache User Reads Efficiency

These statistics are collected by the cells and are not restricted to this database or instance
Ordered by Total Requests desc

Cell Name	Requests	MB	Read Requests	Misses	%Hit	Read MB	Attempted MB	%Hit	Read MB	Read Requests
	Total		OLTP			Scan			Columnar	Keep
Total (7)	17,374,182	17,118,874.44	197,064	213	99.89	17,116,638.63	17,126,314.59	99.94
scao08celadm02	3,379,383	3,359,615.70	9,955	20	99.80	3,359,481.73	3,360,014.73	99.98
scao08celadm04	2,961,723	2,939,712.54	12,651	3	99.98	2,939,346.75	2,940,131.13	99.97
scao08celadm03	2,812,054	2,771,301.70	33,309	33	99.90	2,771,040.72	2,771,742.66	99.97
scao08celadm05	2,537,686	2,503,298.04	27,177	0	100.00	2,502,916.84	2,503,775.47	99.97
scao08celadm06	1,975,497	1,957,230.16	11,316	4	99.96	1,957,072.27	1,961,827.71	99.76
scao08celadm01	1,900,260	1,879,595.26	12,202	103	99.16	1,879,511.77	1,879,889.60	99.98
scao08celadm07	1,807,579	1,708,121.04	90,454	50	99.94	1,707,268.56	1,708,933.31	99.90

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Flash Cache User Writes

These statistics are collected by the cells and are not restricted to this database or instance
Total - total number of write requests or write megabytes to Flash Cache
First Writes/Overwrites also include Keep Writes and Large Writes
Ordered by Total Write Requests desc

Cell Name	Total	First Writes	Overwrites	Large Writes	Total	First Writes	Overwrites	Large Writes	Total	First Writes	Overwrites	Large Writes	Total	First Writes	Overwrites	Large Writes
	Write Requests								Write Megabytes
	Total				per Sec				Total				per Sec
Total (7)	138,469	718	137,751	1,266	224.42	1.16	223.26	2.06	3,779.04	75.42	3,702.57	79.12	6.12	0.12	6.00	0.12
scao08celadm02	23,874	35	23,839	70	38.69	0.06	38.64	0.11	631.97	3.23	628.34	4.38	1.02	0.01	1.02	0.01
scao08celadm04	22,830	136	22,694	237	37.00	0.22	36.78	0.38	599.07	14.02	584.93	14.82	0.97	0.02	0.95	0.03
scao08celadm01	20,517	55	20,462	140	33.25	0.09	33.16	0.23	545.26	6.02	539.33	8.75	0.88	0.01	0.87	0.01
scao08celadm06	19,919	205	19,714	266	32.28	0.33	31.95	0.43	538.93	21.57	517.01	16.63	0.87	0.03	0.84	0.03
scao08celadm07	17,956	84	17,872	205	29.10	0.14	28.97	0.33	529.27	8.95	520.23	12.82	0.86	0.01	0.84	0.02
scao08celadm03	16,919	27	16,892	60	27.42	0.04	27.38	0.10	469.99	2.83	467.09	3.75	0.76	0.00	0.76	0.01
scao08celadm05	16,454	176	16,278	288	26.67	0.29	26.38	0.46	464.55	18.80	445.64	18.00	0.75	0.03	0.72	0.03

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Flash Cache User Writes - Large Writes

These statistics are collected by the cells and are not restricted to this database or instance
Large Writes consist of Temp Spills, Writes to Data and Temp Tables, and Write Only Operations
Ordered by Total Write Requests desc

Cell Name	Total	Large Writes	Temp Spill	Write Only	Total	Large Writes	Temp Spill	Write Only	Total	Large Writes	Temp Spill	Write Only	Total	Large Writes	Temp Spill	Write Only
	Write Requests								Write Megabytes
	Total				per Sec				Total				per Sec
Total (7)	138,469	1,266	633	633	224.42	2.06	1.03	1.03	3,779.04	79.12	39.56	39.56	6.12	0.12	0.06	0.06
scao08celadm02	23,874	70	70		38.69	0.11	0.11		631.97	4.38	4.38		1.02	0.01	0.01
scao08celadm04	22,830	237	186	51	37.00	0.38	0.30	0.08	599.07	14.82	11.63	3.19	0.97	0.03	0.02	0.01
scao08celadm01	20,517	140		140	33.25	0.23		0.23	545.26	8.75		8.75	0.88	0.01		0.01
scao08celadm06	19,919	266	191	75	32.28	0.43	0.31	0.12	538.93	16.63	11.94	4.69	0.87	0.03	0.02	0.01
scao08celadm07	17,956	205	135	70	29.10	0.33	0.22	0.11	529.27	12.82	8.44	4.38	0.86	0.02	0.01	0.01
scao08celadm03	16,919	60		60	27.42	0.10		0.10	469.99	3.75		3.75	0.76	0.01		0.01
scao08celadm05	16,454	288	51	237	26.67	0.46	0.08	0.38	464.55	18.00	3.19	14.81	0.75	0.03	0.01	0.02

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Flash Cache Internal Reads

These statistics are collected by the cells and are not restricted to this database or instance
Read to Disk Write - reads from flash cache to write to hard disk
Disk Writer IO Detail - actual number of IOs
Ordered by Total Read Reqs desc

Cell Name	Total	per Sec	Total	per Sec	Requests/s	MB/s	Requests/s	MB/s
					Disk Writer IO Detail
	Read to Disk Write Reqs		Read to Disk Write MB		Reads from Flash		Writes to Hard Disk
Total (7)	87	0.14	53.59	0.09	1.41	0.09	0.14	0.09
scao08celadm06	20	0.03	11.39	0.02	0.30	0.02	0.03	0.02
scao08celadm05	18	0.03	12.15	0.02	0.32	0.02	0.03	0.02
scao08celadm04	18	0.03	9.99	0.02	0.26	0.02	0.03	0.02
scao08celadm07	14	0.02	8.68	0.01	0.23	0.01	0.02	0.01
scao08celadm01	9	0.01	6.00	0.01	0.16	0.01	0.01	0.01
scao08celadm02	4	0.01	2.88	0.00	0.07	0.00	0.01	0.00
scao08celadm03	4	0.01	2.51	0.00	0.07	0.00	0.01	0.00

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Flash Cache Internal Writes

These statistics are collected by the cells and are not restricted to this database or instance
The top cells by Total Write Requests are displayed
Population Write - population writes due to read misses

Cell Name	Total	per Sec	Total	per Sec
	Population Write Requests		Population Write Megabytes
Total (7)	180	0.29	2.13	0.00
scao08celadm01	103	0.17	0.80	0.00
scao08celadm07	50	0.08	0.39	0.00
scao08celadm03	15	0.02	0.67	0.00
scao08celadm02	5	0.01	0.21	0.00
scao08celadm06	4	0.01	0.03	0.00
scao08celadm04	3	0.00	0.02	0.00

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Flash Cache Scan Population

No data exists for this section of the report.

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Exadata IO Reasons

Top IO Reasons by Requests
Top IO Reasons by MB

Top IO Reasons by Requests

The top IO reasons by requests per cell are displayed
Only reasons with over 1% of IO requests for each cell are displayed
At most 5 reasons are displayed per cell
%Cell - the percentage of IO requests on the cell due to the IO reason
Ordered by Cell Name, Requests Value desc

Cell Name	IO Reason	%Cell	Total Requests	per Sec	Total MB	per Sec
		Requests			MB
scao08celadm01	smart scan	99.74	30,191,613	48,932.92	1,879,969.98	3,046.95
scao08celadm02	smart scan	99.86	53,981,949	87,491.00	3,362,539.44	5,449.82
scao08celadm03	smart scan	99.81	44,503,586	72,128.99	2,773,832.34	4,495.68
scao08celadm04	smart scan	99.85	47,206,999	76,510.53	2,941,930.63	4,768.12
scao08celadm05	smart scan	99.80	40,201,369	65,156.19	2,505,354.44	4,060.54
scao08celadm06	smart scan	99.72	31,434,127	50,946.72	1,962,214.91	3,180.25
scao08celadm07	smart scan	99.41	27,393,372	44,397.69	1,709,618.59	2,770.86

Top IO Reasons by MB

The top reasons by MB per cell are displayed
Only reasons with over 1% of IO MB for each cell are displayed
At most 5 reasons are displayed per cell
%Cell - the percentage of MB on the cell due to the IO reason
Ordered by Cell Name, MB Value desc

Cell Name	IO Reason	%Cell	Total MB	per Sec	Total Requests	per Sec
		MB			Requests
scao08celadm01	smart scan	99.90	1,879,969.98	3,046.95	30,191,613	48,932.92
scao08celadm02	smart scan	99.96	3,362,539.44	5,449.82	53,981,949	87,491.00
scao08celadm03	smart scan	99.97	2,773,832.34	4,495.68	44,503,586	72,128.99
scao08celadm04	smart scan	99.97	2,941,930.63	4,768.12	47,206,999	76,510.53
scao08celadm05	smart scan	99.97	2,505,354.44	4,060.54	40,201,369	65,156.19
scao08celadm06	smart scan	99.94	1,962,214.91	3,180.25	31,434,127	50,946.72
scao08celadm07	smart scan	99.89	1,709,618.59	2,770.86	27,393,372	44,397.69

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Exadata Top Database Consumers

Top Databases by Requests
Top Databases by Throughput
Top Databases by Requests per Cell
Top Databases by Throughput per Cell

Top Databases by IO Requests

The top databases by IO Requests are displayed
At most 10 databases are displayed
%Captured - % of Captured DB IO requests
Total - total IO requests or IO throughput (Flash + Disk)
Ordered by IO requests desc

DB Name	DBID	%Captured	Total Requests	per Sec	Flash	Disk	Total MB	per Sec	Flash	Disk
		IO Requests					IO Throughput (MB)
CONNDEMO	3094411576	99.86	275,146,213	445,942.00	275,098,884	47,329	17,138,837.94	27,777.70	17,134,431.99	4,405.95
ASM	1	0.07	203,753	330.23	76,765	126,988	2,796.93	4.53	1,896.70	900.22
OTHER	0	0.07	181,220	293.71	179,177	2,043	2,364.76	3.83	2,305.10	59.66

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Top Databases by IO Throughput

The top database by IO Throughput are displayed
At most 10 database are displayed
%Captured - % of Captured DB IO throughput
Total - total IO throughput or IO requests (Flash + Disk)
Ordered by IO Throughput desc

DB Name	DBID	%Captured	Total MB	per Sec	Flash	Disk	Total Requests	per Sec	Flash	Disk
		IO Throughput (MB)					IO Requests
CONNDEMO	3094411576	99.97	17,138,837.94	27,777.70	17,134,431.99	4,405.95	275,146,213	445,942.00	275,098,884	47,329
ASM	1	0.02	2,796.93	4.53	1,896.70	900.22	203,753	330.23	76,765	126,988
OTHER	0	0.01	2,364.76	3.83	2,305.10	59.66	181,220	293.71	179,177	2,043

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Top Databases by IO Requests per Cell

Within each cell the top databases by IO requests are displayed
At most 5 databases are displayed per cell
%Cell - % of Captured DB IOs on the Cell
Ordered by cell name, IO requests desc

Cell Name	DB Name	DBID	%Cell	Total Requests	per Sec	Flash	Disk	Total MB	per Sec	Flash	Disk
			IO Requests					IO Throughput (MB)
scao08celadm01	CONNDEMO	3094411576	99.86	30,221,605	48,981.53	30,213,618	7,987	1,880,198.95	3,047.32	1,880,168.02	30.93
	ASM	1	0.09	27,816	45.08	20,644	7,172	1,202.73	1.95	1,108.29	94.44
	OTHER	0	0.04	13,118	21.26	12,896	222	214.42	0.35	207.95	6.47
scao08celadm02	CONNDEMO	3094411576	99.92	54,010,710	87,537.62	54,008,087	2,623	3,362,983.72	5,450.54	3,362,968.21	15.51
	ASM	1	0.06	30,208	48.96	6,351	23,857	618.19	1.00	327.37	290.83
	OTHER	0	0.03	14,150	22.93	13,977	173	232.87	0.38	229.78	3.10
scao08celadm03	CONNDEMO	3094411576	99.87	44,527,585	72,167.88	44,525,129	2,456	2,774,171.84	4,496.23	2,774,164.32	7.52
	ASM	1	0.10	45,090	73.08	20,924	24,166	133.99	0.22	81.77	52.22
	OTHER	0	0.03	14,315	23.20	14,105	210	223.68	0.36	220.71	2.98
scao08celadm04	CONNDEMO	3094411576	99.90	47,233,958	76,554.23	47,233,954	4	2,942,497.94	4,769.04	2,942,496.98	0.96
	ASM	1	0.07	31,672	51.33	7,876	23,796	106.14	0.17	53.43	52.70
	OTHER	0	0.03	13,879	22.49	13,396	483	203.77	0.33	191.27	12.50
scao08celadm05	CONNDEMO	3094411576	99.86	40,220,023	65,186.42	40,217,692	2,331	2,505,552.30	4,060.86	2,505,546.95	5.36
	ASM	1	0.09	38,000	61.59	14,207	23,793	109.90	0.18	54.21	55.69
	OTHER	0	0.04	17,399	28.20	16,940	459	287.99	0.47	274.45	13.54
scao08celadm06	CONNDEMO	3094411576	99.85	31,476,225	51,014.95	31,463,080	13,145	1,963,044.03	3,181.59	1,958,760.42	4,283.61
	ASM	1	0.09	29,007	47.01	5,645	23,362	336.09	0.54	271.10	65.00
	OTHER	0	0.06	18,110	29.35	17,854	256	310.84	0.50	298.91	11.93
scao08celadm07	CONNDEMO	3094411576	99.67	27,456,107	44,499.36	27,437,324	18,783	1,710,389.16	2,772.11	1,710,327.10	62.06
	OTHER	0	0.33	90,249	146.27	90,009	240	891.17	1.44	882.04	9.13
	ASM	1	0.01	1,960	3.18	1,118	842	289.90	0.47	0.55	289.35

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Top Databases by IO Throughput per Cell

Within each cell the top databases by IO throughput are displayed
At most 5 databases are displayed per cell
%Cell - % of Captured DB IOs on the Cell
Ordered by cell name, IO throughput desc

Cell Name	DB Name	DBID	%Cell	Total MB	per Sec	Flash	Disk	Total Requests	per Sec	Flash	Disk
			IO Throughput (MB)					IO Requests
scao08celadm01	CONNDEMO	3094411576	99.92	1,880,198.95	3,047.32	1,880,168.02	30.93	30,221,605	48,981.53	30,213,618	7,987
	ASM	1	0.06	1,202.73	1.95	1,108.29	94.44	27,816	45.08	20,644	7,172
	OTHER	0	0.01	214.42	0.35	207.95	6.47	13,118	21.26	12,896	222
scao08celadm02	CONNDEMO	3094411576	99.97	3,362,983.72	5,450.54	3,362,968.21	15.51	54,010,710	87,537.62	54,008,087	2,623
	ASM	1	0.02	618.19	1.00	327.37	290.83	30,208	48.96	6,351	23,857
	OTHER	0	0.01	232.87	0.38	229.78	3.10	14,150	22.93	13,977	173
scao08celadm03	CONNDEMO	3094411576	99.99	2,774,171.84	4,496.23	2,774,164.32	7.52	44,527,585	72,167.88	44,525,129	2,456
	OTHER	0	0.01	223.68	0.36	220.71	2.98	14,315	23.20	14,105	210
	ASM	1	0.00	133.99	0.22	81.77	52.22	45,090	73.08	20,924	24,166
scao08celadm04	CONNDEMO	3094411576	99.99	2,942,497.94	4,769.04	2,942,496.98	0.96	47,233,958	76,554.23	47,233,954	4
	OTHER	0	0.01	203.77	0.33	191.27	12.50	13,879	22.49	13,396	483
	ASM	1	0.00	106.14	0.17	53.43	52.70	31,672	51.33	7,876	23,796
scao08celadm05	CONNDEMO	3094411576	99.98	2,505,552.30	4,060.86	2,505,546.95	5.36	40,220,023	65,186.42	40,217,692	2,331
	OTHER	0	0.01	287.99	0.47	274.45	13.54	17,399	28.20	16,940	459
	ASM	1	0.00	109.90	0.18	54.21	55.69	38,000	61.59	14,207	23,793
scao08celadm06	CONNDEMO	3094411576	99.97	1,963,044.03	3,181.59	1,958,760.42	4,283.61	31,476,225	51,014.95	31,463,080	13,145
	ASM	1	0.02	336.09	0.54	271.10	65.00	29,007	47.01	5,645	23,362
	OTHER	0	0.02	310.84	0.50	298.91	11.93	18,110	29.35	17,854	256
scao08celadm07	CONNDEMO	3094411576	99.93	1,710,389.16	2,772.11	1,710,327.10	62.06	27,456,107	44,499.36	27,437,324	18,783
	OTHER	0	0.05	891.17	1.44	882.04	9.13	90,249	146.27	90,009	240
	ASM	1	0.02	289.90	0.47	0.55	289.35	1,960	3.18	1,118	842

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Back to Exadata Statistics

	Targt MTTR (s)	Estd MTTR (s)	Recovery Estd IOs	Actual RedoBlks	Target RedoBlks	Log Sz RedoBlks	Log Ckpt Timeout RedoBlks	Log Ckpt Interval RedoBlks	Opt Log Sz(M)	Estd RAC Avail Time
B	0	41	159479	5771830	84934656	84934656	101810902			19
E	0	0	5530	31322	34069472	84934656	34069472			0

P	Size for Est (M)	Size Factor	Buffers (thousands)	Est Phys Read Factor	Estimated Phys Reads (thousands)	Est Phys Read Time	Est %DBtime for Rds
D	416	0.10	49	12.35	278,560	1	546083.00
D	832	0.20	97	7.42	167,448	1	328118.00
D	1,248	0.30	146	3.35	75,638	1	148017.00
D	1,664	0.39	194	1.68	37,784	1	73761.00
D	2,080	0.49	243	1.34	30,332	1	59143.00
D	2,496	0.59	292	1.20	27,068	1	52739.00
D	2,912	0.69	340	1.13	25,408	1	49483.00
D	3,328	0.79	389	1.08	24,310	1	47328.00
D	3,744	0.89	437	1.04	23,437	1	45617.00
D	4,160	0.98	486	1.00	22,666	1	44104.00
D	4,224	1.00	494	1.00	22,556	1	43889.00
D	4,576	1.08	535	0.97	21,953	1	42705.00
D	4,992	1.18	583	0.94	21,262	1	41351.00
D	5,408	1.28	632	0.91	20,560	1	39973.00
D	5,824	1.38	680	0.88	19,801	1	38483.00
D	6,240	1.48	729	0.84	18,915	1	36745.00
D	6,656	1.58	778	0.80	18,019	1	34987.00
D	7,072	1.67	826	0.77	17,371	1	33717.00
D	7,488	1.77	875	0.76	17,182	1	33346.00
D	7,904	1.87	924	0.76	17,170	1	33322.00
D	8,320	1.97	972	0.76	17,162	1	33308.00

	PGA Aggr Target(M)	Auto PGA Target(M)	PGA Mem Alloc(M)	W/A PGA Used(M)	%PGA W/A Mem	%Auto W/A Mem	%Man W/A Mem	Global Mem Bound(K)
B	2,048	911	2,109.05	674.91	32.00	100.00	0.00	209,710
E	2,048	876	2,056.08	625.69	30.43	100.00	0.00	209,710

PGA Target Est (MB)	Size Factr	W/A MB Processed	Estd Extra W/A MB Read/ Written to Disk	Estd PGA Cache Hit %	Estd PGA Overalloc Count	Estd Time
256	0.13	721,740.25	741,434.58	49.00	2,450	26,773,319
512	0.25	721,740.25	738,497.35	49.00	2,105	26,719,573
1,024	0.50	721,740.25	686,997.57	51.00	246	25,777,225
1,536	0.75	721,740.25	671,190.93	52.00	45	25,487,993
2,048	1.00	721,740.25	660,634.88	52.00	31	25,294,838
2,458	1.20	721,740.25	660,634.88	52.00	18	25,294,838
2,867	1.40	721,740.25	660,634.88	52.00	0	25,294,838
3,277	1.60	721,740.25	165,158.72	81.00	0	16,228,565
3,686	1.80	721,740.25	165,158.72	81.00	0	16,228,565
4,096	2.00	721,740.25	165,158.72	81.00	0	16,228,565
6,144	3.00	721,740.25	165,158.72	81.00	0	16,228,565
8,192	4.00	721,740.25	165,158.72	81.00	0	16,228,565
12,288	6.00	721,740.25	165,158.72	81.00	0	16,228,565
16,384	8.00	721,740.25	165,158.72	81.00	0	16,228,565

Shared Pool Size(M)	SP Size Factr	Est LC Size (M)	Est LC Mem Obj	Est LC Time Saved (s)	Est LC Time Saved Factr	Est LC Load Time (s)	Est LC Load Time Factr	Est LC Mem Obj Hits (K)
3,296	1.00	134	5,500	21,660,235	1.00	149,915	1.00	647,186
3,328	1.01	165	6,847	21,660,251	1.00	149,899	1.00	647,189
3,360	1.02	196	8,194	21,660,263	1.00	149,887	1.00	647,192
3,392	1.03	228	9,371	21,660,276	1.00	149,874	1.00	647,195
3,424	1.04	260	10,481	21,660,283	1.00	149,867	1.00	647,197
3,456	1.05	292	11,591	21,660,289	1.00	149,861	1.00	647,199
3,488	1.06	324	12,701	21,660,294	1.00	149,856	1.00	647,200
3,520	1.07	356	13,811	21,660,299	1.00	149,851	1.00	647,201
3,552	1.08	388	14,921	21,660,303	1.00	149,847	1.00	647,203
3,584	1.09	420	16,031	21,660,308	1.00	149,842	1.00	647,204
3,648	1.11	484	18,251	21,660,318	1.00	149,832	1.00	647,206
4,000	1.21	836	30,357	21,660,402	1.00	149,748	1.00	647,224
4,352	1.32	1,188	42,521	21,660,541	1.00	149,609	1.00	647,250
4,704	1.43	1,540	54,700	21,660,739	1.00	149,411	1.00	647,283
5,056	1.53	1,892	66,833	21,661,068	1.00	149,082	0.99	647,327
5,408	1.64	2,244	78,918	21,661,427	1.00	148,723	0.99	647,372
5,760	1.75	2,596	91,094	21,661,791	1.00	148,359	0.99	647,428
6,112	1.85	2,948	103,212	21,662,141	1.00	148,009	0.99	647,472
6,464	1.96	3,300	115,424	21,662,466	1.00	147,684	0.99	647,510
6,816	2.07	3,652	127,544	21,662,772	1.00	147,378	0.98	647,540

Low Optimal	High Optimal	Total Execs	Optimal Execs
2K	4K	25,066	25,066
64K	128K	18	18
128K	256K	16	16
256K	512K	11	11
512K	1024K	9	9
1M	2M	917	917
2M	4M	101	101
4M	8M	6	6
8M	16M	123	123

Enqueue Type (Request Reason)	Requests	Succ Gets	Failed Gets	Waits	Wt Time (s)	Av Wt Time(ms)
KO-Multiple Object Checkpoint (fast object checkpoint)	212,944	212,862	0	52,459	176	3.35
PS-PX Process Reservation	13,268	13,243	25	3,764	1	0.20
RO-Multiple Object Reuse (fast object reuse)	1,960	1,960	0	488	1	1.49
CF-Controlfile Transaction	1,300	1,298	2	32	1	21.66
US-Undo Segment	10	10	0	3	0	0.67
HW-Segment High Water Mark	7,954	7,954	0	2	0	1.00
FB-Format Block	22	22	0	5	0	0.20
TM-DML	1,510	1,510	0	2	0	0.50
TD-KTF map table enqueue (KTF dump entries)	2	2	0	2	0	0.50
JS-Job Scheduler (job run lock - synchronize)	1	1	0	1	0	1.00
WF-AWR Flush	23	23	0	12	0	0.00
TA-Instance Undo	2	2	0	2	0	0.00
TO-Temp Object	251	251	0	1	0	0.00
AF-Advisor Framework (task serialization)	13	13	0	1	0	0.00
DR-Distributed Recovery	1	1	0	1	0	0.00
IS-Instance State	21,502	21,502	0	0	0
JG-Job Scheduler1	16,346	16,346	0	0	0
JG-Job Scheduler1 (queue lock)	16,346	16,346	0	0	0
TX-Transaction	11,124	11,124	0	0	0
SE-Session Migration	1,985	1,985	0	0	0
JG-Job Scheduler1 (q mem clnup lck)	1,210	1,210	0	0	0
CU-Cursor	663	663	0	0	0
CR-Reuse Block Range (block range reuse ckpt)	438	438	0	0	0
KA-Kernel Service ACL (ACL control status)	408	408	0	0	0
TT-Tablespace	304	304	0	0	0
DD-ASM Local Disk Group	207	207	0	0	0
MR-Media Recovery	74	74	0	0	0
BU-Buddy Instance Context (recovery set construct)	71	71	0	0	0
AE-Edition Lock (lock)	55	55	0	0	0
PR-Process Startup	53	53	0	0	0
PV-KSV slave startup (syncstart)	51	51	0	0	0
SJ-KTSJ Slave Task Cancel (Slave Task Cancel)	22	22	0	0	0
WT-AWR CDB-Wide Table Lock	21	21	0	0	0
JD-Job Queue Date	20	20	0	0	0
SQ-Sequence Cache	16	16	0	0	0
TH-Threshold Chain (metric threshold evaluation)	9	9	0	0	0
IT-In-Mem Temp Table Meta Creation	4	4	0	0	0
PW-Buffer Cache PreWarm (flush prewarm buffers)	3	3	0	0	0
SH-Active Session History Flushing	3	3	0	0	0
DW-In memory Dispenser	2	2	0	0	0
FP-File Object (global fob contention)	1	1	0	0	0
JZ-Join group dictionary (Join group dictionary)	1	1	0	0	0
RS-Reclaimable Space (read alert level)	1	1	0	0	0

Latch Name	Get Requests	Pct Get Miss	Avg Slps /Miss	NoWait Requests	Pct NoWait Miss
AQ Background: interrupt command latch	1	0.00		22	0.00
AQ Coord jobx_kwsbgsgn latch	20	0.00		0
AQ Sharded master pool latch	20	0.00		0
AQ deq hash table latch	1	0.00		0
AQ dequeue txn counter latch	124	0.00		0
ASM Keyed state latch	121	0.00		0
ASM allocation	36,991	0.00		0
ASM connection state latch	1,340	0.07	0.00	0
ASM db client latch	33,875	0.00		0
ASM map headers	476	0.00		0
ASM map load waiting list	10	0.00		0
ASM map operation freelist	32,530	0.50	0.34	0
ASM map operation hash table	55,700,678	0.22	0.00	0
ASM network background latch	1,013	0.00		0
ASM network state latch	211	0.00		0
ASM remote client latch	9	0.00		0
AWR Alerted Metric Element list	6,984	0.00		0
Change Notification Hash table latch	495	0.00		0
Column stats entry latch	1	0.00		0
Consistent RBA	20,826	0.02	0.00	0
DML lock allocation	7,385,676	0.00		0
Event Group Locks	6,058	0.00		0
FIB s.o chain latch	3	0.00		0
FOB consolidated s.o list latch	3	0.00		0
File State Object Pool Parent Latch	1	0.00		0
GCS logfile block	1	0.00		0
GCS logfile write queue	1	0.00		0
Hang Manager wait event statistics	41	0.00		6,926	0.00
I/O Staticstics latch	1	0.00		0
ILM Stats Stripe Latch	1	0.00		0
ILM Stats main anchor latch	2,403	0.00		0
ILM access tracking extent	1	0.00		0
ILM activity tracking latch	1	0.00		0
IM Global dictionary latch	1	0.00		0
IM Global dictionary queue latch	1	0.00		0
IM Global dictionary rw latch	1	0.00		0
IM area sb latch	1	0.00		0
IM area scb latch	1	0.00		0
IM emb latch	1	0.00		0
IM seg hdr latch	1	0.00		0
IMFS defer write list	1	0.00		0
IPC other latch	7	0.00		0
IPC stats buffer allocation latch	1	0.00		0
In memory undo latch	1	0.00		0
JS Sh mem access	620	0.00		0
JS broadcast add buf latch	635	0.00		0
JS broadcast drop buf latch	635	0.00		0
JS broadcast load blnc latch	20	0.00		0
JS mem alloc latch	1	0.00		0
JS queue access latch	2	0.00		0
JS queue state obj latch	33,448	0.00		0
JS slv state obj latch	5	0.00		0
KCNIBR - invalid block range tree	1	0.00		0
KDCStatHash latch	1	0.00		0
KDMADO action list latch	1	0.00		0
KDMADO bll latch	1	0.00		0
KDMADO latch	1	0.00		0
KFC FX Hash Latch	1	0.00		0
KFC Hash Latch	1	0.00		0
KFCL LE Freelist	1	0.00		0
KFIAS client latch	1	0.00		0
KFIAS cluster latch	1	0.00		0
KFIAS endpoint latch	1	0.00		0
KFIAS node latch	1	0.00		0
KFIAS process latch	1	0.00		0
KFIAS queue latch	1	0.00		0
KFK SGA Libload latch	66,528	0.00		0
KFMD SGA	302	0.00		0
KGNFS-NFS:SHM structure	1	0.00		0
KGNFS-NFS:SVR LIST	206	0.00		0
KJC message pool free list	32,969	0.42	0.01	1,627	4.18
KJC message pool pending avail list	1	0.00		0
KJCT flow control latch	449,587	0.06	0.00	0
KMG MMAN ready and startup request latch	206	0.00		0
KSFS OFS ctx level parent latch	1	0.00		0
KSFS OFS req layer parent latch	1	0.00		0
KSFS OFS sess layer parent latch	1	0.00		0
KSFS Receive and Send Queue latch	1	0.00		0
KSFS id table parent latch	1	0.00		0
KSFS ksfs_node latch	1	0.00		0
KSFSD name cache parent latch	1	0.00		0
KSGL LS Segment latch	1	0.00		0
KSGL SGA anchor latch	1	0.00		0
KSIPC SGA allocation parent latch	902	0.00		0
KSK PDB IO STAT	1	0.00		0
KSRMA SGA anchor latch	1	0.00		0
KSRMF SGA anchor latch	1	0.00		0
KSXR hang analysis phase 1 latch	47,139	0.00		24	0.00
KSXR hang analysis phase 2 latch	204	0.00		0
KSXR large replies	22	0.00		0
KTF sga latch	2	0.00		206	0.00
KTILM latch	1	0.00		0
KTU in-memory txn table latch	1	0.00		0
KWQMN job cache list latch	45	0.00		0
KXDBIO latch	30	0.00		0
Latch for NonceHistory	1	0.00		0
Locator state objects pool parent latch	1	0.00		0
Lsod array latch	207	0.00		0
MQL Tracking Latch	0			13	0.00
Memory Management Latch	0			206	0.00
Memory Queue	1	0.00		0
Memory Queue Message Subscriber #1	1	0.00		0
Memory Queue Message Subscriber #2	1	0.00		0
Memory Queue Message Subscriber #3	1	0.00		0
Memory Queue Message Subscriber #4	1	0.00		0
Memory Queue Subscriber	1	0.00		0
Message cache latch	1	0.00		0
MinActiveScn Latch	30	0.00		0
Mutex	1	0.00		0
Mutex Stats	1	0.00		0
Nologging Standby SCN Time Map cache	205	0.00		0
OS process	728	0.00		0
OS process allocation	1,573	0.00		0
OS process: request allocation	121	0.00		0
PDB Hash Table Latch	1	0.00		0
PDB LRU structure	1	0.00		0
PL/SQL warning settings	1,999	0.00		0
PX hash array latch	1	0.00		0
Parent latch for dependency tracking	1	0.00		0
Parent latch for query hash table access	1	0.00		0
Parent latch for segments scanning	1	0.00		0
QMT	1	0.00		0
Real-time descriptor latch	183,844	0.10	0.14	0
Report Request stats latch	129	0.00		0
Report Request struct latch	143	0.00		0
Request holder compeltion list latch	113	0.00		0
Retry Ht elm latch	1	0.00		0
Retry bkt latch	1	0.00		0
SGA IO buffer pool latch	4	0.00		4	0.00
SGA Logging Bkt Latch	1	0.00		0
SGA Logging Log Latch	15,319	0.00		0
SGA blob parent	1	0.00		0
SGA bucket locks	1	0.00		0
SGA heap locks	1	0.00		0
SGA pool locks	1	0.00		0
SQL memory manager latch	1	0.00		205	0.00
SQL memory manager workarea list latch	59,780	0.02	0.00	0
SR Stats Stripe Latch	1	0.00		0
SR Stats main anchor latch	1,747	0.00		0
Sched IM Job latch	10	0.00		0
Sched InMem Job Cache	1	0.00		0
Shared B-Tree	23	0.00		0
Shared context latch	31,007	0.01	0.50	0
Shared context root latch	121	0.00		0
Streams Generic	1	0.00		0
Subscriber Ht elm latch	1	0.00		0
Testing	1	0.00		0
Token Manager	1	0.00		0
Txn Ht elm latch	1	0.00		0
Txn bkt latch	1	0.00		0
WCR: sync	1	0.00		0
Write State Object Pool Parent Latch	1	0.00		0
X$KSFQP	1	0.00		0
XDB NFS Security Latch	1	0.00		0
XDB unused session pool	1	0.00		0
XDB used session pool	1	0.00		0
active checkpoint queue latch	394,858	5.83	0.00	0
active service list	35,661	0.01	0.00	657	0.00
archive destination	22	0.00		0
begin backup scn array	13	0.00		0
buffer pool	1	0.00		0
business card	3,817	0.00		0
cache buffer handles	134	0.00		0
cache buffers chains	121,066,574	0.05	0.00	18,747	0.00
cache buffers lru chain	194,658	0.00	0.00	219,066	0.00
cache table scan latch	54	0.00		54	0.00
call allocation	6,169	0.00		0
change notification client cache latch	1	0.00		0
channel handle pool latch	291	0.00		0
channel operations parent latch	208,134	0.45	0.00	49	0.00
checkpoint queue latch	13,395,069	0.00	0.00	46,097	0.01
client/application info	11,809	0.00		0
compile environment latch	2,049	0.00		0
connection pool sga data lock	123	0.00		0
corrupted undo seg latch	3	0.00		0
cp handoff latch	1	0.00		0
cp pool latch	1	0.00		0
cp server hash latch	1	0.00		0
cp sga latch	9	0.00		0
cp srv type state latch	616	0.00		0
cp srv type wait latch	1	0.00		0
cr slave free list	1	0.00		0
cvmap freelist lock	1	0.00		0
deferred cleanup latch	9	0.00		0
dispatcher info	14	0.00		0
dml lock allocation	9	0.00		0
done queue latch	1	0.00		0
dtp latch	61	0.00		0
dummy allocation	4,000	0.00		0
eighth spare latch - X parent	1	0.00		0
eleventh spare latch - children	1	0.00		0
enqueue freelist latch	1	0.00		319,046	0.01
enqueue hash chains	830,451	0.12	0.00	270	0.00
enqueues	6	0.00		0
error message lists	9,538	0.04	0.00	0
fifteenth spare latch - children	1	0.00		0
file cache latch	110	0.00		0
flash file access latch	1	0.00		0
flashback copy	1	0.00		0
fourteenth spare latch - children	1	0.00		0
fourth Audit Vault latch	1	0.00		0
gc element	214,806	0.08	0.00	2,254	0.00
gc xid list	277	0.00		0
gcs commit scn state	1	0.00		0
gcs nodemap pool	32	0.00		0
gcs opaque info freelist	3,359	0.00		0
gcs partitioned table hash	490,754	0.00	0.00	9,021	0.00
gcs pcm hashed value bucket hash	1	0.00		0
gcs remaster request queue	2	0.00		0
gcs resource freelist	2,507	0.00		0
gcs resource hash	152,874	0.03	0.02	0
gcs resource scan list	1	0.00		0
gcs shadows freelist	187	0.00		0
ges cached resource lists	184,374	0.33	0.01	229,415	0.14
ges deadlock list	12	0.00		0
ges domain table	508,559	0.00	0.00	0
ges enqueue table freelist	511,034	0.01	0.00	0
ges group table	784,381	0.00	0.00	0
ges process hash list	45,510	0.00		0
ges process parent latch	1,286,410	0.00	0.06	0
ges process table freelist	121	0.00		0
ges resource hash list	1,031,993	0.03	0.07	5,749	0.21
ges resource scan list	63	0.00		0
ges resource table freelist	16,006	0.00		0
ges s-lock bitvec freelist	554	0.00		0
ges timeout list	7,545	0.01	0.00	230	0.00
ges value block free list	225	0.00		0
global tx hash mapping	1	0.00		0
granule from data transfer cache	1	0.00		0
gws:Sharding global descriptor latch	42	0.00		0
hash table Sql Plan Finding latch	57	0.00		196	0.00
hash table column usage latch	446	0.00		85,878	0.00
hash table expression usage tracking latch	1	0.00		0
heartbeat check	1	0.00		3,397	0.00
heartbeat structure management	0			308	0.00
imc buf hdl lat	1	0.00		0
imc cr clone buf	1	0.00		0
imc hash lat	1	0.00		0
imc sj lat	1	0.00		0
imc srchsp lat	1	0.00		0
imc-txn-wrk-lat	1	0.00		0
in-memory area latch	1	0.00		0
in-memory columnar segment hash table latch	1	0.00		0
in-memory columnar ts extent map chunk latch	1	0.00		0
in-memory global pool latch	1	0.00		0
internal temp table object number allocation latch	84	0.00		0
interrupt manipulation	9,660	0.00		0
intra txn parallel recovery	1	0.00		0
io pool granule metadata list	1	0.00		0
job workq parent latch	2	0.00		1	0.00
job_queue_processes free list latch	2	0.00		0
job_queue_processes parameter latch	2	0.00		0
jslv pdb context latch	2	0.00		0
k2q global data latch	410	0.00		0
k2q lock allocation	1	0.00		0
kcb DW scan objtemp hash table latch	1	0.00		0
kcfis latch	917,124	0.59	0.00	0
kcn buffer chains	1	0.00		0
kdlx hb parent latch	1	0.00		0
kgb parent	1	0.00		0
kgnfs mount latch	1	0.00		0
kjci objects freelist latch	1	0.00		0
kjci process context latch	1	0.00		160,090	0.00
kjoedcso state object freelist latch	9	0.00		0
kjoeq omni enqueue hash bucket latch	1	0.00		0
kjoer owner hash bucket	1	0.00		0
kjpm my inst data	20	0.00		0
kjsc protect control request queue	0			6,165	0.00
kjsca protect pkey hash table bucket	1	0.00		0
kjsca protect service hash table bucket	1	0.00		0
kokc descriptor allocation latch	310	0.00		0
krso process	22	0.00		0
ksbxic instance latch	50	0.00		0
ksevn object root latch	205	0.00		0
ksfv messages	1	0.00		0
ksi resource reuse count	1	0.00		0
ksim group membership cache	15,029	0.00		0
ksim membership request latch	0			616	0.00
kss move lock	109	0.00		0
ksuosstats global area	61	0.00		236	0.00
ksv allocation latch	226	0.00		0
ksv class latch	14,247	0.01	0.00	0
ksv msg queue latch	2	0.00		1	0.00
ksxp shared latch	121	0.00		0
ksxp so latch	121	0.00		0
ksz_so allocation latch	181	0.00		0
ktfbn latch	155	0.00		0
ktm adg jrnls	1	0.00		0
ktm adg lookuptable	1	0.00		0
ktm adg space	1	0.00		0
ktm adg stages	1	0.00		0
ktm global data	13	0.00		0
ktm prv jrnls	1	0.00		0
ktmpj HT ls	1	0.00		0
kwqbsn:qsga	22	0.00		0
kwslbmdl: metadata latch	56	0.00		0
kwslbql: queue latch	1	0.00		0
kwsptQcachLt: queue cache latch	1	0.00		0
kwsptTrncTsksLt: trunc task latch	1	0.00		0
kwsptjobAdPtLt: AdPt list latch	15	0.00		0
kwsslLat: skiplist latch	1	0.00		0
kxfxscanrate_latch	1	0.00		0
lgwr LWN SCN	29,540	0.04	0.00	0
list of block allocation	70	0.00		0
loader state object freelist	606	0.00		0
lob segment dispenser latch	1	0.00		0
lob segment hash table latch	23	0.00		0
lob segment query latch	1	0.00		0
lock DBA buffer during media recovery	1	0.00		0
log write info	0			22,728	0.38
log write worker phase	1,403	0.21	0.00	0
logical standby cache	1	0.00		0
logminer context allocation	1	0.00		0
logminer local	1	0.00		0
logminer work area	1	0.00		0
longop free list parent	6	0.00		5	0.00
managed standby	21	0.00		0
message bitmap latch	1	0.00		0
message pool operations parent latch	71,237	0.20	0.00	0
messages	1,101,332	3.03	0.00	0
msg queue latch	1	0.00		0
multiblock read objects	270	0.00		0
name-service memory objects	1,572	0.00		0
name-service namespace bucket	14,413	0.00		0
name-service pending queue	802	0.00		0
name-service request queue	7,289	0.00		0
ncodef allocation latch	9	0.00		0
ninth spare latch - X parent	1	0.00		0
object queue header freelist	12,401	0.00		3	0.00
object queue header operation	5,139,208	0.01	0.02	11,211	0.00
object queue memory	1	0.00		0
object stats modification	737	0.00		0
parallel query alloc buffer	30,705	0.00		108	0.00
parallel query stats	7,663	0.00		0
parallel txn reco latch	16,592	0.00		0
parameter table management	8,591	0.00		0
pdb enqueue hash chains	1	0.00		0
peshm	1	0.00		0
pesom_free_list	1	0.00		0
pesom_hash_node	1	0.00		0
pkey global statistics	1	0.00		0
pmon dead latch	10	0.00		0
post/wait queue	262,394	0.07	0.01	242,141	0.06
process allocation	3,223	0.00		0
process group creation	121	0.00		0
process pkey statistics list	1	0.00		0
process queue	13,446	0.00		0
process queue reference	349,422	0.00	0.00	37,791	0.04
qmn task queue latch	91	0.00		0
query server freelists	17,231	0.00		0
query server process	2,292	0.04	1.00	0
queued dump request	2	0.00		0
queuing load statistics	1	0.00		0
recovery domain hash bucket	246	0.00		0
redo allocation	111,256	0.26	0.01	108,871	0.98
redo copy	1	0.00		109,316	0.00
redo transport task	1	0.00		0
redo writing	346,639	1.41	0.00	0
reid allocation latch	60	0.00		0
remote tool request latch	2,000	0.00		0
resmgr group change latch	1,942	0.00		0
resmgr:active threads	4,015	0.00		11	0.00
resmgr:actses change group	1,997	0.00		0
resmgr:actses change state	1	0.00		0
resmgr:free threads list	3,999	0.00		0
resmgr:plan CPU method	1	0.00		0
resmgr:plan change alloc latch	1	0.00		0
resmgr:plan change latch	1	0.00		0
resmgr:resource group CPU method	53	0.00		0
resmgr:schema config	75	0.00		11	0.00
resmgr:session queuing	1	0.00		0
row cache objects	1	0.00		0
second Audit Vault latch	1	0.00		0
segmented array pool	3	0.00		0
sequence cache	555	0.00		0
service drain list	616	0.00		0
session allocation	15,576	0.00		11,683	0.01
session idle bit	124,154	0.00	0.00	0
session queue latch	1	0.00		0
session state list latch	4,042	0.00		0
session statistics	4,014	0.00		0
session switching	72	0.00		0
session timer	205	0.00		0
seventh spare latch - X parent	1	0.00		0
sga hash table parent latch	1	0.00		0
shard latch	1	0.00		0
shared pool	295,723	0.05	0.09	0
shared pool sim alloc	1	0.00		0
shared pool simulator	2,672	0.00		0
shared server configuration	207	0.00		0
sim partition latch	1	0.00		0
simulator hash latch	1,228,640	0.00		0
simulator lru latch	1	0.00		1,228,427	2.56
sixth spare latch - X parent	1	0.00		0
sort extent pool	1,587	0.00		0
space background state object latch	1	0.00		0
space background task latch	347	34.29	0.92	415	0.48
state object free list	2	0.00		0
statistics aggregation	174	0.00		0
storage server table manipulation latch	78	0.00		0
subscriber Ht bkt	1	0.00		0
tablespace key chain	21,440	0.15	0.00	0
temp lob duration state obj allocation	20	0.00		0
temporary table state object allocation	22	0.00		0
tenth spare latch - X parent	1	0.00		0
test excl. parent l0	1	0.00		0
test excl. parent2 l0	1	0.00		0
test excl. parent2 lmid cln	1	0.00		0
test mode exclusive	1	0.00		0
test open exclusive	1	0.00		0
test pdb exclusive	1	0.00		0
test shared parent2 lmid	1	0.00		0
thirteenth spare latch - children	1	0.00		0
threshold alerts latch	32	0.00		0
transaction allocation	31,181	0.00		0
twelfth spare latch - children	1	0.00		0
twenty-fifth spare latch - S par	1	0.00		0
twenty-first spare latch - S par	1	0.00		0
twenty-fourth spare latch - S par	1	0.00		0
twenty-second spare latch - S par	1	0.00		0
twenty-third spare latch - S par	1	0.00		0
undo global data	11,587,466	0.04	0.00	0
virtual circuit buffers	1	0.00		0
virtual circuit holder	1	0.00		0
virtual circuit queues	1	0.00		0

Latch Name	Get Requests	Misses	Sleeps	Spin Gets
ASM map operation hash table	55,700,678	122,079	196	121,883
messages	1,101,332	33,348	44	33,304
active checkpoint queue latch	394,858	23,002	77	22,925
kcfis latch	917,124	5,401	6	5,395
redo writing	346,639	4,885	8	4,877
undo global data	11,587,466	4,373	10	4,363
enqueue hash chains	830,451	981	1	980
channel operations parent latch	208,134	941	3	939
ges cached resource lists	184,374	609	5	604
object queue header operation	5,139,208	384	6	378
ges resource hash list	1,031,993	317	23	294
redo allocation	111,256	293	2	291
post/wait queue	262,394	190	1	189
Real-time descriptor latch	183,844	177	24	153
ASM map operation freelist	32,530	162	55	108
shared pool	295,723	150	13	138
KJC message pool free list	32,969	138	1	137
space background task latch	347	119	109	12
gcs resource hash	152,874	41	1	40
ges process parent latch	1,286,410	16	1	15
Shared context latch	31,007	4	2	2
query server process	2,292	1	1	0

Latch Name	Where	Sleeps	Waiter Sleeps
ASM map operation freelist	kffmTranslate2	55	55
ASM map operation hash table	kffmDoDone_1	99	65
ASM map operation hash table	kffmTranslate	97	131
KJC message pool free list	kjcspfmbq: free vector of msg buffers	1	0
Real-time descriptor latch	keomgAddNewEntry	22	24
Real-time descriptor latch	keomgFixGrabEntry	2	0
Shared context latch	ksm_mga_detach_whr2	2	0
active checkpoint queue latch	kcbbacq: scan active checkpoints	67	73
active checkpoint queue latch	kcbo_add_ckpt: Add last obj ckpt	5	2
active checkpoint queue latch	kcbkcpa: Checkpoint post-processing 2	2	0
active checkpoint queue latch	kcbo_add_ckpt: Add object ckpt 1	2	0
active checkpoint queue latch	kcbkcpa: Checkpoint post-processing	1	2
channel operations parent latch	ksrwait()	6	1
enqueue hash chains	ksqrcl	1	0
gcs resource hash	kclfwrite1	1	1
ges cached resource lists	kjruch: cached obj cleanup	3	0
ges cached resource lists	kjchc: clean resource cache	2	0
ges process parent latch	kjata_fg	1	0
ges resource hash list	kjucvl: lock convert request	11	2
ges resource hash list	kjakcai: search for resp by resname	4	4
ges resource hash list	kjlmfnd: search for lockp by rename and inst id	4	0
ges resource hash list	kjlrlr: remove lock from resource queue	4	17
kcfis latch	kcfis_update_recoverable_val	6	6
messages	ksarcv	25	20
messages	ksarcv: after wait	15	17
messages	ksaamb: after wakeup	4	7
object queue header operation	kcbo_write_q	6	0
object queue header operation	kcbo_service_ockpt	2	0
post/wait queue	kslpstevent:get	1	1
query server process	kxfpg1srv	1	0
redo allocation	kcrfw_redo_gen: redo allocation 1	2	0
redo writing	kcrfwcr	6	8
redo writing	kcrfw_cal_target_rba	2	0
space background task latch	ktsj_grab_task	100	108
space background task latch	ktsj_detach_task	6	1
undo global data	ktudba: KSLBEGIN	10	10
unknown latch	kghalo	13	11
unknown latch	No latch	3	0

Mutex Type	Location	Sleeps	Wait Time (ms)
Row Cache	[19] kqrpre	49	40
Cursor Stat	kkoarEndExec [KKSSTALOC18]	9	0
Row Cache	[06] kqrGetClusterLock	3	0
Library Cache	kgllkc1 57	3	0
Library Cache	kgllkdl1 85	1	0
Cursor Stat	kkoarSalvageStats [KKSSTALOC20]	1	0

Owner	Tablespace Name	Object Name	Subobject Name	Obj. Type	Obj#	Dataobj#	Logical Reads	%Total
CLO_NORMAL	IDXTBS	T_SESSION	T_SESSION_N1	TABLE PARTITION	98521	285499	3,121,418,928	88.20
CLO_NORMAL	IDXTBS	T_GAME_XYDC_DETAIL	T_GAME_XYDC_DETAIL_N1	TABLE PARTITION	98526	285498	353,953,440	10.00
CLO_NORMAL	CLO	T_GAME_XYDC	T_GAME_XYDC_N1	TABLE PARTITION	98536	285508	32,155,488	0.91
MISSING	TEMP	** MISSING: -39974637/71827584	MISSING	UNDEFINED	4254992659	71827584	32,592	0.00
CLO_NORMAL	IDXTBS	T_SESSION	T_SESSION_N4	TABLE PARTITION	98524	98524	28,928	0.00

Owner	Tablespace Name	Object Name	Subobject Name	Obj. Type	Obj#	Dataobj#	Physical Writes	%Total
CLO_NORMAL	IDXTBS	I_XYDC_DETAIL_SERIAL_DETAIL	T_GAME_XYDC_DETAIL_N1	INDEX PARTITION	98545	285505	81,427	42.01
CLO_NORMAL	IDXTBS	T_SESSION	T_SESSION_N1	TABLE PARTITION	98521	285499	18,375	9.48
CLO_NORMAL	IDXTBS	I_XYDCBONUS_SERIAL_DETAIL	T_GAME_XYDCBONUS_DTL_N1	INDEX PARTITION	98555	285507	14,148	7.30
CLO_NORMAL	CLO	I_GAME_XYDC_SERIAL	T_GAME_XYDC_N1	INDEX PARTITION	98550	285509	11,939	6.16
CLO_NORMAL	IDXTBS	T_GAME_XYDC_DETAIL	T_GAME_XYDC_DETAIL_N1	TABLE PARTITION	98526	285498	7,169	3.70

Owner	Tablespace Name	Object Name	Subobject Name	Obj. Type	Obj#	Dataobj#	CR Blocks Received	%Total
SYS	SYSAUX	WRH$_SEG_STAT_OBJ		TABLE	8481	8481	39	1.44
SYS	SYSAUX	WRH$_SYSSTAT_PK	WRH$_SYSSTAT_5801112_26985	INDEX PARTITION	285340	285340	17	0.63
SYS	SYSAUX	WRH$_ACTIVE_SESSION_HISTORY	WRH$_ACTIVE_SESSION_HISTORY_5801112_26985	TABLE PARTITION	285358	285358	12	0.44
SYS	SYSAUX	WRH$_SYSSTAT	WRH$_SYSSTAT_5801112_26985	TABLE PARTITION	285338	285338	11	0.41
SYS	SYSAUX	WRH$_SYSTEM_EVENT	WRH$_SYSTEM_EVENT_5801112_26985	TABLE PARTITION	285312	285312	10	0.37

Owner	Tablespace Name	Object Name	Subobject Name	Obj. Type	Obj#	Dataobj#	Current Blocks Received	%Total
SYS	SYSTEM	HISTGRM$		TABLE	66	64	121	4.18
SYS	SYSAUX	WRI$_ADV_PARAMETERS		TABLE	7707	7707	64	2.21
SYS	SYSAUX	WRI$_ADV_ADDM_TASKS		TABLE	7784	7784	50	1.73
SYS	SYSAUX	WRI$_ADV_PARAMETERS_PK		INDEX	7708	7708	50	1.73
SYS	SYSAUX	WRH$_EVENT_HISTOGRAM_PK	WRH$_EVENT_HISTOGRAM_5801112_26985	INDEX PARTITION	285387	285387	34	1.17

Cache	Get Requests	Pct Miss	Mod Reqs	Final Usage
dc_awr_control	66	0.00	2	1
dc_global_oids	2,020	2.77	0	64
dc_histogram_data	22,103	7.75	0	2,795
dc_histogram_defs	34,364	10.15	508	5,617
dc_object_grants	7	28.57	0	3
dc_objects	12,097	7.02	40	1,296
dc_props	505	0.20	0	2
dc_rollback_segments	107,874	0.00	0	8,298
dc_segments	1,806	49.17	13	1,187
dc_sequences	66	7.58	66	5
dc_tablespaces	206	5.34	0	13
dc_users	266	1.13	0	10
outstanding_alerts	9	100.00	0	9
sch_lj_oids	1	100.00	0	1

Namespace	Get Requests	Pct Miss	Pin Requests	Pct Miss	Reloads	Invali- dations
BODY	461	2.17	2,046	1.76	22	0
CLUSTER	82	1.22	82	1.22	0	0
DBLINK	13	7.69	0		0	0
EDITION	58	0.00	58	0.00	0	0
INDEX	201	12.94	201	16.92	8	0
OBJECT ID	10	100.00	0		0	0
QUEUE	62	0.00	62	0.00	0	0
SCHEMA	1,440	0.14	0		0	0
SQL AREA	6,169	34.46	62,537	4.92	114	15
SQL AREA BUILD	827	79.56	0		0	0
SQL AREA STATS	795	95.72	795	95.72	0	0
TABLE/PROCEDURE	4,566	20.83	15,258	11.92	83	0
TRANSFORMATION	62	0.00	62	0.00	0	0
TRIGGER	8	50.00	8	50.00	0	0

Component	Begin Snap Size (Mb)	Current Size (Mb)	Min Size (Mb)	Max Size (Mb)	Last Op Typ/Mod
ASM Buffer Cache	0.00	0.00	0.00	0.00	STA/
DEFAULT 16K buffer cache	0.00	0.00	0.00	0.00	STA/
DEFAULT 2K buffer cache	0.00	0.00	0.00	0.00	STA/
DEFAULT 32K buffer cache	0.00	0.00	0.00	0.00	STA/
DEFAULT 4K buffer cache	0.00	0.00	0.00	0.00	STA/
DEFAULT 8K buffer cache	0.00	0.00	0.00	0.00	STA/
DEFAULT buffer cache	4,192.00	4,192.00	4,192.00	4,800.00	SHR/IMM
Data Transfer Cache	0.00	0.00	0.00	0.00	STA/
In Memory RO Extension Area	0.00	0.00	0.00	0.00	STA/
In Memory RW Extension Area	0.00	0.00	0.00	0.00	STA/
In-Memory Area	0.00	0.00	0.00	0.00	STA/
KEEP buffer cache	0.00	0.00	0.00	0.00	STA/
PGA Target	2,048.00	2,048.00	2,048.00	2,048.00	STA/
RECYCLE buffer cache	0.00	0.00	0.00	0.00	STA/
SGA Target	0.00	0.00	0.00	0.00	STA/
Shared IO Pool	320.00	320.00	0.00	320.00	GRO/IMM
java pool	64.00	64.00	64.00	64.00	STA/
large pool	2,048.00	2,048.00	2,048.00	2,048.00	STA/
shared pool	3,296.00	3,296.00	3,008.00	3,296.00	GRO/IMM
streams pool	0.00	0.00	0.00	0.00	STA/

	Category	Alloc (MB)	Used (MB)	Avg Alloc (MB)	Std Dev Alloc (MB)	Max Alloc (MB)	Hist Max Alloc (MB)	Num Proc	Num Alloc
B	Freeable	21.25	0.00	0.46	0.51	3		46	46
B	Other	1,300.26		6.31	15.66	161	167	206	206
B	PL/SQL	18.76	7.70	0.09	0.41	4	9	204	203
B	SQL	771.06	759.59	5.39	3.69	8	56	143	133
B	Total	2,111.32	767.29	12.26	20.26	176	232	599	588
E	Freeable	23.94	0.00	0.51	0.50	3		47	47
E	Other	1,296.59		6.32	15.68	161	166	205	205
E	PL/SQL	19.26	8.17	0.09	0.41	4	9	203	203
E	SQL	767.57	758.52	5.37	3.69	8	56	143	132
E	Total	2,107.35	766.69	12.30	20.29	176	231	598	587

SGA regions	Begin Size (Bytes)	End Size (Bytes) (if different)
Database Buffers	4,731,174,912
Fixed Size	12,170,616
Redo Buffers	21,381,120
Variable Size	5,737,810,568

Resource Name	Current Utilization	Maximum Utilization	Limit
ges_cache_ress	108,183	108,970	UNLIMITED
smartio_buffer_memory	661,299,009	713,125,728	UNLIMITED
smartio_metadata_memory	354,368	547,552	UNLIMITED
smartio_overhead_memory	59,064,672	68,189,832	UNLIMITED
smartio_sessions	92	97	UNLIMITED

Parameter Name	Begin value	End value (if different)
_kgl_cluster_lock_read_mostly	TRUE
_lm_lmd_waittime	1
_optimizer_dsdir_usage_control	0
_use_single_log_writer	ADAPTIVE
audit_file_dest	/u01/app/oracle/admin/conndemo/adump
audit_trail	NONE
cluster_database	TRUE
commit_logging	IMMEDIATE
commit_wait	WAIT
compatible	12.2.0.1.0
connection_brokers	((TYPE=DEDICATED)(BROKERS=1)), ((TYPE=EMON)(BROKERS=1))
control_files	+DATA_TOP7/conndemo/control01.ctl, +DATA_TOP7/conndemo/control02.ctl, +DATA_TOP7/conndemo/control03.ctl
cpu_count	48
db_block_size	8192
db_cache_size	4697620480
db_create_file_dest	+DATA_TOP7
db_domain
db_name	conndemo
db_writer_processes	4
deferred_segment_creation	FALSE
diagnostic_dest	/u01/app/oracle
dispatchers	(PROTOCOL=TCP) (SERVICE=conndemoXDB)
event	27401 trace name context forever, level 16384
instance_number	2
large_pool_size	2147483648
listener_networks
local_listener	(ADDRESS=(PROTOCOL=TCP)(HOST=10.128.5.128)(PORT=1521)), (ADDRESS=(PROTOCOL=TCP)(HOST=10.128.5.128)(PORT=1522)), (ADDRESS=(PROTOCOL=TCP)(HOST=10.128.5.128)(PORT=1523))
open_cursors	300
optimizer_features_enable	12.1.0.2
parallel_adaptive_multi_user	FALSE
parallel_execution_message_size	16384
parallel_max_servers	96
parallel_min_servers	0
parallel_servers_target	96
parallel_threads_per_cpu	1
pga_aggregate_target	2147483648
plsql_warnings	DISABLE:ALL
processes	9000
recyclebin	OFF
remote_listener	scao08-scan1:1521
remote_login_passwordfile	EXCLUSIVE
resource_manager_plan
sessions	13536
sga_max_size	10502537216
shared_pool_size	3154116608
thread	2
threaded_execution	FALSE
undo_retention	600
undo_tablespace	UNDOTBS22
use_large_pages	ONLY

Parameter Name	Begin value	End value (if different)
connection_brokers	((TYPE=DEDICATED)(BROKERS=1))
connection_brokers	((TYPE=EMON)(BROKERS=1))
control_files	+DATA_TOP7/conndemo/control01.ctl
control_files	+DATA_TOP7/conndemo/control02.ctl
control_files	+DATA_TOP7/conndemo/control03.ctl
local_listener	(ADDRESS=(PROTOCOL=TCP)(HOST=10.128.5.128)(PORT=1521))
local_listener	(ADDRESS=(PROTOCOL=TCP)(HOST=10.128.5.128)(PORT=1522))
local_listener	(ADDRESS=(PROTOCOL=TCP)(HOST=10.128.5.128)(PORT=1523))

SQL ID	Plan Hash	Executions	% Activity	Event	% Event	Top Row Source	% Row Source	SQL Text
5h6jt076zc1rv	2500330285	2444	41.45	cell smart table scan	40.84	TABLE ACCESS - STORAGE FULL	40.84	SELECT DBNODEID, CARDID, BALAN...
1apy6ht1czbj8	1222527254	2337	39.64	cell smart table scan	38.96	TABLE ACCESS - STORAGE FULL	38.96	UPDATE T_SESSION SET WFDETAILI...
095ydz7c3nu7q	1222527254	262	4.44	cell smart table scan	4.43	TABLE ACCESS - STORAGE FULL	4.43	UPDATE T_SESSION SET ISCLIENTR...
0zs820bmk4rrv	1222527254	244	4.16	cell smart table scan	4.12	TABLE ACCESS - STORAGE FULL	4.12	UPDATE T_SESSION SET PRIZENOTA...
0u580ctgbsg4f	2500330285	229	3.88	cell smart table scan	3.78	TABLE ACCESS - STORAGE FULL	3.78	SELECT DBNODEID, CARDID, BALAN...

Sid, Serial#	% Activity	Event	% Event	User	Program	# Samples Active	XIDs
16,11261	1.03	cell smart table scan	1.02	CLO_NORMAL	java@scao08adm...m (TNS V1-V3)	60/62 [ 97%]	57
17,25923	1.03	cell smart table scan	1.03	CLO_NORMAL	java@scao08adm...m (TNS V1-V3)	61/62 [ 99%]	52
19, 3980	1.03	cell smart table scan	1.02	CLO_NORMAL	java@scao08adm...m (TNS V1-V3)	60/62 [ 97%]	58
299, 2663	1.03	cell smart table scan	1.00	CLO_NORMAL	java@scao08adm...m (TNS V1-V3)	59/62 [ 96%]	57
580,61651	1.03	cell smart table scan	1.00	CLO_NORMAL	java@scao08adm...m (TNS V1-V3)	59/62 [ 96%]	56

WORKLOAD REPOSITORY report for

Report Summary

Main Report

RAC Statistics

Exadata Configuration and Statistics

Wait Events Statistics

Time Model Statistics

Operating System Statistics

Operating System Statistics - Detail

Foreground Wait Class

Foreground Wait Events

Background Wait Events

Wait Event Histogram

Wait Event Histogram (up to 64 us)

Wait Event Histogram (up to 32 ms)

Wait Event Histogram (up to 2 sec)

Wait Event Histogram (up to 2 min)

Wait Event Histogram (up to 1 hr)

Service Statistics

Service Wait Class Stats

Top 10 Channel Waits

SQL Statistics

SQL ordered by Elapsed Time

SQL ordered by CPU Time

SQL ordered by User I/O Wait Time

SQL ordered by Gets

SQL ordered by Reads

SQL ordered by Physical Reads (UnOptimized)

SQL ordered by Offload Eligible Bytes

SQL ordered by Executions

SQL ordered by Parse Calls

SQL ordered by Sharable Memory

SQL ordered by Version Count

SQL ordered by Cluster Wait Time

Complete List of SQL Text

Instance Activity Statistics

Key Instance Activity Stats

Instance Activity Stats

Instance Activity Stats - Absolute Values

Instance Activity Stats - Thread Activity

IO Stats

IOStat by Function summary

IOStat by Filetype summary

IOStat by Function/Filetype summary

Tablespace IO Stats

File IO Stats

Buffer Pool Statistics

Buffer Pool Statistics

Checkpoint Activity

Advisory Statistics

Instance Recovery Stats

MTTR Advisory

Buffer Pool Advisory

PGA Aggr Summary

PGA Aggr Target Stats

PGA Aggr Target Histogram

PGA Memory Advisory

Shared Pool Advisory

SGA Target Advisory

Streams Pool Advisory

Java Pool Advisory

Wait Statistics

Buffer Wait Statistics

Enqueue Activity

Undo Statistics

Undo Segment Summary

Undo Segment Stats

Latch Statistics

Latch Activity

Latch Sleep Breakdown

Latch Miss Sources

Mutex Sleep Summary

Parent Latch Statistics

Child Latch Statistics

Segment Statistics

Segments by Logical Reads

Segments by Physical Reads

Segments by Physical Read Requests

Segments by UnOptimized Reads

Segments by Optimized Reads

Event	Event Class	Session Type	% Activity	Avg Active Sessions
cell smart table scan	User I/O	FOREGROUND	97.61	93.27
CPU + Wait for CPU	CPU	FOREGROUND	1.73	1.65

Event	% Event	P1, P2, P3 Values	% Activity	Parameter 1	Parameter 2	Parameter 3
cell smart table scan	97.61	"1400731673","0","0"	69.49	cellhash#	NOT DEFINED	NOT DEFINED
cell smart table scan	97.60854816824966078697421981004070556309	"3348064397","0","0"	13.28	cellhash#	NOT DEFINED	NOT DEFINED
cell smart table scan	97.60854816824966078697421981004070556309	"890490843","0","0"	8.63	cellhash#	NOT DEFINED	NOT DEFINED

Slot Time (Duration)	Slot Count	Event	Event Count	% Event
12:45:26 (4.6 min)	2,718	cell smart table scan	2,625	44.52
12:45:26 (4.6 min)	2718	CPU + Wait for CPU	75	1.27
12:45:26 (4.6 min)	2718	enq: KO - fast object checkpoint	6	0.10
12:50:00 (5.0 min)	2,890	cell smart table scan	2,843	48.22
12:50:00 (5.0 min)	2890	CPU + Wait for CPU	39	0.66
12:50:00 (5.0 min)	2890	RMA: IPC0 completion sync	2	0.03
12:55:00 (43 secs)	288	cell smart table scan	287	4.87
12:55:00 (43 secs)	288	CPU + Wait for CPU	1	0.02

Statistic	Total	per Second	per Trans
KA local message waits	0	0.00	0.00
KA local messages received	0	0.00	0.00
KA messages received actual	0	0.00	0.00
KA messages received logical	0	0.00	0.00
KA requests failed	0	0.00	0.00
KA requests succeeded	0	0.00	0.00
acks for commit broadcast(actual)	263	0.43	0.03
acks for commit broadcast(logical)	273	0.44	0.03
broadcast msgs on commit(actual)	11,778	19.09	1.22
broadcast msgs on commit(logical)	19,563	31.71	2.03
broadcast msgs on commit(wasted)	2,382	3.86	0.25
dynamically allocated gcs resources	0	0.00	0.00
dynamically allocated gcs shadows	0	0.00	0.00
flow control messages received	2	0.00	0.00
flow control messages sent	0	0.00	0.00
gcs apply delta	0	0.00	0.00
gcs assume cvt	0	0.00	0.00
gcs assume no cvt	148	0.24	0.02
gcs ast to fg	79	0.13	0.01
gcs ast xid	0	0.00	0.00
gcs bidless ast to lms	0	0.00	0.00
gcs blocked converts	339	0.55	0.04
gcs blocked cr converts	199	0.32	0.02
gcs compatible basts	52	0.08	0.01
gcs compatible cr basts (global)	18	0.03	0.00
gcs compatible cr basts (local)	1,282	2.08	0.13
gcs cr basts to PIs	0	0.00	0.00
gcs cr requests to slave	0	0.00	0.00
gcs cr serve without current lock	0	0.00	0.00
gcs dbwr flush pi msgs	24,155	39.15	2.51
gcs dbwr write request msgs	59	0.10	0.01
gcs delta msgs sent	0	0.00	0.00
gcs delta push aborted by cancel	0	0.00	0.00
gcs delta push aborted by remastering	0	0.00	0.00
gcs delta push cancelled	0	0.00	0.00
gcs delta push cancelled at master	0	0.00	0.00
gcs delta push cancelled by close	0	0.00	0.00
gcs delta push cancelled by consign	0	0.00	0.00
gcs delta push cancelled by cvt ping	0	0.00	0.00
gcs delta push cancelled by dwncvt	0	0.00	0.00
gcs delta push create pi	0	0.00	0.00
gcs delta update master msgs sent	0	0.00	0.00
gcs delta wait aborted by remastering	0	0.00	0.00
gcs delta wait cancelled	0	0.00	0.00
gcs error msgs	0	0.00	0.00
gcs flash read serve requests to slave	0	0.00	0.00
gcs force cr block only	2	0.00	0.00
gcs force cr grant	0	0.00	0.00
gcs force cr no current	0	0.00	0.00
gcs forward cr to pinged instance	0	0.00	0.00
gcs grant ast	79	0.13	0.01
gcs immediate (compatible) converts	32	0.05	0.00
gcs immediate (null) converts	276	0.45	0.03
gcs immediate cr (compatible) converts	0	0.00	0.00
gcs immediate cr (null) converts	149	0.24	0.02
gcs lms flush pi msgs	0	0.00	0.00
gcs lms write request msgs	36	0.06	0.00
gcs msgs process time(ms)	110	0.18	0.01
gcs msgs received	29,311	47.51	3.04
gcs new served by master	157	0.25	0.02
gcs out-of-order msgs	0	0.00	0.00
gcs pings refused	127	0.21	0.01
gcs pkey conflicts retry	0	0.00	0.00
gcs push delta	0	0.00	0.00
gcs queued converts	0	0.00	0.00
gcs reader bypass N->Xw ping local	0	0.00	0.00
gcs reader bypass N->Xw ping remote	0	0.00	0.00
gcs reader bypass grant X on assume	0	0.00	0.00
gcs reader bypass grant ast	0	0.00	0.00
gcs reader bypass grant fg ast	0	0.00	0.00
gcs reader bypass grant immediate	19	0.03	0.00
gcs recovery claim msgs	0	0.00	0.00
gcs refuse xid	0	0.00	0.00
gcs refuse xid to fg	0	0.00	0.00
gcs refuse xid to lms	0	0.00	0.00
gcs refuse xid to master	0	0.00	0.00
gcs regular cr	0	0.00	0.00
gcs retry convert request	0	0.00	0.00
gcs share recovery bast	0	0.00	0.00
gcs side channel msgs actual	41	0.07	0.00
gcs side channel msgs logical	290	0.47	0.03
gcs stale cr	279	0.45	0.03
gcs undo cr	1	0.00	0.00
gcs write notification msgs	1	0.00	0.00
gcs writes refused	5	0.01	0.00
ges msgs process time(ms)	641	1.04	0.07
ges msgs received	114,435	185.49	11.87
global posts dropped	0	0.00	0.00
global posts queue time	0	0.00	0.00
global posts queued	0	0.00	0.00
global posts requested	0	0.00	0.00
global posts sent	0	0.00	0.00
implicit batch messages received	349	0.57	0.04
implicit batch messages sent	6,177	10.01	0.64
lmd msg send time(ms)	0	0.00	0.00
lms(s) msg send time(ms)	0	0.00	0.00
messages flow controlled	32	0.05	0.00
messages queue sent actual	94,657	153.43	9.82
messages queue sent logical	25,940	42.05	2.69
messages received actual	137,563	222.98	14.27
messages received logical	143,740	232.99	14.91
messages sent directly	71,921	116.58	7.46
messages sent indirectly	57,657	93.46	5.98
messages sent not implicit batched	1	0.00	0.00
messages sent pbatched	59,117	95.83	6.13
msgs causing lmd to send msgs	0	0.00	0.00
msgs causing lms(s) to send msgs	0	0.00	0.00
msgs received queue time (ms)	699	1.13	0.07
msgs received queued	143,746	233.00	14.91
msgs sent queue time (ms)	255,423	414.03	26.50
msgs sent queue time on ksxp (ms)	2,627	4.26	0.27
msgs sent queued	114,368	185.38	11.86
msgs sent queued on ksxp	166,618	270.08	17.28
number of broadcasted resources	0	0.00	0.00
number of directly freed master res	168	0.27	0.02
number of ges deadlock detected	0	0.00	0.00
number of lock borrowed by LMD	0	0.00	0.00
number of received ODPS messages	17,812	28.87	1.85
number of resource borrowed by LMD	0	0.00	0.00
number of sent ODPS messages	29,554	47.91	3.07
process batch messages received	56,731	91.96	5.88
process batch messages sent	57,915	93.88	6.01

Statistic	Total
CR Block Requests	115
CURRENT Block Requests	95
Data Block Requests	115
Undo Block Requests	1
TX Block Requests	30
Current Results	210
Private results	0
Zero Results	0
Disk Read Results	0
Fail Results	0
Fairness Down Converts	129
Light Works	0
Flushes	8
Builds	115
Errors	0

Inst No	Block Class	Blocks Received	% Immed	% Busy	% Congst	Blocks Received	% Immed	% Busy	% Congst
		CR				Current
1	undo header	2,525	100.00	0.00	0.00	54	90.74	9.26	0.00
1	Others	10	100.00	0.00	0.00	2,132	98.92	1.08	0.00
1	data block	180	93.89	6.11	0.00	708	64.69	35.31	0.00

Inst No	Block Class	All	Immed	Busy	All	Immed	Busy
		CR Avg Time (us)			Current Avg Time (us)
1	undo header	114	114		204	206	185
1	others	172	172		70	69	183
1	data block	172	146	568	155	154	157
1	undo block

Used By	Send Mbytes/sec	Receive Mbytes/sec
Global Cache	0.01	0.07
Parallel Query	0.04	0.06
DB Locks	0.07	0.05
DB Streams
Other	0.05	0.01

Device Name	IP Address	Public	Source	Send Mbytes/sec	Send Errors	Send Dropped	Send Buffer Overrun	Send Carrier Lost	Receive Mbytes/sec	Receive Errors	Receive Dropped	Receive Buffer Overrun	Receive Frame Errors
ib0:1	169.254.4.119	NO		0.00	0	0	0	0	0.00	0	0	0	0
ib1:1	169.254.171.194	NO		0.00	0	0	0	0	0.00	0	0	0	0

Name	Begin Snap	End Snap
affinity objects	19	19
affinity objects (other inst)	1	1
read-mostly objects	2	2