Push the response time of application assessment Service
Hello
How long it takes to receive the credentials for the assessment of the Push function?
I did a request 3 days ago and has not received anything yet.
Thank you
I just got the credentials if the answer is about 3 days :-).
Tags: BlackBerry Developers
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Here's my current situation. I'm in MARCH the version 4.2.1 of the application I have a test environment 1-2821 router with IPS version of the module 12.4 T, 1-2621 router with net stream is running version 12.2, OS 1-2950 switch and a stand alone server MARCH. When I run the script to test the response time (the time it takes MARCH to warn me of the attack) it takes anywhere from 1/2 hour and 1 hour before the alarm appears where the dashboard is a way to improve the response time? Second, I see the IPS signatures in the syslog, but I don't see them on my request of MARCH during investigations into an attack. If I run a query for real-time, I see everything but cannot investigate the attack.
I wonder the usefulness of a VINE if you are not running the latest version of the software. Cisco is expected to provide the latest update for you. The question of the DST, for example, causing some of the major problems for us.
Run a real-time event query to determine if the events you generate are 'collected' immediately. If they are, what are the events? What rule expect you fire? Here is a description of the rules should work (they should take immediately before the start of any limitation).
http://ciscomars.blogspot.com/2007/02/guest-article-Mars-inspection-rule.html
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Hi guys,.
I am trying to use CD get time response data VI my VI. When I choose the pair of input-output, I can get the response data determined by the digital input to the output value. However, I need more of a pair of response data. I try to use the list of input-output, but there is no output data and response time of the VI with table 1 d of numbers.
My question is how to use the CD get time VI data response with the list of inputs-outputs configuration? Thank you.
Hey, Shapiro,.
I think the problem is you have two 0 items in the above table for you will be out this definition data twice. Let me know if this does not solve the problem for you.
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Windows saved user your-9409AD54SC\owner registry while an application or services was still using the registry during log off. The registry will be unloaded when no longer in use.
Hi Johnny,.
1. What is the exact error message you get?
2. Once you get the error message?
3 did you a recent software or changes to the material on the computer?
I suggest to go through the steps from the link provided and check if it helps.
You experience disconnection problems on a computer based on Windows XP, Windows Server 2003 - based, Windows 2000 or Windows NT 4.0-based
http://support.Microsoft.com/kb/837115
Hope this helps and provide us more information if you need more assistance. We will be happy to help.
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Problem with push the screen of an application
Hello
I developed an application with another point of entry. I have the main GUI application and an application that listens for push notifications. The background listener auto starts when the unit is turned on and tuned to push. When it receives the push message, it displays a popupscreen with the options 'launch' and 'Cancel '. By pressing 'start' should open the graphical application by pressing the main screen of the application. However, I get "ClassCastException" and I have no idea why.
I looked around and the process is similar to what I did, but somehow, it does not work for me. Can someone explain or show me how to push a background application screen?
See you soon!
Welcome to the forums!
I guess as you push a display context global [and maybe modal] 'launch' and 'Cancel' buttons. When you press 'start', then, you should not just push a screen - you should actually run the main application!
To do this, you must create an application with the appropriate settings and say ApplicationManager descriptor to run it. Take a look at the documentation ApplicationManager, especially the section "running an application with different arguments. Make sure the arguments are according to the needs of your main application, not the bottom one.
Only one problem: what happens if your application is already running but reduced? Don't worry - you try to run the same application with the same arguments will activate one already running!
Good luck!
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Get the response time more with First_Rows Hint.
Hello
I use 10.2.0.1.0 oracle version. I have a sql query that gives performance with cutting-edge FIRST_ROWS problem. I expect the best response time with suspicion of "FIRST_ROWS (5)", but his is the worst, with use of a different set of the index, which is local to the partition. Please, help me to understand, the reason behind this change in negative execution path?
Published by: 930254 on October 15, 2012 04:55First query gives all the ~3488 rows within ~1 minutes but the query with HINT is taking ~15 minutes for providing initial few rows itself. For second one i am not able to get the exact and estimated cardinality stats , as it was taking lot of time for completion, so providing Autotrace plan only. Main Query:930254 wrote:
Yes, Jonathan, in fact in the first case, i 'I' table is being analyzed using an overall index, but suspicion FIRST_ROW sound using the index that is local to the partition. resulting in the digitization of all partitions of 448. I think it's causing bottleneck. Is there something like: FIRST_ROW suspicion that affect this type of systematic index scan?In the first case the optimizer has unnested subquery of REACTION and used to bring to the table, I, and that's what dictated the choice of index.
In the case of first_rows (5) decided that the range index scan will take adequate data if some time he chose a different index - running subqueries in the REACTION as a subquery for filter on each line. But it is the estimate of how long it will find adequate data (and how much time he will have to run the subquery to eliminate unnecessary data) does not.
Concerning
Jonathan Lewis -
Need help, use the control Timer my application does not start
Hello guys
I have problems, follow the example signals and Slots, but when my application is running, it does not start.
If I delete all the code that deals with the Timer control, it's working again, my theory is that the CustomTimer library does not stunts
Can you help me?
Thank you very much
My guess is many people have followed this during the first startup, I certainly did and it worked for me.
It's probably something simple, missed, without seeing your code it's going to be difficult to diagnose.
My first advice is always to check the log and see if messages are coming that may be related.
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How to speed up the response time of strike
I used to be able to type quickly, but inadvertently, I changed something and now I can type only one letter a second.
You may have held the right shift key for 8 seconds which keys being turned on, press "filter". To check the filter keys:
1. go in the-> ease of access control panel
2. click on ease of access Center
3. under 'Explore all settings', click on the "make the keyboard easier to use".
4. on the brand of the keyboard easier to use"under"Make it easier to type", click on the box in front of"Turn on filter keys"to uncheck.
5. click on the app and save buttons.Facilitate the use of the keyboard
http://Windows.Microsoft.com/en-us/Windows-Vista/make-the-keyboard-easier-to-useIf that would not work in the case, it is a portable test removing the batteryand use your external power. See this thread:
typing is slow, he can't follow.
http://www.TomsHardware.com/Forum/49975-35-typing-keyboard-slow -
Problems with the response time of Vista
I bought a Dell Inspiron Laptopn with Vista on 17/05/2007. Mine is the slower machine in the office, and despite a 3 GB of memory. I recently bought a Dell Vostro with Windows 7. Great job with the product "7". How can I update my Dell Inspiron with Windows 7, I'm really sick of the speed it fires.
Also my IE crashes while browsing
First of all, make sure that your computer is compatible with Windows7 to http://windows-7-upgrade-advisor.en.softonic.com/. I, for example, can't be upgraded because of many devices that are not compatible (too many to simply be affected most upgraded).
For Windows7 questions, please post on the Forums of Windows7 to: http://social.answers.microsoft.com/Forums/en-US/category/windows7 where Windows7 experts will be happy to help you.
Good luck!
Lorien - MCSA/MCSE/network + / has + - if this post solves your problem, please click the 'Mark as answer' or 'Useful' button at the top of this message. Marking a post as answer, or relatively useful, you help others find the answer more quickly.
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Satellite M100-165 - for the LCD Panel response time
Hello.
Anyone know where I can find information on the reaction time of my LCD screen on my M100-165?
Does anyone know what is the response time LCD m100-165 (or m100 series)?
Thx for replies :)
Hello
The M100 series was delivered with a display type 200 WXGA 14.1 LTN141W1-L03-0.
To my knowledge this display should support a response speed of 25ms. -
Problems of monitoring of resources http (no response time)
Hey people,
I use HQ 4.4.0 to monitor a web application. As we seem to have problems with the response time of a few pages that I want to follow these pages using HQ.
I've added an http service and enter the following values: hostname, port, path, method.
However, I get no value for response time. Availability is ok in the browser (check symbol) view, but there is no value to make it in the monitor.
I checked the logs errors or advice, but found no one.
Any thoughts? I've added screenshots of inventory and monitor views.
THX,
NilsHello
In the screenshot of monitor.png, the date range is August 11. At this resource in stock at that time? If not please date rank of the last 60 minutes and see if the settings appear.
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DAC single sample write response time
I use the acquisition of data USB-6259. I wrote a simple loop to write permanently a single sample of an output to check the next time of turing analog voltage pos & neg. I have the 'writing analog DBL 1Chan 1Samp' connected to a 'multiply by neg 1 "in a loop. I run the application, and it seems that the response time is about 3msec between +/-. It's far too slow for my application. My application requires constantly reading and setting of the tensions. I get a high sampling frequency if I'm out a waveform. However, I didn't go out a waveform. I went out a voltage in response to a voltage reading. Is it possible to have a shorter response time? Is there another method (using C?) to improve response times?
Erik,
Windows is deterministic up to 1 ms, so there is no way we could get this application in the field of speed you need with the current hardware. I think that you could implement this with an FPGA, and we have many options available.
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Analysis of response time of NAM
I have 2 small question:
First: How Cisco NAM can calculate server, client and network responses while it is not the initiator of the traffic? It is based on the timestamps in data packets? All protocols put a timestamp in the header?
The second question is: how NAM classify clients and servers? as I see the servers appear as a customer.
Thanks in advance.
Performance (IAP) intelligent application monitoring is a key feature that provides the Nam: an ability to measure the response time of the transactions between the client and the server.
NAM monitors the flow of TCP packets between the client and the server and data response time to bring more visibility in time of response measures (ART) and the latency of the network.
Next image will share more details:
NAM request time response (it shows a representation of the total time of the operation as opposed to application response time)
Transaction time / response time measurements (lists and describes measures ART measured by NAM)
Possible NAM monitors conversation and the TCP packet flow between applications/server customers and where it grows the clients and servers.
-Thank you
Vinod
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SG200 - 26 [FW - 1.1.2.0]-very high response time: > 1000 ms!
Hello
Problem: New SG - 200 26 Smart Switch with the latest Firmware - very high response time 500-800 ms
We have a router of EdgeMarc 4500 with 10 VPN tunnels at 10 locations of brach. SG-200 26 Smart Switch is connected to 7 servers (Terminal 2, SQL and others), all locations have 50 MB download and download 20 MB of Verizon FiOS Internet service speed.
Depending on the tool Kulvik, the response time of this switch is around 500ms. At the same time, the response time of the EdgeMarc 4500 router is around 40ms and less.
We have 60 remote desktop computers connected to our SQL Server database and 40 users of RDP via Remote Desktop. The configuration is the same for 3 years. But we change the switch HP 1800 - 24G of Cisco because of some failures of connection. For connection failures, we first think the old switch from HP, but it looks like problem with router EdgeMarc.
This response time is normal? I have attached two screenshots of Switch Cisco and response time for the past 24 hours EdgeMarc router according to the tool Kulvik. Any other advice would be greatly appreciated. Thank you.
Hello Srinath,
Thank you for your participation in the community of support to small businesses. My name is Nico Muselle of Cisco Sofia HWC.
The response time of the switch can be considered quite normal. Reason for this is that the switch gives CPU priority to its actual tasks that would be sure to pass, lists of access, VLANs, QoS, multicast, and DHCP snooping etc etc. As a result, the switch itself ping response time does not show in any way the good operation of the switch.
I invite to try the rattling customers connected to the switch, you should be able to notice that the response time to customers are much lower than the response time of the switch itself.
I hope that answers your question!
Best regards
Nico glacier
Senior Network Engineer - CCNA - CCNA security
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Subquery Factoring - cardinality estimate good but bad sql response times
This is Exadata 11.2.0.4.0 database, all tables have statistics of up to date. Cardinality estimation is good compared to the actual cardinality. It is a way to tune this sql to reduce its response time.
Sorry for the long sql and the execution plan.
WITH SUBWITH0 AS (SELECT D1.c1 AS c1 FROM ( (SELECT D1.c1 AS c1 FROM (SELECT DISTINCT T7171.CH_ID_SYM AS c1 FROM DW.TM_R_REP T7171 WHERE ( T7171.CHILD_REP_ID = 939 ) ) D1 UNION SELECT D1.c1 AS c1 FROM (SELECT DISTINCT T7167.MEMBER_KEY_SYM AS c1 FROM DW.PC_T_REP T7167 WHERE ( T7167.ANCESTOR_KEY = 939 ) ) D1 ) ) D1 ), SUBWITH1 AS (SELECT D1.c1 AS c1 FROM ( (SELECT D1.c1 AS c1 FROM (SELECT DISTINCT T7171.CH_ID_SYM AS c1 FROM DW.TM_R_REP T7171 WHERE ( T7171.CHILD_REP_ID = 939 ) ) D1 UNION SELECT D1.c1 AS c1 FROM (SELECT DISTINCT T7167.MEMBER_KEY_SYM AS c1 FROM DW.PC_T_REP T7167 WHERE ( T7167.ANCESTOR_KEY = 939 ) ) D1 ) ) D1 ), SUBWITH2 AS (SELECT DISTINCT T7171.CH_ID_SYM AS c1 FROM ( DW.PC_T_REP T7167 LEFT OUTER JOIN DW.TM_R_REP T7171 ON T7167.ANCESTOR_KEY = T7171.CHILD_REP_ID AND T7167.SALESYEARMONTH = T7171.SALES_YEAR_MONTH) LEFT OUTER JOIN DW.TM_REP T6715 ON T7171.CHILD_REP_ID_N = T6715.REP_ID WHERE ( CASE WHEN T7171.CHILD_REP_ID_N LIKE '9999%' THEN concat(concat('UNASSIGNED', lpad(' ', 2)), CAST(T7167.TERRITORY_ID AS VARCHAR ( 20 ) )) ELSE concat(concat(concat(concat(T6715.FIRST_NAME, lpad(' ', 2)), T6715.MIDDLE_NAME), lpad(' ', 2)), T6715.LAST_NAME) END = 'JOES CRAMER' AND T7171.SALES_YEAR_MONTH BETWEEN '201505' AND '201505' AND T7171.CH_ID_SYM IN (SELECT DISTINCT D1.c1 AS c1 FROM SUBWITH0 D1 ) ) ), SUBWITH3 AS (SELECT MEMBER_KEY_SYM AS c1 FROM DW.PC_T_REP T7167 WHERE ( IS_LEAF = 1 ) ), SAWITH0 AS (SELECT DISTINCT CASE WHEN T7171.CHILD_REP_ID_N LIKE '9999%' THEN concat(concat('UNASSIGNED', lpad(' ', 2)), CAST(T7167.TERRITORY_ID AS VARCHAR ( 20 ) )) ELSE concat(concat(concat(concat(T6715.FIRST_NAME, lpad(' ', 2)), T6715.MIDDLE_NAME), lpad(' ', 2)), T6715.LAST_NAME) END AS c1, T6715.REP_NUM AS c2, T7171.SALES_YEAR_MONTH AS c3, T7315.MONTH_NUMERIC AS c4, CASE WHEN T7171.CH_ID_SYM IN (SELECT D1.c1 AS c1 FROM SUBWITH3 D1 ) THEN 1 ELSE 0 END AS c5, CAST(T7171.PARENT_REP_ID AS CHARACTER ( 30 ) ) AS c6, T7171.CH_ID_SYM AS c7, T7171.PARENT_REP_ID_SYM AS c8 FROM DW.TIM_MON T7315 , ( ( DW.PC_T_REP T7167 LEFT OUTER JOIN ( (SELECT TO_NUMBER(TO_CHAR(L_OPP.CloseDate,'YYYYMM')) AS Sales_Year_Month, Tm_Rep.Rep_Id AS Rep_Id, L_OPP.Account_Name__C AS Account_Name__C, L_OPP.Closedate AS Closedate, L_OPP.Forecastcategory AS Forecastcategory, L_OPP.Forecastcategoryname AS Forecastcategoryname, L_User.NAME AS Opp_Owner_S_Sales_Org__C, L_OPP.Opportunity_Id__C AS Opportunity_Id__C, L_OPP.Renewal_Date__C AS Renewal_Date__C, L_OPP.Total_Incremental__C AS Total_Incremental__C, L_OPP.Offer_Code__C AS Offer_Code__C, L_OPP.ID AS Opportunity_ID, L_OPP.TERRITORYID AS TERRITORYID, L_OPP.ACCOUNTID AS ACCOUNTID, L_OPP.OWNERID AS OWNERID, L_OPP.TOTAL_RENEWAL__C AS TOTAL_RENEWAL__C, L_OPP.NAME AS NAME, L_OPP.STAGENAME AS STAGE_NAME, L_OPP.STAGE_DESCRIPTION__C AS STAGE_DESCRIPTION, NVL( CASE WHEN L_OPP.Forecastcategory = 'Closed' AND( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN L_OPP.Total_Incremental__C END , 0) AS Closed_Oppurtunity, CASE WHEN L_OPP.Forecastcategory = 'Closed' AND ( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN 'Closed_Oppurtunity_Drill' END AS Closed_Oppurtunity_Drill, NVL( CASE WHEN L_OPP.Forecastcategoryname IN ('Pipeline', 'Potential', 'Commit') AND ( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN L_OPP.Total_Incremental__C END , 0) AS OPEN_Oppurtunity, CASE WHEN L_OPP.Forecastcategoryname IN ('Pipeline', 'Potential', 'Commit') AND ( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN 'OPEN_Oppurtunity_Drill' END AS OPEN_Oppurtunity_Drill, NVL( CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year1_Closed_Opp, CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN 'Renewal_Year1_Closed_Opp_Drill' END AS Renewal_Year1_Closed_Opp_Drill, NVL( CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year1_OPEN_Opp, CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN 'Renewal_Year1_OPEN_Opp_Drill' END AS Renewal_Year1_OPEN_Opp_Drill, NVL( CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year2_Closed_Opp, CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN 'Renewal_Year2_Closed_Opp_Drill' END AS Renewal_Year2_Closed_Opp_Drill, NVL( CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year2_OPEN_Opp, CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN 'Renewal_Year2_OPEN_Opp_Drill' END AS Renewal_Year2_OPEN_Opp_Drill FROM DW.OPP_C_DIM RIGHT OUTER JOIN RT.L_OPP ON (TO_CHAR(OPP_C_DIM.OFFER_CODE) =TO_CHAR(L_OPP.Offer_Code__C) AND (TO_CHAR(L_OPP.CloseDate,'YYYYMM')) = TO_CHAR(OPP_C_DIM.PERIOD)) LEFT OUTER JOIN RT.L_User ON (L_OPP.Ownerid=L_User.Id) LEFT OUTER JOIN DW.Tm_Rep ON (Tm_Rep.Rep_Num='0' ||L_User.Rep_Employee_Number__C) )) T774110 ON T7167.MEMBER_KEY = T774110.Rep_Id AND T7167.SALESYEARMONTH = T774110.Sales_Year_Month) LEFT OUTER JOIN DW.TM_R_REP T7171 ON T7167.ANCESTOR_KEY = T7171.CHILD_REP_ID AND T7167.SALESYEARMONTH = T7171.SALES_YEAR_MONTH) LEFT OUTER JOIN DW.TM_REP T6715 ON T7171.CHILD_REP_ID_N = T6715.REP_ID WHERE ( T774110.Sales_Year_Month = T7315.YEAR_MONTH AND T7171.CH_ID_SYM IN (SELECT DISTINCT D1.c1 AS c1 FROM SUBWITH2 D1 ) AND T7171.SALES_YEAR_MONTH BETWEEN '201505' AND '201505' AND T7171.CH_ID_SYM IN (SELECT DISTINCT D1.c1 AS c1 FROM SUBWITH1 D1 ) ) ), SAWITH1 AS (SELECT SUM(T774110.Renewal_Year2_OPEN_Opp) AS c9, SUM(T774110.Renewal_Year2_Closed_Opp) AS c10, SUM(T774110.Renewal_Year1_OPEN_Opp) AS c11, SUM(T774110.Renewal_Year1_Closed_Opp) AS c12, SUM(T774110.OPEN_Oppurtunity) AS c13, SUM(T774110.Closed_Oppurtunity) AS c14, T7315.MONTH_NUMERIC AS c15, T7171.CH_ID_SYM AS c16 FROM DW.TIM_MON T7315 , ( RT.L_ACCOUNT T765190 LEFT OUTER JOIN ( DW.PC_T_REP T7167 LEFT OUTER JOIN ( (SELECT TO_NUMBER(TO_CHAR(L_OPP.CloseDate,'YYYYMM')) AS Sales_Year_Month, Tm_Rep.Rep_Id AS Rep_Id, L_OPP.Account_Name__C AS Account_Name__C, L_OPP.Closedate AS Closedate, L_OPP.Forecastcategory AS Forecastcategory, L_OPP.Forecastcategoryname AS Forecastcategoryname, L_User.NAME AS Opp_Owner_S_Sales_Org__C, L_OPP.Opportunity_Id__C AS Opportunity_Id__C, L_OPP.Renewal_Date__C AS Renewal_Date__C, L_OPP.Total_Incremental__C AS Total_Incremental__C, L_OPP.Offer_Code__C AS Offer_Code__C, L_OPP.ID AS Opportunity_ID, L_OPP.TERRITORYID AS TERRITORYID, L_OPP.ACCOUNTID AS ACCOUNTID, L_OPP.OWNERID AS OWNERID, L_OPP.TOTAL_RENEWAL__C AS TOTAL_RENEWAL__C, L_OPP.NAME AS NAME, L_OPP.STAGENAME AS STAGE_NAME, L_OPP.STAGE_DESCRIPTION__C AS STAGE_DESCRIPTION, NVL( CASE WHEN L_OPP.Forecastcategory = 'Closed' AND( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN L_OPP.Total_Incremental__C END , 0) AS Closed_Oppurtunity, CASE WHEN L_OPP.Forecastcategory = 'Closed' AND ( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN 'Closed_Oppurtunity_Drill' END AS Closed_Oppurtunity_Drill, NVL( CASE WHEN L_OPP.Forecastcategoryname IN ('Pipeline', 'Potential', 'Commit') AND ( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN L_OPP.Total_Incremental__C END , 0) AS OPEN_Oppurtunity, CASE WHEN L_OPP.Forecastcategoryname IN ('Pipeline', 'Potential', 'Commit') AND ( OPP_C_DIM.OPPORTUNITIES_GROUP IS NULL ) THEN 'OPEN_Oppurtunity_Drill' END AS OPEN_Oppurtunity_Drill, NVL( CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year1_Closed_Opp, CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN 'Renewal_Year1_Closed_Opp_Drill' END AS Renewal_Year1_Closed_Opp_Drill, NVL( CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year1_OPEN_Opp, CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL1' THEN 'Renewal_Year1_OPEN_Opp_Drill' END AS Renewal_Year1_OPEN_Opp_Drill, NVL( CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year2_Closed_Opp, CASE WHEN L_OPP.Forecastcategory = 'Closed' AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN 'Renewal_Year2_Closed_Opp_Drill' END AS Renewal_Year2_Closed_Opp_Drill, NVL( CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN L_OPP.TOTAL_RENEWAL__C END , 0) AS Renewal_Year2_OPEN_Opp, CASE WHEN L_OPP.Forecastcategory IN ('Pipeline', 'Forecast', 'BestCase') AND OPP_C_DIM.OPPORTUNITIES_GROUP ='RENEWAL2' THEN 'Renewal_Year2_OPEN_Opp_Drill' END AS Renewal_Year2_OPEN_Opp_Drill FROM DW.OPP_C_DIM RIGHT OUTER JOIN RT.L_OPP ON (TO_CHAR(OPP_C_DIM.OFFER_CODE) =TO_CHAR(L_OPP.Offer_Code__C) AND (TO_CHAR(L_OPP.CloseDate,'YYYYMM')) = TO_CHAR(OPP_C_DIM.PERIOD)) LEFT OUTER JOIN RT.L_User ON (L_OPP.Ownerid=L_User.Id) LEFT OUTER JOIN DW.Tm_Rep ON (Tm_Rep.Rep_Num='0' ||L_User.Rep_Employee_Number__C) )) T774110 ON T7167.MEMBER_KEY = T774110.Rep_Id AND T7167.SALESYEARMONTH = T774110.Sales_Year_Month) ON T765190.ID = T774110.ACCOUNTID) LEFT OUTER JOIN DW.TM_R_REP T7171 ON T7167.ANCESTOR_KEY = T7171.CHILD_REP_ID AND T7167.SALESYEARMONTH = T7171.SALES_YEAR_MONTH WHERE ( T774110.Sales_Year_Month = T7315.YEAR_MONTH AND T7171.CH_ID_SYM IN (SELECT DISTINCT D1.c1 AS c1 FROM SUBWITH2 D1 ) AND T7171.SALES_YEAR_MONTH BETWEEN '201505' AND '201505' AND T7171.CH_ID_SYM IN (SELECT DISTINCT D1.c1 AS c1 FROM SUBWITH1 D1 ) ) GROUP BY T7171.CH_ID_SYM, T7315.MONTH_NUMERIC ) SELECT DISTINCT D2.c9 AS c1, D2.c10 AS c2, D2.c11 AS c3, D2.c12 AS c4, D2.c13 AS c5, D2.c14 AS c6, D1.c1 AS c7, D1.c2 AS c8, D1.c3 AS c9, D1.c4 AS c10, D1.c5 AS c11, D1.c6 AS c12, D1.c7 AS c13, D1.c8 AS c14 FROM SAWITH0 D1 INNER JOIN SAWITH1 D2 ON SYS_OP_MAP_NONNULL(D2.c15) = SYS_OP_MAP_NONNULL(D1.c4) AND SYS_OP_MAP_NONNULL(D2.c16) = SYS_OP_MAP_NONNULL(D1.c7) ORDER BY c10, c13SQL in real time, followed by the details with the Predicate Section of dbms_xplan.display_cursor shot
Global stats
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| Elapsed. CPU | E/S | Request | Cluster | Others | Pick up | Buffer | Read | Read | Write | Write | Cell |
| Time (s) | Time (s) | Waiting (s) | Waiting (s) | Waiting (s) | Waiting (s) | Calls | Gets | Reqs | Bytes | Reqs | Bytes | Unloading |
==============================================================================================================================
| 152. 146. 3.73 | 0.08 | 0.04 | 2.04 | 2. 16 M | 5223. 1 GB | 1. 200KB | 95,11% |
==============================================================================================================================
SQL details surveillance Plan (Plan hash value = 442312180)
===============================================================================================================================================================================================================================================
| ID | Operation | Name | Lines | Cost | Time | Start | Execs | Lines | Read | Read | Cell | MEM | Activity | Activity detail |
| | | | (Estimated) | | Active (s) | Active | | (Real) | Reqs | Bytes | Unloading | (Max) | (%) | (Number of samples).
===============================================================================================================================================================================================================================================
| 0 | SELECT STATEMENT | | | | 1. 152. 1. 0 | | | | | 0.65 | Cpu (1) |
| 1. RANGE OF PARTITION ALL THE | | 1. 3892 | | | 1. | | | | | | |
| 2. ACCESS STORAGE FULL FIRST RANKS TABLE. PC_T_REP | 1. 3892 | | | 37. | 74. 19 MB | 78.45% | 17 M | | |
| 3. TRANSFORMATION OF THE TEMPORARY TABLE. | | | 1. 152. 1. 1. | | | | | |
| 4. LOAD SELECT ACE | | | | 1. + 5 | 1. 1. | | | 278K | | |
| 5. VIEW | | 105. 3980 | 1. + 5 | 1. 13637 | | | | | | |
| 6. SORT UNIQUE | | 105. 3980 | 1. + 5 | 1. 13637 | | | | 757K | | |
| 7. UNION-ALL | | | | 1. + 5 | 1. 14033. | | | | | |
| 8. STORE TABLE FULL ACCESS | TM_R_REP | 22. 88. 1. + 5 | 1. 36. | | | | | |
| 9. RANGE OF PARTITION ALL THE | | 83. 3890. 1. + 5 | 1. 13997. | | | | | |
| 10. STORE TABLE FULL ACCESS | PC_T_REP | 83. 3890. 6. + 0 | 37. 13997. | | | 2 M | 0.65 | Smart cell table scan (1) |
| 11. LOAD SELECT ACE | | | | 1. + 5 | 1. 1. | | | 278K | | |
| 12. HASH UNIQUE | | 1. 4166. 1. + 5 | 1. 1. | | | 479K | | |
| 13. HASH JOIN | | 1. 4165 | 1. + 5 | 1. 444. | | | 1 M | | |
| 14. JOIN FILTER PART CREATE | : BF0000 | 3. 4075 | 1. + 5 | 1. 549. | | | | | |
| 15. OUTER HASH JOIN | | 3. 4075 | 1. + 5 | 1. 549. | | | 1 M | | |
| 16. HASH JOIN | | 3. 4068 | 1. + 5 | 1. 549. | | | 2 M | | |
| 17. VIEW | | 105. 3980 | 1. + 5 | 1. 13637 | | | | | | |
| 18. SORT UNIQUE | | 105. 3980 | 1. + 5 | 1. 13637 | | | | 757K | | |
| 19. UNION-ALL | | | | 1. + 5 | 1. 14033. | | | | | |
| 20. STORE TABLE FULL ACCESS | TM_R_REP | 22. 88. 1. + 5 | 1. 36. | | | | | |
| 21. RANGE OF PARTITION ALL THE | | 83. 3890. 1. + 5 | 1. 13997. | | | | | |
| 22. STORE TABLE FULL ACCESS | PC_T_REP | 83. 3890. 1. + 5 | 37. 13997. | | | 2 M | | |
| 23. STORE TABLE FULL ACCESS | TM_R_REP | 1884 | 88. 1. + 5 | 1. 1929 | | | | | | |
| 24. STORE TABLE FULL ACCESS | TM_REP | 7136 | 7. 1. + 5 | 1. 7137 | | | | | | |
| 25. RANGE OF SINGLE PARTITION | | 7449. 90. 1. + 5 | 1. 7449. | | | | | |
| 26. STORE TABLE FULL ACCESS | PC_T_REP | 7449. 90. 1. + 5 | 1. 7449. | | | | | |
| 27. SORT UNIQUE | | 1. 26032 | 1. 152. 1. 1. | | | 2048 | | |
| 28. OUTER HASH JOIN | | 1. 26031 | 72. + 81 | 1. 8238 | | | | 4 M | | |
| 29. FILTER | | | | 74. + 79 | 1. 8238 | | | | | 1.96 | Cpu (3) |
| 30. NESTED EXTERNAL LOOPS | | 1. 26027 | 72. + 81 | 1. 15 M | | | | | 3.27 | Cpu (5) |
| 31. HASH JOIN | | 1. 26026 | 72. + 81 | 1. 15 M | | | | 447K | 18.95 | Cpu (29) |
| 32. OUTER HASH JOIN | | 1. 13213 | 1. + 81 | 1. 332. | | | 452K | | |
| 33. HASH JOIN | | 1. 13206 | 1. + 81 | 1. 332. | | | 1 M | | |
| 34. HASH JOIN | | 1. 13199. 1. + 81 | 1. 444. | | | 434K | | |
| 35. HASH JOIN | | 1. 13197. 1. + 81 | 1. 444. | | | 290K | | |
| 36. JOIN CREATE FILTER | : BF0000 | 1. 13195. 1. + 81 | 1. 444. | | | | | |
| 37. HASH JOIN | | 1. 13195. 1. + 81 | 1. 444. | | | 2 M | | |
| 38. THE CARTESIAN MERGE JOIN. | 27. 13107 | 1. + 81 | 1. 7449. | | | | | |
| 39. HASH JOIN | | 1. 13017. 77. + 5 | 1. 1. | | | 750K | | |
| 40. STORE TABLE FULL ACCESS | TIM_MON | 1. 4. 1. + 5 | 1. 1. | | | | | |
| 41. VIEW | | 1. 13013. 1. + 81 | 1. 1. | | | | | |
| 42. HASH GROUP BY. | 1. 13013. 1. + 81 | 1. 1. | | | 482K | | |
| 43. OUTER HASH JOIN | | 1. 13012. 77. + 5 | 1. 8238 | | | | 4 M | | |
| 44. NESTED LOOPS | | 1. 13008. 77. + 5 | 1. 8238 | | | | | | |
| 45. FILTER | | | | 77. + 5 | 1. 8238 | | | | | 2.61 | Cpu (4) |
| 46. NESTED EXTERNAL LOOPS | | 1. 13007. 77. + 5 | 1. 15 M | | | | | 4.58. Cpu (7) |
| 47. HASH JOIN | | 1. 13006. 77. + 5 | 1. 15 M | | | | 424K | 11.76. Cpu (18) |
| 48. HASH JOIN | | 1. 193. 1. + 5 | 1. 332. | | | 1 M | | |
| 49. HASH JOIN | | 1. 186. 1. + 5 | 1. 444. | | | 420K | | |
| 50. HASH JOIN | | 4. 184. 1. + 5 | 1. 444. | | | 290K | | |
| 51. JOIN CREATE FILTER | : BF0002 | 1. 94. 1. + 5 | 1. 1. | | | | | |
| 52. JOIN FILTER PART CREATE | : BF0001 | 1. 94. 1. + 5 | 1. 1. | | | | | |
| 53. HASH JOIN | | 1. 94. 1. + 5 | 1. 1. | | | 290K | | |
| 54. JOIN CREATE FILTER | : BF0003 | 1. 6. 1. + 5 | 1. 1. | | | | | |
| 55. THE CARTESIAN MERGE JOIN. | 1. 6. 1. + 5 | 1. 1. | | | | | |
| 56. STORE TABLE FULL ACCESS | TIM_MON | 1. 4. 1. + 5 | 1. 1. | | | | | |
| 57. KIND OF BUFFER. | 1. 2. 1. + 5 | 1. 1. | | | 2048 | | |
| 58. VIEW | VW_NSO_1 | 1. 2. 1. + 5 | 1. 1. | | | | | |
| 59. UNIQUE HASH | | 1. | 1. + 5 | 1. 1. | | | 485K | | |
| 60. VIEW | | 1. 2. 1. + 5 | 1. 1. | | | | | |
| 61. STORE TABLE FULL ACCESS | SYS_TEMP_0FD9D71E1_B445AE36 | 1. 2. 1. + 5 | 1. 1. | | | | | |
| 62. USE OF JOIN FILTER | : BF0003 | 1884 | 88. 1. + 5 | 1. 1. | | | | | |
| 63. STORE TABLE FULL ACCESS | TM_R_REP | 1884 | 88. 1. + 5 | 1. 1. | | | | | |
| 64. USE OF JOIN FILTER | : BF0002 | 7449. 90. 1. + 5 | 1. 444. | | | | | |
| 65. RANGE OF SINGLE PARTITION | | 7449. 90. 5. + 1 | 1. 444. | | | | 0.65 | Cpu (1) |
| 66. STORE TABLE FULL ACCESS | PC_T_REP | 7449. 90. 1. + 5 | 1. 444. | | | | | |
| 67. VIEW | | 105. 2. 1. + 5 | 1. 13637 | | | | | | |
| 68. STORE TABLE FULL ACCESS | SYS_TEMP_0FD9D71E0_B445AE36 | 105. 2. 1. + 5 | 1. 13637 | | | | | | |
| 69. STORE TABLE FULL ACCESS | TM_REP | 7136 | 7. 1. + 5 | 1. 7137 | | | | | | |
| 70. STORE TABLE FULL ACCESS | L_OP | 19382 | 12813 | 77. + 5 | 1. 43879 | 565. 551 MB | 98.18% | 15 M | | |
| 71. TABLE ACCESS BY INDEX ROWID | L_US | 1. 1. 79. + 3 | 15 M | 15 M | 26. 208KO | | | 19.61 | Cpu (30) |
| 72. INDEX UNIQUE SCAN | L_US_PK | 1. | 77. + 5 | 15 M | 15 M | 2. 16384. | | 9 h 15 | Cpu (14) |
| 73. INDEX UNIQUE SCAN | L_A_PK | 1. 1. 151. + 2 | 8238 | 8238 | 3269 | 26 MB | | | 2.61 | Cpu (1) |
| | | | | | | | | | | | | | | monobloc cell physical read (3) |
| 74. STORE TABLE FULL ACCESS | OPP_C_DIM | 2304 | 4. 1. + 81 | 1. 2304 | 3. 112 KB | | | | |
| 75. KIND OF BUFFER. | 7449. 13107 | 1. + 81 | 1. 7449. | | | 370K | | |
| 76. RANGE OF SINGLE PARTITION | | 7449. 90. 1. + 81 | 1. 7449. | | | | | |
| 77. STORE TABLE FULL ACCESS | PC_T_REP | 7449. 90. 1. + 81 | 1. 7449. | | | | | |
| 78. STORE TABLE FULL ACCESS | TM_R_REP | 1884 | 88. 1. + 81 | 1. 1929 | | | | | | |
| 79. VIEW | | 1. 2. 1. + 81 | 1. 1. | | | | | |
| 80. USE OF JOIN FILTER | : BF0000 | 1. 2. 1. + 81 | 1. 1. | | | | | |
| 81. STORE TABLE FULL ACCESS | SYS_TEMP_0FD9D71E1_B445AE36 | 1. 2. 1. + 81 | 1. 1. | | | | | |
| 82. VIEW | | 105. 2. 1. + 81 | 1. 13637 | | | | | | |
| 83. STORE TABLE FULL ACCESS | SYS_TEMP_0FD9D71E0_B445AE36 | 105. 2. 1. + 81 | 1. 13637 | | | | | | |
| 84. STORE TABLE FULL ACCESS | TM_REP | 7136 | 7. 1. + 81 | 1. 7137 | | | | | | |
| 85. STORE TABLE FULL ACCESS | TM_REP | 7136 | 7. 1. + 81 | 1. 7137 | | | | | | |
| 86. STORE TABLE FULL ACCESS | L_OP | 19382 | 12813 | 72. + 81 | 1. 43879 | 593. 577 MB | 98,44% | 15 M | | |
| 87. TABLE ACCESS BY INDEX ROWID | L_US | 1. 1. 72. + 81 | 15 M | 15 M | | | | | 13.73. Cpu (21) |
| 88. INDEX UNIQUE SCAN | L_US_PK | 1. | 73. + 80 | 15 M | 15 M | | | | | 9.80 | Cpu (15) |
| 89. STORE TABLE FULL ACCESS | OPP_C_DIM | 2304 | 4. 1. 152. 1. 2304 | | | | | | |
===============================================================================================================================================================================================================================================
Information of predicates (identified by the operation identity card):
---------------------------------------------------
2. (("MEMBER_KEY_SYM" =: B1 ET "IS_LEAF" = 1) filter)
8 - storage("T7171".") CHILD_REP_ID "= 939)
filter ("T7171". ("CHILD_REP_ID" = 939)
10 - storage("T7167".") ANCESTOR_KEY "= 939)
filter ("T7167". ("ANCESTOR_KEY" = 939)
13 - access("T7167".") SALESYEARMONTH "= 'T7171'." SALES_YEAR_MONTH' AND 'T7167 '. "ANCESTOR_KEY"= "T7171". ("' CHILD_REP_ID")
filter (CASE WHEN TO_CHAR ("T7171". "CHILD_REP_ID_N") AS 9999% ' THEN 'ALL UNASSIGNED' | " CAST ("T7167". ("TERRITORY_ID" AS A VARCHAR (20)) ELSE 'T6715 '. "" NAME "| "
'||" T6715 ". "" MIDDLE_NAME "| " '||" T6715 ". ("" LAST_NAME "END ="JOES CRAMER")
15 - access("T7171".") CHILD_REP_ID_N "= 'T6715'." REP_ID")
16 - access("T7171".") CH_ID_SYM '= 'D1'.' C1")
20 - storage("T7171".") CHILD_REP_ID "= 939)
filter ("T7171". ("CHILD_REP_ID" = 939)
22 - storage("T7167".") ANCESTOR_KEY "= 939)
filter ("T7167". ("ANCESTOR_KEY" = 939)
23 - storage("T7171".") SALES_YEAR_MONTH "= 201505)
filter ("T7171". ("SALES_YEAR_MONTH" = 201505)
26 - storage("T7167".") SALESYEARMONTH "= 201505)
filter ("T7167". ("SALESYEARMONTH" = 201505)
28 - access (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM") = TO_CHAR ("OPP_C_DIM". " PERIOD") AND
TO_CHAR ("OPP_C_DIM". "OFFER_CODE") = "L_OP". ("' OFFER_CODE__C")
29 - filter("TM_REP".") REP_NUM "=" 0"|" » « « « L_US «. » REP_EMPLOYEE_NUMBER__C')
31 - access("T7315".") YEAR_MONTH «= TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP".» CLOSEDATE"),"YYYYMM")) AND
'T7167 '. «SALESYEARMONTH «= TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP".» (((("" CLOSEDATE "),"YYYYMM")))
32 - access("T7171".") CHILD_REP_ID_N "= 'T6715'." REP_ID")
33 - access("T7167".") MEMBER_KEY "=" TM_REP. " ("" REP_ID ")
34 - access("T7171".") CH_ID_SYM '= 'D1'.' C1")
35 - access("T7171".") CH_ID_SYM '= 'D1'.' C1")
37 - access (SYS_OP_MAP_NONNULL ("D2". "C16") = SYS_OP_MAP_NONNULL ("T7171". " CH_ID_SYM") AND"T7167 ". "SALESYEARMONTH"= "T7171". "" SALES_YEAR_MONTH "AND
'T7167 '. "ANCESTOR_KEY"= "T7171". ("' CHILD_REP_ID")
39 - access (SYS_OP_MAP_NONNULL ("D2". "C15") = SYS_OP_MAP_NONNULL ("T7315". " MONTH_NUMERIC'))
40 - storage("T7315".") YEAR_MONTH "= 201505)
filter ("T7315". ("YEAR_MONTH" = 201505)
43 - access (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM") = TO_CHAR ("OPP_C_DIM". " PERIOD") AND
TO_CHAR ("OPP_C_DIM". "OFFER_CODE") = "L_OP". ("' OFFER_CODE__C")
45 - filter("TM_REP".") REP_NUM "=" 0"|" » « « « L_US «. » REP_EMPLOYEE_NUMBER__C')
47 - access("T7315".") YEAR_MONTH «= TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP".» CLOSEDATE"),"YYYYMM")) AND
'T7167 '. «SALESYEARMONTH «= TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP".» (((("" CLOSEDATE "),"YYYYMM")))
48 - access("T7167".") MEMBER_KEY "=" TM_REP. " ("" REP_ID ")
49 - access("T7171".") CH_ID_SYM '= 'D1'.' C1")
50 - access("T7167".") SALESYEARMONTH "= 'T7171'." SALES_YEAR_MONTH' AND 'T7167 '. "ANCESTOR_KEY"= "T7171". ("' CHILD_REP_ID")
53 - access("T7171".") CH_ID_SYM "=" C1")
56 - storage("T7315".") YEAR_MONTH "= 201505)
filter ("T7315". ("YEAR_MONTH" = 201505)
63 - storage (("T7171". "SALES_YEAR_MONTH" = 201505 AND SYS_OP_BLOOM_FILTER (: BF0000, "T7171" ".") CH_ID_SYM')))
filter (("T7171". "SALES_YEAR_MONTH" = 201505 AND SYS_OP_BLOOM_FILTER (: BF0000, "T7171" ".") CH_ID_SYM')))
66 - storage (("T7167". "SALESYEARMONTH" = 201505 AND SYS_OP_BLOOM_FILTER (: BF0000, "T7167" ".") SALESYEARMONTH', 'T7167 '. ((("" ANCESTOR_KEY ")))
filter (("T7167". "SALESYEARMONTH" = 201505 AND SYS_OP_BLOOM_FILTER (: BF0000, "T7167" ".") SALESYEARMONTH', 'T7167 '. ((("" ANCESTOR_KEY ")))
70 - storage ((TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) > = 201505 AND "
TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) (< = 201505)) "
filter ((TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) > = 201505 AND "
TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) (< = 201505)) "
72 - access("L_OP".") OWNERID "=" L_US. " (' ' ID ')
73 - access("T765190".") WITH THE ID "=" L_OP. " ("' ACCOUNTID ')
77 - storage("T7167".") SALESYEARMONTH "= 201505)
filter ("T7167". ("SALESYEARMONTH" = 201505)
78 - storage("T7171".") SALES_YEAR_MONTH "= 201505)
filter ("T7171". ("SALES_YEAR_MONTH" = 201505)
81 - storage (SYS_OP_BLOOM_FILTER (: BF0000, "C0"))
filter (SYS_OP_BLOOM_FILTER (: BF0000, "C0"))
86 - storage ((TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) > = 201505 AND "
TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) (< = 201505)) "
filter ((TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) > = 201505 AND "
TO_NUMBER (TO_CHAR (INTERNAL_FUNCTION ("L_OP". "CLOSEDATE"), "YYYYMM")) (< = 201505)) "
88 - access("L_OP".") OWNERID "=" L_US. " (' ' ID ')
Note
-----
-dynamic sample used for this survey (level = 4)
-Automatic DOP: calculated degree of parallelism is 1 because of the parallel threshold
Although the table meet statistical why dynamic sampling is to be used? Why 15 million times ID 71, 72, 87 and 88 are executed, curious because that is where most of the time is spent. How can we reduce this 15 million probes?
Suggestions to reduce the response time sql would be useful.
Post edited by: Yasu masking of sensitive information (literal value)
YASU says:
For educational purposes could you please clarify why the optimizer has evaluated the join condition in the functioning of the FILTER to 15 million lines?
This is unusual, but TM_REP is attached to another PC_T_REP table using a join operation, so maybe it's the explanation of why it is moved to a FILTER operation had been delayed - could also be a side effect of the combination of ANSI join processing (Oracle internally transforms ANSI joins in Oracle join syntax) and the transformation of outer join internally.
Very curious to know how this is possible, could you please give us the hint/tour, you can use to push the inner join down execution plan is evaluated as soon as possible to reduce the data to be processed? I have a sql plus, where the situation is almost similar - ranks of filtering 2 million to the hash JOIN operation and return 0 rows. I can post the details of sql here but not to mix different sql question in the same post. Please let me know if you would like to give the details of this sql in this same thread, or a different thread? I searched for this type of information, but to no avail, so could you please suggest how this is possible, if not for this long sql then at least please provide a few examples/suggestions?
Normally you can influence this through the appropriate join order, for example with the help of the LEADING indicator, for filter indicator PUSH_SUBQ subqueries can also be useful for filtering at the beginning. But here the comment of Franck is particularly important - by leaning on the Cartesian join this problem here should be less relevant.
As I already said I would recommend here from scratch and think that all that this query is supposed to average and the question why most outer joins is actually converted into inner joins - the current query example returns the correct result?
Randolf
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