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Improve Oracle performance with ASM filter driver

Sometimes the results found in performance testing can be a bit of a surprise. I have recently been preparing for an upcoming presentation on Oracle ASM. As part of the preperation it seemed a good idea to become more familiar with ASM Filter Driver and learn a little about how it works. ASM Filter Driver was introduced in Oracle 12.1 as an alternative to ASMLib. Following are the expected benefits as shown in the Oracle documentation: About ASM Filter Driver - Oracle ASM Filter Driver simplifies the configuration and management of disk devices by eliminating the need to rebind disk devices used with Oracle ASM each time the system is restarted. - Oracle ASM Filter Driver rejects any I/O requests that are invalid. This action eliminates accidental overwrites of Oracle ASM disks that would cause corruption in the disks and files within the disk group. The testing for this presentation is being done with Oracle Grid Infrastructure 12.2 and Oracle RDBMS Enterprise Edition 12.2. The platform is Oracle Enterprise Linux 6.9. Initially the testing was limited to Virtual Machines via Oracle VirtualBox. ASM was to be compared when disks were physically managed by each of the following in turn: - udev - ASMLib - ASM Filter Driver For each test two disk groups were created; DATA and ALIGNED. The DATA diskgroup was for the database installation, while ALIGNED was strictly for testing. The ALIGNED diskgroup was normal redundancy using two disks. Oracle memory was constrained so as to force Oracle to do as much IO as possible using the following settings, and then the instance restarted.
alter system set parallel_max_servers = 2 scope=both;
 alter system set db_cache_size = 64M scope=both;
 alter system set recyclebin = 'off' scope=spfile;
 alter system set sga_max_size=512M scope=spfile;
 alter system set sga_target=512M scope=spfile;
 alter system set job_queue_processes = 0 scope=both;
 
Each test database was configured as an Oracle 12.2 CDB with a single PDB. The testing was done with SLOB, a well known Oracle IO performance testing tool. The contents of slob.conf for the VirtualBox tests:
UPDATE_PCT=50
 SCAN_PCT=0
 RUN_TIME=600
 SCALE=512M
 SCAN_TABLE_SZ=1M
 WORK_UNIT=32
 REDO_STRESS=LITE
 LOAD_PARALLEL_DEGREE=2
 AWR_SRC=AWR_PDB
 THREADS_PER_SCHEMA=4
 DATABASE_STATISTICS_TYPE=awr # Permitted values: [statspack|awr]
 DBA_PRIV_USER="system"
 SYSDBA_PASSWD="XXX"
 EXTERNAL_SCRIPT=''
 DO_HOTSPOT=FALSE
 HOTSPOT_MB=8
 HOTSPOT_OFFSET_MB=16
 HOTSPOT_FREQUENCY=3
 HOT_SCHEMA_FREQUENCY=0
 THINK_TM_FREQUENCY=0
 THINK_TM_MIN=.1
 THINK_TM_MAX=.5
 
Several tests were run in each ASM configuration, with increasing numbers of sessions. Each test ran 10 minutes. For this article I will consider only one set of results per configuration, as the results were consistent between different numbers of sessions. Let's first consider the results for udev testing. As there is nothing yet to compare them to, there is not yet much to discuss.

ASM udev AWR Report

Host Name Platform CPUs Cores Sockets Memory(GB)
 ---------------- -------------------------------- ---- ----- ------- ----------
 ora12cR2-asm.jks Linux x86 64-bit 2 2 1 7.80
  Snap Id Snap Time Sessions Curs/Sess
  --------- ------------------- -------- ---------
 Begin Snap: 5 08-Jan-18 11:34:16 9 1.4
  End Snap: 6 08-Jan-18 11:44:19 1 4.0
  Elapsed: 10.04 (mins)
  DB Time: 80.06 (mins)
 Load Profile Per Second Per Transaction Per Exec Per Call
 ~~~~~~~~~~~~~~~ --------------- --------------- --------- ---------
  DB Time(s): 8.0 0.1 0.03 50.03
  DB CPU(s): 0.8 0.0 0.00 5.20
  Redo size (bytes): 1,305,547.7 9,560.6
  Logical read (blocks): 10,029.3 73.5
  Block changes: 8,801.6 64.5
  Physical read (blocks): 7,656.6 56.1
 Physical write (blocks): 0.0 0.0
  Read IO requests: 7,656.5 56.1
  Write IO requests: 0.0 0.0
  Read IO (MB): 59.8 0.4
  Executes (SQL): 300.1 2.2
  Transactions: 136.6
 Top 10 Foreground Events by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Avg % DB Wait
 Event Waits Time (sec) Wait time Class
 ------------------------------ ----------- ---------- --------- ------ --------
 db file sequential read 2,398,817 3925.9 1.64ms 81.7 User I/O
 DB CPU 499.1 10.4
 db file parallel read 63,404 237 3.74ms 4.9 User I/O
 free buffer waits 4,834 32.4 6.70ms .7 Configur
 enq: TX - row lock contention 140 4.3 31.03ms .1 Applicat
 write complete waits 12 2.7 227.81ms .1 Configur
 latch: cache buffers lru chain 2,597 2.6 1.00ms .1 Other
 latch: cache buffers chains 643 1.1 1.67ms .0 Concurre
 latch: object queue header ope 1,080 .9 850.18us .0 Other
 log file switch (private stran 27 .9 32.79ms .0 Configur
 Wait Classes by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Wait % DB Active
 Wait Class Waits Time (sec) Time time Sessions
 ---------------- ---------------- ---------------- ---------- ------ --------
 User I/O 2,462,948 4,164 1.69ms 86.7 6.9
 DB CPU 499 10.4 0.8
 Configuration 4,886 36 7.38ms .8 0.1
 Application 140 4 31.03ms .1 0.0
 Other 4,525 4 933.36us .1 0.0
 Concurrency 1,041 3 3.10ms .1 0.0
 System I/O 234 0 1.20ms .0 0.0
 Commit 5 0 1.29ms .0 0.0
 Network 63 0 87.22us .0 0.0
 IO Profile Read+Write/Second Read/Second Write/Second
 ~~~~~~~~~~ ----------------- --------------- ---------------
  Database Requests: 7,656.5 7,656.5 0.0
  Optimized Requests: 0.0 0.0 0.0
  Redo Requests:
  Total (MB): 59.8 59.8 0.0
  Database (MB): 59.8 59.8 0.0
  Optimized Total (MB): 0.0 0.0 0.0
  Redo (MB):
  Database (blocks): 7,656.6 7,656.6 0.0
  Via Buffer Cache (blocks): 7,656.6 7,656.6 0.0
  Direct (blocks): 0.0 0.0 0.0
 
Next up was testing with ASMLib. Take a look at the IO metrics as compared to udev. ASMLib performance is somewhat better than with udev. Redo size per second is a good indicator of how much DML work was done. With udev this was 1,305,547.7 bytes per second. With ASMLib that value jumps to 1,377,287.6 bytes per second. This is approximately a 5% performance improvement. The book Database Cloud Storage: The Essential Guide to Oracle Automatic Storage Management makes the claim that one of the goals of ASMLib was to improve IO performance as compared to standard Linux means (filesystem , udev) and that seems to be the case, at least for DML. The performance advantage in this case does not seem to be due to disk access speeds, as those are quite close when comparing udev to ASMLib. When comparing transactions per second however we can see that ASMLib managed to do 144.5 per second while udev managed only 136.6 per second. This is seen also in the 'Block Changes' metrics. The 'Read IO Requests' and 'Physical Read' metrics though are telling a different story, as udev consistently outperformed ASMLib in this area. The slight performance advantage of ASMLib held steady over many tests with varying loads. This SLOB test was done the update configuration set to 50%. The comparison might favor udev with less DML.

ASM ASMLib AWR Report

Host Name Platform CPUs Cores Sockets Memory(GB)
 ---------------- -------------------------------- ---- ----- ------- ----------
 ora12cR2-asm.jks Linux x86 64-bit 2 2 1 7.80
  Snap Id Snap Time Sessions Curs/Sess
  --------- ------------------- -------- ---------
 Begin Snap: 1 07-Jan-18 16:10:14 9 1.3
  End Snap: 2 07-Jan-18 16:20:18 2 5.5
  Elapsed: 10.07 (mins)
  DB Time: 80.15 (mins)
 Load Profile Per Second Per Transaction Per Exec Per Call
 ~~~~~~~~~~~~~~~ --------------- --------------- --------- ---------
  DB Time(s): 8.0 0.1 0.02 43.32
  DB CPU(s): 0.9 0.0 0.00 4.67
  Redo size (bytes): 1,377,287.6 9,528.5
  Logical read (blocks): 10,633.8 73.6
  Block changes: 9,323.1 64.5
  Physical read (blocks): 7,239.6 50.1
 Physical write (blocks): 0.0 0.0
  Read IO requests: 7,235.5 50.1
  Write IO requests: 0.0 0.0
  Read IO (MB): 56.6 0.4
  Executes (SQL): 323.2 2.2
  Transactions: 144.5
 Top 10 Foreground Events by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Avg % DB Wait
 Event Waits Time (sec) Wait time Class
 ------------------------------ ----------- ---------- --------- ------ --------
 db file sequential read 2,271,558 3835.6 1.69ms 79.8 User I/O
 DB CPU 517.9 10.8
 db file parallel read 64,721 250.1 3.86ms 5.2 User I/O
 free buffer waits 4,430 26 5.87ms .5 Configur
 write complete waits 17 4 235.56ms .1 Configur
 latch: cache buffers lru chain 2,837 3.2 1.12ms .1 Other
 enq: TX - row lock contention 138 2.7 19.82ms .1 Applicat
 Wait Classes by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Wait % DB Active
 Wait Class Waits Time (sec) Time time Sessions
 ---------------- ---------------- ---------------- ---------- ------ --------
 User I/O 2,337,385 4,089 1.75ms 85.0 6.8
 DB CPU 518 10.8 0.9
 Configuration 4,615 38 8.28ms .8 0.1
 Other 5,414 8 1.39ms .2 0.0
 Concurrency 1,109 7 6.36ms .1 0.0
 Application 138 3 19.82ms .1 0.0
 System I/O 1,045 2 1.51ms .0 0.0
 Commit 5 0 1.09ms .0 0.0
 Network 79 0 22.23us .0 0.0
 IO Profile Read+Write/Second Read/Second Write/Second
 ~~~~~~~~~~ ----------------- --------------- ---------------
  Database Requests: 7,235.5 7,235.5 0.0
  Optimized Requests: 0.0 0.0 0.0
  Redo Requests:
  Total (MB): 56.9 56.6 0.3
  Database (MB): 56.6 56.6 0.0
  Optimized Total (MB): 0.0 0.0 0.0
  Redo (MB):
  Database (blocks): 7,239.6 7,239.6 0.0
  Via Buffer Cache (blocks): 7,237.6 7,237.6 0.0
  Direct (blocks): 2.0 2.0 0.0
 
 
Next up is the ASMFD test. This is where it gets interesting.

ASM ASMFD AWR Report

Host Name Platform CPUs Cores Sockets Memory(GB)
 ---------------- -------------------------------- ---- ----- ------- ----------
 ora12cR2-asm.jks Linux x86 64-bit 2 2 1 7.80
  Snap Id Snap Time Sessions Curs/Sess
  --------- ------------------- -------- ---------
 Begin Snap: 1 06-Jan-18 12:57:49 9 1.3
  End Snap: 2 06-Jan-18 13:07:52 1 6.0
  Elapsed: 10.05 (mins)
  DB Time: 80.14 (mins)
 Load Profile Per Second Per Transaction Per Exec Per Call
 ~~~~~~~~~~~~~~~ --------------- --------------- --------- ---------
  DB Time(s): 8.0 0.1 0.02 42.55
  DB CPU(s): 1.0 0.0 0.00 5.32
  Redo size (bytes): 1,556,388.0 9,427.8
  Logical read (blocks): 12,134.8 73.5
  Block changes: 10,635.6 64.4
  Physical read (blocks): 8,373.7 50.7
 Physical write (blocks): 0.0 0.0
  Read IO requests: 8,371.7 50.7
  Write IO requests: 0.0 0.0
  Read IO (MB): 65.4 0.4
  Executes (SQL): 374.6 2.3
  Transactions: 165.1
 Top 10 Foreground Events by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Avg % DB Wait
 Event Waits Time (sec) Wait time Class
 ------------------------------ ----------- ---------- --------- ------ --------
 db file sequential read 2,756,045 2331.5 845.96us 48.5 User I/O
 free buffer waits 107,173 1016.7 9.49ms 21.1 Configur
 DB CPU 600.9 12.5
 write complete waits 415 364.4 877.97ms 7.6 Configur
 db file parallel read 42,696 70.3 1.65ms 1.5 User I/O
 enq: TX - row lock contention 146 39.2 268.23ms .8 Applicat
 latch: cache buffers lru chain 7,307 10.8 1.48ms .2 Other
 Wait Classes by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Wait % DB Active
 Wait Class Waits Time (sec) Time time Sessions
 ---------------- ---------------- ---------------- ---------- ------ --------
 User I/O 2,800,364 2,405 858.87us 50.0 4.0
 Configuration 108,005 1,431 13.25ms 29.8 2.4
 DB CPU 601 12.5 1.0
 Other 13,260 44 3.29ms .9 0.1
 Application 147 40 272.08ms .8 0.1
 Concurrency 1,750 11 6.35ms .2 0.0
 System I/O 1,098 2 1.39ms .0 0.0
 Commit 4 0 557.50us .0 0.0
 Network 79 0 25.48us .0 0.0
 IO Profile Read+Write/Second Read/Second Write/Second
 ~~~~~~~~~~ ----------------- --------------- ---------------
  Database Requests: 8,371.7 8,371.7 0.0
  Optimized Requests: 0.0 0.0 0.0
  Redo Requests:
  Total (MB): 65.8 65.4 0.4
  Database (MB): 65.4 65.4 0.0
  Optimized Total (MB): 0.0 0.0 0.0
  Redo (MB):
  Database (blocks): 8,373.7 8,373.7 0.0
  Via Buffer Cache (blocks): 8,371.7 8,371.7 0.0
  Direct (blocks): 2.0 2.0 0.0
 
Following is a comparison of some key IO metrics. The IO performance shown when using ASM Filter Driver is significantly better than with ASMLib.
Metric ASMLib ASMFD
Redo Size 1,377,287.6 1,556,388.0
Logical read (blocks) 10,633.8 12,134.8
Block changes 9,323.1 10,635.6
Physical Read (blocks) 7,239.6 8,373.7
Read IO requests 7,235.5 8,371.7
Read IO (MB) 56.6 65.4
Executes (SQL) 323.2 374.6
Transactions 144.5 165.1
db file sequential read time 1.69ms 845.96us
db file parallel read time 3.86ms 1.65ms
User IO Avg Wait time 1.75ms 858.87us
Thinking the results might be anomalous, I rebuilt each of the VirtualBox environment and retested. The results were the same. Even so, I wanted to see this running on something other than my laptop and see if the results would hold. Using a spare PC in my office, I installed Oracle 6.9 and then the same versions of Oracle software as used in the VBox environments. The Oracle configurations was slightly different due to the disks involved; they disks were no longer speedy SSD, but old and slow spinning hard drives. No matter, the tests could still be performed, there would just be less IO. First testing ASMFD and then ASMLib, the results showed that ASMFD still had a clear advantage of about 30% better IO performance when compared to ASMLib. This is certainly not a result I was expecting (ie. can these be correct?). So, I decided at this time to scale the testing up a bit and build a system that looked more like something used in a production environment. The new test environment was built on Amazon AWS using the following specifications - EC2 m4.4xlarge: 16 vCPU and 64G of RAM - 10 20G EBS volumes for Oracle using default SSD provisioning - the same Oracle Linux, Grid and RDBMs versions. This time the size of the data would be increased as well as the number of sessions, and the tests would be run for 60 minutes each. Here's the slob.conf for the AWS tests:
UPDATE_PCT=30
 SCAN_PCT=20
 RUN_TIME=3600
 SCALE=8192M
 SCAN_TABLE_SZ=1M
 WORK_UNIT=32
 REDO_STRESS=LITE
 LOAD_PARALLEL_DEGREE=2
 AWR_SRC=AWR_PDB
 THREADS_PER_SCHEMA=4
 DATABASE_STATISTICS_TYPE=awr # Permitted values: [statspack|awr]
 DBA_PRIV_USER="system"
 SYSDBA_PASSWD="grok"
 EXTERNAL_SCRIPT=''
 DO_HOTSPOT=FALSE
 HOTSPOT_MB=8
 HOTSPOT_OFFSET_MB=16
 HOTSPOT_FREQUENCY=3
 HOT_SCHEMA_FREQUENCY=0
 THINK_TM_FREQUENCY=0
 THINK_TM_MIN=.1
 THINK_TM_MAX=.5
 
The testing was changed a bit with UPDATE_PCT reduced from 50 to 30, and SCAN_PCT increased from 0 to 20. The number of SLOB schemas was set at 4, and 3 tests performed using 16, 32 and 48 sessions. This article will consider the AWR reports generated for 16 sessions. The reports for 32 and 48 sessions show similar results in terms of performance comparisons. First up is the ASMLib report. Please note the following discrepancy: the number of sessions at Begin Snapshot time is 113. This is most likely due to this test starting immediately after the parallel data load, as only 16 Sessions were started for the SLOB test. If you take a look at the Avg Active Sessions you will see it is 13.3. Performance looks reasonably good with 4.71ms average for 'db file sequential read' and 28.62ms for 'db file parallel read'.

EC2: ASM ASMLib AWR Report

Host Name Platform CPUs Cores Sockets Memory(GB)
 ---------------- -------------------------------- ---- ----- ------- ----------
  Snap Id Snap Time Sessions Curs/Sess
  --------- ------------------- -------- ---------
 Begin Snap: 6 16-Jan-18 16:51:35 113 .8
  End Snap: 7 16-Jan-18 17:51:40 1 4.0
  Elapsed: 60.10 (mins)
  DB Time: 1,153.40 (mins)
 Load Profile Per Second Per Transaction Per Exec Per Call
 ~~~~~~~~~~~~~~~ --------------- --------------- --------- ---------
  DB Time(s): 19.2 0.3 0.09 66.93
  DB CPU(s): 0.3 0.0 0.00 0.87
  Redo size (bytes): 919,510.5 16,502.9
  Logical read (blocks): 10,875.3 195.2
  Block changes: 3,963.8 71.1
  Physical read (blocks): 4,804.2 86.2
 Physical write (blocks): 0.0 0.0
  Read IO requests: 4,804.1 86.2
  Write IO requests: 0.0 0.0
  Read IO (MB): 37.5 0.7
  Executes (SQL): 214.2 3.8
  Transactions: 55.7
 Top 10 Foreground Events by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Avg % DB Wait
 Event Waits Time (sec) Wait time Class
 ------------------------------ ----------- ---------- --------- ------ --------
 db file sequential read 7,059,935 33.3K 4.71ms 48.1 User I/O
 db file parallel read 518,432 14.8K 28.62ms 21.4 User I/O
 free buffer waits 1,128,101 11K 9.76ms 15.9 Configur
 write complete waits 546 2049.9 3754.38ms 3.0 Configur
 DB CPU 895.6 1.3
 Wait Classes by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Wait % DB Active
 Wait Class Waits Time (sec) Time time Sessions
 ---------------- ---------------- ---------------- ---------- ------ --------
 User I/O 7,583,176 48,095 6.34ms 69.5 13.3
 Configuration 1,129,536 13,120 11.62ms 19.0 3.6
 DB CPU 896 1.3 0.2
 Concurrency 12,641 636 50.32ms .9 0.2
 Other 131,861 196 1.49ms .3 0.1
 Application 25 1 58.61ms .0 0.0
 System I/O 3,616 1 374.80us .0 0.0
 Commit 62 0 1.75ms .0 0.0
 Network 686 0 1.96us .0 0.0
 IO Profile Read+Write/Second Read/Second Write/Second
 ~~~~~~~~~~ ----------------- --------------- ---------------
  Database Requests: 4,804.1 4,804.1 0.0
  Optimized Requests: 0.0 0.0 0.0
  Redo Requests:
  Total (MB): 37.7 37.5 0.2
  Database (MB): 37.5 37.5 0.0
  Optimized Total (MB): 0.0 0.0 0.0
  Redo (MB):
  Database (blocks): 4,804.2 4,804.2 0.0
  Via Buffer Cache (blocks): 4,804.2 4,804.2 0.0
  Direct (blocks): 0.0 0.0 0.0
 
 
The system was reconfigured to use ASM Filter Driver, and following are the results for the same SLOB Tests: The performance advantage for ASM Filter Driver is holding true, though not quite as dramatic as that seen in earlier tests. The 'db file sequential read' read metric has improved from 4.71ms to to 3.86ms for a 22% performance improvement over ASMLib. Similarly 'db file parallel read' has improved from 28.62ms to 23.57ms for a 21% improvement over ASMLib.

EC2: ASM ASMFD AWR Report

Host Name Platform CPUs Cores Sockets Memory(GB)
 ---------------- -------------------------------- ---- ----- ------- ----------
  Snap Id Snap Time Sessions Curs/Sess
  --------- ------------------- -------- ---------
 Begin Snap: 3 16-Jan-18 00:07:59 18 1.2
  End Snap: 4 16-Jan-18 01:08:40 2 5.0
  Elapsed: 60.68 (mins)
  DB Time: 960.87 (mins)
 Load Profile Per Second Per Transaction Per Exec Per Call
 ~~~~~~~~~~~~~~~ --------------- --------------- --------- ---------
  DB Time(s): 15.8 0.2 0.07 245.33
  DB CPU(s): 0.3 0.0 0.00 4.22
  Redo size (bytes): 1,016,316.4 14,801.0
  Logical read (blocks): 11,508.6 167.6
  Block changes: 4,442.6 64.7
  Physical read (blocks): 5,889.0 85.8
 Physical write (blocks): 0.0 0.0
  Read IO requests: 5,888.9 85.8
  Write IO requests: 0.0 0.0
  Read IO (MB): 46.0 0.7
  Executes (SQL): 231.5 3.4
  Transactions: 68.7
 Top 10 Foreground Events by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Avg % DB Wait
 Event Waits Time (sec) Wait time Class
 ------------------------------ ----------- ---------- --------- ------ --------
 db file sequential read 8,483,787 32.8K 3.86ms 56.9 User I/O
 db file parallel read 558,673 13.2K 23.57ms 22.8 User I/O
 write complete waits 76 2291.6 30.15 s 4.0 Configur
 free buffer waits 91,629 1978.3 21.59ms 3.4 Configur
 DB CPU 992.1 1.7
 log file switch (checkpoint in 256 129.9 507.48ms .2 Configur
 Wait Classes by Total Wait Time
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  Total Wait Wait % DB Active
 Wait Class Waits Time (sec) Time time Sessions
 ---------------- ---------------- ---------------- ---------- ------ --------
 User I/O 9,046,694 45,955 5.08ms 79.7 12.6
 Configuration 92,917 4,603 49.54ms 8.0 1.3
 DB CPU 992 1.7 0.3
 Concurrency 1,723 243 141.01ms .4 0.1
 Other 12,198 91 7.49ms .2 0.0
 System I/O 3,518 1 370.00us .0 0.0
 Application 23 1 46.94ms .0 0.0
 Commit 8 0 602.25us .0 0.0
 Network 163 0 1.41us .0 0.0
 IO Profile Read+Write/Second Read/Second Write/Second
 ~~~~~~~~~~ ----------------- --------------- ---------------
  Database Requests: 5,888.9 5,888.9 0.0
  Optimized Requests: 0.0 0.0 0.0
  Redo Requests:
  Total (MB): 46.2 46.0 0.2
  Database (MB): 46.0 46.0 0.0
  Optimized Total (MB): 0.0 0.0 0.0
  Redo (MB):
  Database (blocks): 5,889.0 5,889.0 0.0
  Via Buffer Cache (blocks): 5,889.0 5,889.0 0.0
  Direct (blocks): 0.0 0.0 0.0
 
 
Let's take a look at the same table of metrics seen previously:

ASMLIb vs ASMFD IO Metrics

Metric ASMLib ASMFD
Redo Size 919,510.5 1,016,316.4
Logical read (blocks) 10,875.3 11,508.6
Block changes 3,963.8 4,442.6
Physical Read (blocks) 4,804.2 5,889.0
Read IO requests 4,804.1 5,888.9
Read IO (MB) 37.5 46.0
Executes (SQL) 214.2 231.5
Transactions 55.7 68.7
db file sequential read time 4.71ms 3.86ms
db file parallel read time 28.62ms 23.57ms
User IO Avg Wait time 6.34ms 5.08ms
Following the multiple tests on the EC2 system I was prepared to believe the results. In this case ASM Filter Driver clearly has better IO performance than ASMLib. No testing was done with udev, as all previous tests showed that ASMLib and udev were quite similar in performance, dependent on the type of IO load. So the question now is "Why is ASMFD performing so much better than ASMLib?" The ultimate answer to that question will be found among the architects and developers of ASMFD and is not likely to be published. A patent search might turn up some indications, though I had not yet tried that. We can however get some idea of where the performance gains may be coming from. Perhaps you have heard of Flamegraphs? Flamegraphs are a visualization of profiled software. This allows the most frequent code paths to be quickly identified. Profiling was performed on the VBox environments for both ASMLib and ASMFD. The tests were scaled back to a single session for the purpose of simplifying the profile generation. Each test was run for 10 minutes. The SLOB script slob.sql was modified to call 'call-perf.sql'

slob.sql

...
 -- SET SERVEROUTPUT OFF ;
 SET SERVEROUTPUT ON ;
 SET VERIFY OFF;
 
 --@@call-perf.sql
 
 DECLARE
 ...
 
call-perf.sql in turn calls a root shell script that calls runs perf on the session to be profiled

call-perf.sql

col mypid new_value mypid
 
 select
  p.spid mypid
 from v$session s, v$process p
 where p.addr = s.paddr
  and userenv('SESSIONID') = s.audsid
 /
 
 host su

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