Thursday Jan 23, 2014

SPARC T5-2 Delivers World Record 2-Socket Application Server for SPECjEnterprise2010 Benchmark

Oracle's SPARC T5-2 servers have set the world record for the SPECjEnterprise2010 benchmark using two-socket application servers with a result of 17,033.54 SPECjEnterprise2010 EjOPS. The result used two SPARC T5-2 servers, one server for the application tier and the other server for the database tier.

  • The SPARC T5-2 server delivered 29% more performance compared to the 2-socket IBM PowerLinux server result of 13,161.07 SPECjEnterprise2010 EjOPS.

  • The two SPARC T5-2 servers have 1.2x better price performance than the two IBM PowerLinux 7R2 POWER7+ processor-based servers (based on hardware plus software configuration costs for both tiers). The price performance of the SPARC T5-2 server is $35.99 compared to the IBM PowerLinux 7R2 at $44.75.

  • The SPARC T5-2 server demonstrated 1.5x more performance compared to Oracle's x86-based 2-socket Sun Server X4-2 system (Ivy Bridge) result of 11,259.88 SPECjEnterprise2010 EjOPS. Oracle holds the top x86 2-socket application server SPECjEnterprise2010 result.

  • This SPARC T5-2 server result represents the best performance per socket for a single system in the application tier of 8,516.77 SPECjEnterprise2010 EjOPS per socket.

  • The application server used Oracle Fusion Middleware components including the Oracle WebLogic 12.1 application server and Java HotSpot(TM) 64-Bit Server VM on Solaris, version 1.7.0_45. The database server was configured with Oracle Database 12c Release 1.

  • This result demonstrated less than 1 second average response times for all SPECjEnterprise2010 transactions and represents Jave EE 5.0 transactions generated by 139,000 users.

Performance Landscape

Select 2-socket single application server results. Complete benchmark results are at the SPEC website, SPECjEnterprise2010 Results.

SPECjEnterprise2010 Performance Chart
1/22/2014
Submitter EjOPS* Java EE Server DB Server
Oracle 17,033.54 1 x SPARC T5-2
2 x 3.6 GHz SPARC T5
Oracle WebLogic 12c (12.1.2)
1 x SPARC T5-2
2 x 3.6 GHz SPARC T5
Oracle Database 12c (12.1.0.1)
IBM 13,161.07 1x IBM PowerLinux 7R2
2 x 4.2 GHz POWER 7+
WebSphere Application Server V8.5
1x IBM PowerLinux 7R2
2 x 4.2 GHz POWER 7+
IBM DB2 10.1 FP2
Oracle 11,259.88 1x Sun Server X4-2
2 x 2.7 GHz Intel Xeon E5-2697 v2
Oracle WebLogic 12c (12.1.2)
1x Sun Server X4-2L
2 x 2.7 GHz Intel Xeon E5-2697 v2
Oracle Database 12c (12.1.0.1)

* SPECjEnterprise2010 EjOPS (bigger is better)

Configuration Summary

Application Server:

1 x SPARC T5-2 server, with
2 x 3.6 GHz SPARC T5 processors
512 GB memory
2 x 10 GbE dual-port NIC
Oracle Solaris 11.1 (11.1.13.6.0)
Oracle WebLogic Server 12c (12.1.2)
Java HotSpot(TM) 64-Bit Server VM on Solaris, version 1.7.0_45

Database Server:

1 x SPARC T5-2 server, with
2 x 3.6 GHz SPARC T5 processors
512 GB memory
1 x 10 GbE dual-port NIC
2 x 8 Gb FC HBA
Oracle Solaris 11.1 (11.1.13.6.0)
Oracle Database 12c (12.1.0.1)

Storage Servers:

2 x Sun Server X4-2L (24-Drive), with
2 x 2.6 GHz Intel Xeon
64 GB memory
1 x 8 Gb FC HBA
4 x Sun Flash Accelerator F80 PCI-E Cards
Oracle Solaris 11.1

Benchmark Description

SPECjEnterprise2010 is the third generation of the SPEC organization's J2EE end-to-end industry standard benchmark application. The new SPECjEnterprise2010 benchmark has been re-designed and developed to cover the Java EE 5 specification's significantly expanded and simplified programming model, highlighting the major features used by developers in the industry today. This provides a real world workload driving the Application Server's implementation of the Java EE specification to its maximum potential and allowing maximum stressing of the underlying hardware and software systems,

  • The web zone, servlets, and web services
  • The EJB zone
  • JPA 1.0 Persistence Model
  • JMS and Message Driven Beans
  • Transaction management
  • Database connectivity
Moreover, SPECjEnterprise2010 also heavily exercises all parts of the underlying infrastructure that make up the application environment, including hardware, JVM software, database software, JDBC drivers, and the system network.

The primary metric of the SPECjEnterprise2010 benchmark is jEnterprise Operations Per Second (SPECjEnterprise2010 EjOPS). The primary metric for the SPECjEnterprise2010 benchmark is calculated by adding the metrics of the Dealership Management Application in the Dealer Domain and the Manufacturing Application in the Manufacturing Domain. There is NO price/performance metric in this benchmark.

Key Points and Best Practices

  • Two Oracle WebLogic server instances on the SPARC T5-2 server were hosted in 2 separate Oracle Solaris Zones.
  • The Oracle WebLogic application servers were executed in the FX scheduling class to improve performance by reducing the frequency of context switches.
  • The Oracle log writer process was run in the RT scheduling class.

See Also

Disclosure Statement

SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 1/22/2014. SPARC T5-2, 17,033.54 SPECjEnterprise2010 EjOPS; IBM PowerLinux 7R2, 13,161.07 SPECjEnterprise2010 EjOPS; Sun Server X4-2, 11,259.88 SPECjEnterprise2010 EjOPS.

The SPARC T5-2 configuration cost is the total application and database server hardware plus software. List price is $613,052 from http://www.oracle.com as of 1/22/2014. The IBM PowerLinux 7R2 configuration total hardware plus software list price is $588,970 based on public pricing from http://www.ibm.com as of 1/22/2014. Pricing does not include database storage hardware for IBM or Oracle.

Thursday Sep 26, 2013

SPARC T5-8 Delivers World Record Single Server SPECjEnterprise2010 Benchmark, Utilizes Virtualized Environment

Oracle produced a world record single-server SPECjEnterprise2010 benchmark result of 36,571.36 SPECjEnterprise2010 EjOPS using one of Oracle's SPARC T5-8 servers for both the application and the database tier. Oracle VM Server for SPARC was used to virtualize the system to achieve this result.

  • The 8-chip SPARC T5 processor based server is 3.3x faster than the 8-chip IBM Power 780 server (POWER7+ processor based).

  • The SPARC T5-8 has 4.4x better price performance than the IBM Power 780, a POWER7+ processor based server (based on hardware plus software configuration costs). The price performance of the SPARC T5-8 server is $40.68 compared to the IBM Power 780 at $177.41. The IBM Power 780, POWER7+ based system has 1.2x better performance per core, but this did not reduce the total software and hardware cost to the customer. As shown by this comparison, performance-per-core is a poor predictor of characteristics relevant to customers. The SPARC T5-8 virtualized price performance was also less than the low-end IBM PowerLinux 7R2 at $62.26.

  • The SPARC T5-8 server ran the Oracle Solaris 11.1 operating system and used Oracle VM Server for SPARC to consolidate ten Oracle WebLogic application server instances and one database server instance to achieve this result.

  • This result demonstrated sub-second average response times for all SPECjEnterprise2010 transactions and represents JEE 5.0 transactions generated by 299,000 users.

  • The SPARC T5-8 server requires only 8 rack units, the same as the space of the IBM Power 780. In this configuration IBM has a hardware core density of 4 cores per rack unit which contrasts with the 16 cores per rack unit for the SPARC T5-8 server. This again demonstrates why performance-per-core is a poor predictor of characteristics relevant to customers.

  • The application server used Oracle Fusion Middleware components including the Oracle WebLogic 12.1 application server and Java HotSpot(TM) 64-Bit Server VM on Solaris, version 1.7.0_25. The database server was configured with Oracle Database 12c Release 1.

  • The SPARC T5-8 server is 2.8x faster than a non-virtualized IBM POWER7+ based server result (one server for application and one server for database), the IBM PowerLinux 7R2 achieved 13,161.07 SPECjEnterprise2010 EjOPS.

Performance Landscape

SPECjEnterprise2010 Performance Chart
Only Three Virtualized Results (App+DB on 1 Server) as of 9/23/2013
Submitter EjOPS* Chips per Server Java EE Server & DB Server
App DB
Oracle 36,571.36 5 3 1 x SPARC T5-8
8 chips, 128 cores, 3.6 GHz SPARC T5
Oracle WebLogic 12c (12.1.2)
Oracle Database 12c (12.1.0.1)
Oracle 27,843.57 4 4 1 x SPARC T5-8
8 chips, 128 cores, 3.6 GHz SPARC T5
Oracle WebLogic 12c (12.1.1)
Oracle Database 11g (11.2.0.3)
IBM 10,902.30 4 4 1 x IBM Power 780
8 chips, 32 cores, 4.42 GHz POWER7+
WebSphere Application Server V8.5
IBM DB2 Universal Database 10.1

* SPECjEnterprise2010 EjOPS (bigger is better)

Complete benchmark results are at the SPEC website, SPECjEnterprise2010 Results.

Configuration Summary

Oracle Summary

Application and Database Server:

1 x SPARC T5-8 server, with
8 x 3.6 GHz SPARC T5 processors
2 TB memory
9 x 10 GbE dual-port NIC
6 x 8 Gb dual-port HBA
Oracle Solaris 11.1 SRU 10.5
Oracle VM Server for SPARC
Oracle WebLogic Server 12c (12.1.2)
Java HotSpot(TM) 64-Bit Server VM on Solaris, version 1.7.0_25
Oracle Database 12c (12.1.0.1)

Storage Servers:

6 x Sun Server X3-2L (12-Drive), with
2 x 2.4 GHz Intel Xeon
16 GB memory
1 x 8 Gb FC HBA
4 x Sun Flash Accelerator F40 PCI-E Card
Oracle Solaris 11.1

2 x Sun Storage 2540-M2 Array
12 x 600 GB 15K RPM SAS HDD

Switch Hardware:

1 x Sun Network 10 GbE 72-port Top of Rack (ToR) Switch

IBM Summary

Application and Database Server:

1 x IBM Power 780 server, with
8 x 4.42 GHz POWER7+ processors
786 GB memory
6 x 10 GbE dual-port NIC
3 x 8 Gb four-port HBA
IBM AIX V7.1 TL2
IBM WebSphere Application Server V8.5
IBM J9 VM (build 2.6, JRE 1.7.0 IBM J9 AIX ppc-32)
IBM DB2 10.1
IBM InfoSphere Optim pureQuery Runtime v3.1.1

Storage:

2 x DS5324 Disk System with
48 x 146 GB 15K E-DDM Disks

1 x v7000 Disk Controller with
16 x 400 GB SSD Disks

Benchmark Description

SPECjEnterprise2010 is the third generation of the SPEC organization's J2EE end-to-end industry standard benchmark application. The new SPECjEnterprise2010 benchmark has been re-designed and developed to cover the Java EE 5 specification's significantly expanded and simplified programming model, highlighting the major features used by developers in the industry today. This provides a real world workload driving the Application Server's implementation of the Java EE specification to its maximum potential and allowing maximum stressing of the underlying hardware and software systems,
  • The web zone, servlets, and web services
  • The EJB zone
  • JPA 1.0 Persistence Model
  • JMS and Message Driven Beans
  • Transaction management
  • Database connectivity
Moreover, SPECjEnterprise2010 also heavily exercises all parts of the underlying infrastructure that make up the application environment, including hardware, JVM software, database software, JDBC drivers, and the system network.

The primary metric of the SPECjEnterprise2010 benchmark is jEnterprise Operations Per Second (SPECjEnterprise2010 EjOPS). The primary metric for the SPECjEnterprise2010 benchmark is calculated by adding the metrics of the Dealership Management Application in the Dealer Domain and the Manufacturing Application in the Manufacturing Domain. There is NO price/performance metric in this benchmark.

Key Points and Best Practices

  • Ten Oracle WebLogic server instances on the SPARC T5-8 server were hosted in 10 separate Oracle Solaris Zones within a separate guest domain on 80 cores (5 cpu chips).
  • The database ran in a separate guest domain consisting of 47 cores (3 cpu chips). One core was reserved for the primary domain.
  • The Oracle WebLogic application servers were executed in the FX scheduling class to improve performance by reducing the frequency of context switches.
  • The Oracle log writer process was run in the FX scheduling class at processor priority 60 to use the Critical Thread feature.

See Also

Disclosure Statement

SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 9/23/2013. SPARC T5-8, 36,571.36 SPECjEnterprise2010 EjOPS (using Oracle VM for SPARC and 5+3 split); SPARC T5-8, 27,843.57 SPECjEnterprise2010 EjOPS (using Oracle Zones and 4+4 split); IBM Power 780, 10,902.30 SPECjEnterprise2010 EjOPS; IBM PowerLinux 7R2, 13,161.07 SPECjEnterprise2010 EjOPS. SPARC T5-8 server total hardware plus software list price is $1,487,792 from http://www.oracle.com as of 9/20/2013. IBM Power 780 server total hardware plus software cost of $1,934,162 based on public pricing from http://www.ibm.com as of 5/22/2013. IBM PowerLinux 7R2 server total hardware plus software cost of $819,451 based on whywebsphere.com/2013/04/29/weblogic-12c-on-oracle-sparc-t5-8-delivers-half-the-transactions-per-core-at-double-the-cost-of-the-websphere-on-ibm-power7/ retrieved 9/20/2013.

Wednesday May 01, 2013

SPARC T5-8 Delivers Best Single System SPECjEnterprise2010 Benchmark, Beats IBM

Oracle produced a world record single-server SPECjEnterprise2010 benchmark result of 27,843.57 SPECjEnterprise2010 EjOPS using one of Oracle's SPARC T5-8 servers for both the application and the database tier. This result directly compares the 8-chip SPARC T5-8 server (8 SPARC T5 processors) to the 8-chip IBM Power 780 server (8 POWER7+ processor).

  • The 8-chip SPARC T5 processor based server is 2.6x faster than the 8-chip IBM POWER7+ processor based server.

  • Both Oracle and IBM used virtualization to provide 4-chips for application and 4-chips for database.

  • The server cost/performance for the SPARC T5 processor based server was 6.9x better than the server cost/performance of the IBM POWER7+ processor based server. The cost/performance of the SPARC T5-8 server is $10.72 compared to the IBM Power 780 at $73.83.

  • The total configuration cost/performance (hardware+software) for the SPARC T5 processor based server was 3.6x better than the IBM POWER7+ processor based server. The cost/performance of the SPARC T5-8 server is $56.21 compared to the IBM Power 780 at $199.42. The IBM system had 1.6x better performance per core, but this did not reduce the total software and hardware cost to the customer. As shown by this comparison, performance-per-core is a poor predictor of characteristics relevant to customers.

  • The total IBM hardware plus software cost was $2,174,152 versus the total Oracle hardware plus software cost of $1,565,092. At this price IBM could only provide 768 GB of memory while Oracle was able to deliver 2 TB in the SPARC T5-8 server.

  • The SPARC T5-8 server requires only 8 rack units, the same as the space of the IBM Power 780. In this configuration IBM has a hardware core density of 4 cores per rack unit which contrasts with the 16 cores per rack unit for the SPARC T5-8 server. This again demonstrates why performance-per-core is a poor predictor of characteristics relevant to customers.

  • The virtualized SPARC T5 processor based server ran the application tier servers on 4 chips using Oracle Solaris Zones and the database tier in a 4-chip Oracle Solaris Zone. The virtualized IBM POWER7+ processor based server ran the application in a 4-chip LPAR and the database in a 4-chip LPAR.

  • The SPARC T5-8 server ran the Oracle Solaris 11.1 operating system and used Oracle Solaris Zones to consolidate eight Oracle WebLogic application server instances and one database server instance to achieve this result. The IBM system used LPARS and AIX V7.1.

  • This result demonstrated less than 1 second average response times for all SPECjEnterprise2010 transactions and represents JEE 5.0 transactions generated by 227,500 users.

  • The application server used Oracle Fusion Middleware components including the Oracle WebLogic 12.1 application server and Java HotSpot(TM) 64-Bit Server VM on Solaris, version 1.7.0_15. The database server was configured with Oracle Database 11g Release 2.

  • IBM has a non-virtualized result (one server for application and one server for database). The IBM PowerLinux 7R2 achieved 13,161.07 SPECjEnterprise2010 EjOPS which means it was 2.1x slower than the SPARC T5-8 server. The total configuration cost/performance (hardware+software) for the SPARC T5 processor based server was 11% better than the IBM POWER7+ processor based server. The cost/performance of the SPARC T5-8 server is $56.21 compared to the IBM PowerLinux 7R2 at $62.26. As shown by this comparison, performance-per-core is a poor predictor of characteristics relevant to customers.

Performance Landscape

Complete benchmark results are at the SPEC website, SPECjEnterprise2010 Results.

SPECjEnterprise2010 Performance Chart
Only Two Virtualized Results (App+DB on 1 Server) as of 5/1/2013
Submitter EjOPS* Java EE Server & DB Server
Oracle 27,843.57 1 x SPARC T5-8
8 chips, 128 cores, 3.6 GHz SPARC T5
Oracle WebLogic 12c (12.1.1)
Oracle Database 11g (11.2.0.3)
IBM 10,902.30 1 x IBM Power 780
8 chips, 32 cores, 4.42 GHz POWER7+
WebSphere Application Server V8.5
IBM DB2 Universal Database 10.1

* SPECjEnterprise2010 EjOPS (bigger is better)

Configuration Summary

Oracle Summary

Application and Database Server:

1 x SPARC T5-8 server, with
8 x 3.6 GHz SPARC T5 processors
2 TB memory
5 x 10 GbE dual-port NIC
6 x 8 Gb dual-port HBA
Oracle Solaris 11.1 SRU 4.5
Oracle WebLogic Server 12c (12.1.1)
Java HotSpot(TM) 64-Bit Server VM on Solaris, version 1.7.0_15
Oracle Database 11g (11.2.0.3)

Storage Servers:

6 x Sun Server X3-2L (12-Drive), with
2 x 2.4 GHz Intel Xeon
16 GB memory
1 x 8 Gb FC HBA
4 x Sun Flash Accelerator F40 PCI-E Card
Oracle Solaris 11.1

2 x Sun Storage 2540-M2 Array
12 x 600 GB 15K RPM SAS HDD

Switch Hardware:

1 x Sun Network 10 GbE 72-port Top of Rack (ToR) Switch

IBM Summary

Application and Database Server:

1 x IBM Power 780 server, with
8 x 4.42 GHz POWER7+ processors
786 GB memory
6 x 10 GbE dual-port NIC
3 x 8 Gb four-port HBA
IBM AIX V7.1 TL2
IBM WebSphere Application Server V8.5
IBM J9 VM (build 2.6, JRE 1.7.0 IBM J9 AIX ppc-32)
IBM DB2 10.1
IBM InfoSphere Optim pureQuery Runtime v3.1.1

Storage:

2 x DS5324 Disk System with
48 x 146GB 15K E-DDM Disks

1 x v7000 Disk Controller with
16 x 400GB SSD Disks

Benchmark Description

SPECjEnterprise2010 is the third generation of the SPEC organization's J2EE end-to-end industry standard benchmark application. The new SPECjEnterprise2010 benchmark has been re-designed and developed to cover the Java EE 5 specification's significantly expanded and simplified programming model, highlighting the major features used by developers in the industry today. This provides a real world workload driving the Application Server's implementation of the Java EE specification to its maximum potential and allowing maximum stressing of the underlying hardware and software systems,
  • The web zone, servlets, and web services
  • The EJB zone
  • JPA 1.0 Persistence Model
  • JMS and Message Driven Beans
  • Transaction management
  • Database connectivity
Moreover, SPECjEnterprise2010 also heavily exercises all parts of the underlying infrastructure that make up the application environment, including hardware, JVM software, database software, JDBC drivers, and the system network.

The primary metric of the SPECjEnterprise2010 benchmark is jEnterprise Operations Per Second (SPECjEnterprise2010 EjOPS). The primary metric for the SPECjEnterprise2010 benchmark is calculated by adding the metrics of the Dealership Management Application in the Dealer Domain and the Manufacturing Application in the Manufacturing Domain. There is NO price/performance metric in this benchmark.

Key Points and Best Practices

  • Eight Oracle WebLogic server instances on the SPARC T5-8 server were hosted in 8 separate Oracle Solaris Zones to demonstrate consolidation of multiple application servers. The 8 zones were bound to 4 resource pools using 64 cores (4 cpu chips).
  • The database ran in a separate Oracle Solaris Zone bound to a resource pool consisting 64 cores (4 cpu chips). The database shadow processes were run in the FX scheduling class and bound to one of four cpu chips using the plgrp command.
  • The Oracle WebLogic application servers were executed in the FX scheduling class to improve performance by reducing the frequency of context switches.
  • The Oracle log writer process was run in the FX scheduling class at processor priority 60 to use the Critical Thread feature.

See Also

Disclosure Statement

SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 5/1/2013. SPARC T5-8, 27,843.57 SPECjEnterprise2010 EjOPS; IBM Power 780, 10,902.30 SPECjEnterprise2010 EjOPS; IBM PowerLinux 7R2, 13,161.07 SPECjEnterprise2010 EjOPS. Oracle server only hardware list price is $298,494 and total hardware plus software list price is $1,565,092 from http://www.oracle.com as of  5/22/2013. IBM server only hardware list price is $804,931 and total hardware plus software cost of $2,174,152 based on public pricing from http://www.ibm.com as of 5/22/2013. IBM PowerLinux 7R2 server total hardware plus software cost of $819,451 based on public pricing from http://www.ibm.com as of 5/22/2013.

Tuesday Mar 26, 2013

SPARC T5-8 Delivers SPECjEnterprise2010 Benchmark World Record Performance

Oracle produced a world record SPECjEnterprise2010 benchmark result of 57,422.17 SPECjEnterprise2010 EjOPS using Oracle's SPARC T5-8 server in the application tier and another SPARC T5-8 server for the database tier.

  • The SPARC T5-8 server demonstrated 3.4x better performance compared to an 8-socket IBM Power 780 server result of 16,646.34 SPECjEnterprise2010 EjOPS. The SPARC T5-8 is 3.7x less expensive for the application server hardware list cost compared to the IBM configuration.

  • The SPARC T5 processor demonstrated 1.7x better performance per core compared to the POWER7 processor used in the IBM Power 780 SPECjEnterprise2010 result.

  • The SPARC T5-8 server demonstrated 2.2x better performance compared to the Cisco UCS B440 M2 Blade Server result of 26,118.67 SPECjEnterprise2010 EjOPS.

  • The SPARC T5-8 servers used in the application and database tiers ran the Oracle Solaris 11.1 operating system.

  • The SPARC T5-8 server for the application tier used Oracle Solaris Zones to consolidate sixteen Oracle WebLogic Server instances to achieve this result.

  • This result demonstrated less than 1 second response time for all SPECjEnterprise2010 transactions, while demonstrating a sustained load of Java EE 5 transactions equivalent to 468,000 users.

  • The SPARC T5-8 application server used Oracle Fusion Middleware components including the Oracle WebLogic 12.1 application server and Oracle JDK 7 Update 15. The SPARC T5-8 database server was configured with Oracle Database 11g Release 2.

  • This result used six Sun Server X3-2L systems each configured with 4 x 400 GB Sun Flash Accelerator F40 PCIe Card devices as storage servers for the database files.

  • This result represents the best performance/socket for a single system in the application tier of 7,177.77 SPECjEnterprise2010 EjOPS per socket.

  • A single SPARC T5-8 server in the application tier producing 57,422.17 SPECjEnterprise2010 EjOPS can replace a total of 4x SPARC T4-4 servers that obtained 40,104.86 SPECjEnterprise2010 EjOPS. A single SPARC T5-8 server in the application tier producing 57,422.17 SPECjEnterprise2010 EjOPS can replace 6x SPARC T3-4 servers where each SPARC T3-4 server obtained 9,456.28 SPECjEnterprise2010 EjOPS.

  • Oracle Fusion Middleware provides a family of complete, integrated, hot pluggable and best-of-breed products known for enabling enterprise customers to create and run agile and intelligent business applications. Oracle WebLogic Server's on-going, record-setting Java application server performance demonstrates why so many customers rely on Oracle Fusion Middleware as their foundation for innovation.

Performance Landscape

Complete benchmark results are at the SPEC website, SPECjEnterprise2010 Results.

SPECjEnterprise2010 Performance Chart
as of 3/26/2013
Submitter EjOPS* Java EE Server DB Server
Oracle 57,422.17 1 x SPARC T5-8
8 chips, 128 cores, 3.6 GHz SPARC T5
Oracle WebLogic 12c (12.1.1)
1 x SPARC T5-8
8 chips, 128 cores, 3.6 GHz SPARC T5
Oracle Database 11g (11.2.0.3)
Oracle 40,104.86 4 x SPARC T4-4
4 chips, 32 cores, 3.0 GHz SPARC T4
Oracle WebLogic 11g (10.3.5)
2 x SPARC T4-4
4 chips, 32 cores, 3.0 GHz SPARC T4
Oracle Database 11g (11.2.0.2)
Oracle 27,150.05 1x Sun Server X2-8
8x 2.4 GHz Intel Xeon E7-8870
Oracle WebLogic 12c
1x Sun Server X2-4
4x 2.4 GHz Intel Xeon E7-4870
Oracle Database 11g (11.2.0.2)
Cisco 26,118.67 2 x Cisco UCS B440 M2
4 chips, 40 cores, 2.4 GHz Xeon E7-4870
Oracle WebLogic 11g (10.3.5)
1 x Cisco UCS C460 M2
4 chips, 40 cores, 2.4 GHz Xeon E7-4870
Oracle Database 11g (11.2.0.2)
IBM 16,646.34 1 x IBM Power 780
8 chips, 64 cores, 3.86 GHz POWER7
WebSphere Application Server V7.0
1 x IBM Power 750 Express
4 chips, 32 cores, 3.55 GHz POWER7
IBM DB2 Universal Database 9.7

* SPECjEnterprise2010 EjOPS (bigger is better)

Configuration Summary

Application Server:

1 x SPARC T5-8 server, with
8 x 3.6 GHz SPARC T5 processors
2 TB memory
8 x 10 GbE dual-port NIC
Oracle Solaris 11.1 SRU 4.5
Oracle WebLogic Server 12c (12.1.1)
Oracle JDK 7 Update 15

Database Server:

1 x SPARC T5-8 server, with
8 x 3.6 GHz SPARC T5 processors
2 TB memory
5 x 10 GbE dual-port NIC
6 x 8 Gb FC dual-port HBA
Oracle Solaris 11.1 SRU 4.5
Oracle Database 11g Enterprise Edition Release 11.2.0.3

Storage Servers:

6 x Sun Server X3-2L (12-Drive), with
2 x 2.4 GHz Intel Xeon
16 GB memory
1 x 8 Gb FC HBA
4 x Sun Flash Accelerator F40 PCI-E Card
Oracle Solaris 11.1

2 x Sun Storage 2540-M2 Array
12 x 600 GB 15K RPM SAS HDD

Switch Hardware:

1 x Sun Network 10 GbE 72-port Top of Rack (ToR) Switch

Benchmark Description

SPECjEnterprise2010 is the third generation of the SPEC organization's J2EE end-to-end industry standard benchmark application. The new SPECjEnterprise2010 benchmark has been re-designed and developed to cover the Java EE 5 specification's significantly expanded and simplified programming model, highlighting the major features used by developers in the industry today. This provides a real world workload driving the Application Server's implementation of the Java EE specification to its maximum potential and allowing maximum stressing of the underlying hardware and software systems,
  • The web zone, servlets, and web services
  • The EJB zone
  • JPA 1.0 Persistence Model
  • JMS and Message Driven Beans
  • Transaction management
  • Database connectivity
Moreover, SPECjEnterprise2010 also heavily exercises all parts of the underlying infrastructure that make up the application environment, including hardware, JVM software, database software, JDBC drivers, and the system network.

The primary metric of the SPECjEnterprise2010 benchmark is jEnterprise Operations Per Second (SPECjEnterprise2010 EjOPS). The primary metric for the SPECjEnterprise2010 benchmark is calculated by adding the metrics of the Dealership Management Application in the Dealer Domain and the Manufacturing Application in the Manufacturing Domain. There is NO price/performance metric in this benchmark.

Key Points and Best Practices

  • Sixteen Oracle WebLogic server instances on the SPARC T5-8 server were hosted in 16 separate Oracle Solaris Zones to demonstrate consolidation of multiple application servers.
  • Each Oracle Solaris Zone was bound to a separate processor set, each contained total 58 hardware strands. This was done to improve performance by using the physical memory closest to the processors to reduce memory access latency. The default set was used for network and disk interrupt handling.
  • The Oracle WebLogic application servers were executed in the FX scheduling class to improve performance by reducing the frequency of context switches.
  • The Oracle database processes were run in 8 processor sets using psrset(1M) and executed in the FX scheduling class. This improved performance by reducing memory access latency and reducing context switches.
  • The Oracle log writer process was run in a separate processor set containing a single core and run in the RT scheduling class. This insured that the log writer had the most efficient use of CPU resources.

See Also

Disclosure Statement

SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 3/26/2013. SPARC T5-8, 57,422.17 SPECjEnterprise2010 EjOPS; SPARC T4-4, 40,104.86 SPECjEnterprise2010 EjOPS; Sun Server X2-8, 27,150.05 SPECjEnterprise2010 EjOPS; Cisco UCS B440 M2, 26,118.67 SPECjEnterprise2010 EjOPS; IBM Power 780, 16,646.34 SPECjEnterprise2010 EjOPS. SPARC T3-4 9456.28 SPECjEnterprise2010 EjOPS.

SPARC T5-8 (SPARC T5-8 Server base package, 8xSPARC T5 16-core processors, 128x16GB-1066 DIMMS, 2x600GB 10K RPM 2.5. SAS-2 HDD, 4x Power Cables) List Price $268,742. IBM Power 780 (IBM Power 780:9179 Model MHB, 8x3.8GHz 16-core, 64x one processor activation, 4xCEC Enclosure with IBM Bezel, I/O Backplane and System Midplane,16x 0/32GB DDR3 Memory (4x8GB) DIMMS-1066MHz Power7 CoD Memory, 12x Activation of 1 GB DDR3 Power7 Memory, 5x Activation of 100GB DDR3 Power7 Memory, 1x Disk/Media Backplane. 2x 146.8GB SAS 15K RPM 2.5. HDD (AIX/Linux only), 4x AC Power Supply 1725W) List Price $992,023. Source: Oracle.com and IBM.com, collected 03/18/2013.

SPARC T5-2 Achieves JD Edwards EnterpriseOne Benchmark World Records

Oracle produced World Record batch throughput for single system results on Oracle's JD Edwards EnterpriseOne Day-in-the-Life benchmark using Oracle's SPARC T5-2 server running Oracle Solaris Containers and consolidating JD Edwards EnterpriseOne, Oracle WebLogic servers and the Oracle Database 11g Release 2. There are two workloads tested: online plus batch workload and batch-only workload.

Online plus batch workload:

  • The SPARC T5-2 server delivered a result of 12,000 online users at 180 msec average response time while concurrently executing a mix of JD Edwards EnterpriseOne long and short batch processes at 198.5 UBEs/min (Universal Batch Engines per minute).

  • The SPARC T5-2 server online plus batch throughput is 2.7x higher than the IBM Power 770 server, both running 12,000 online users.

  • The SPARC T5-2 server online plus batch throughput is 6x higher per chip than the IBM Power 770 server. The SPARC T5-2 server has 2 chips and the IBM Power 770 has 4 chips, both ran 12,000 online users.

  • The SPARC T5-2 server online plus batch throughput is 3x higher per core than the IBM Power 770 server. Both servers have 32 cores and ran 12,000 online users.

Batch-only workload:

  • The SPARC T5-2 server delivered throughput of 880 UBEs/min while executing the batch-only workload (Long and Short batch processes).

  • The SPARC T5-2 server batch-only throughput is 2.7x faster per chip than the IBM Power 770 server. The SPARC T5-2 server has 2 chips and the IBM Power 770 has 4 chips.

  • The SPARC T5-2 server batch-only throughput is 1.4x higher per core than the IBM Power 770 server. Both servers have 32 cores.

  • The SPARC T5-2 server batch-only throughput is 61% faster than the Cisco multiple system solution.

  • The SPARC T5-2 server batch-only throughput is 5x faster per chip than the Cisco UCS B200/B250 M2 servers. The SPARC T5-2 server has 2 chips and the Cisco 3 server solution has 6 chips.

  • The SPARC T5-2 server batch-only throughput is 18x higher per core than the Cisco UCS B200/B250 M2 servers. The SPARC T5-2 server has 32 cores while the Cisco solution utilized 36 cores.

Both workloads:

  • The SPARC T5-2 server offers a 5.4x cost savings for the application server when compared to the IBM Power 770 application server.

  • The SPARC T5-2 server running Oracle Solaris Containers and consolidating JD Edwards EnterpriseOne, Oracle WebLogic servers and the Oracle Database 11g Release 2 utilized a maximum 65% of the available CPU power, leaving headroom for additional processing.

  • The database server in a shared-server configuration allows for optimized CPU resource utilization and significant memory savings on the SPARC T5-2 server without sacrificing performance.

Performance Landscape

JD Edwards EnterpriseOne Day in the Life (DIL) Benchmark
Consolidated Online with Batch Workload
System Rack
Units (U)
Batch
Rate
(UBEs/min)
Online
Users
Users/
U
UBEs/
Core
UBEs/
Chip
Version
SPARC T5-2 (2 x SPARC T5, 3.6 GHz) 3 198.5 12000 4000 6.2 99 9.0.2
IBM Power 770 (4 x POWER7, 3.3 GHz) 8 65 12000 1500 2.0 16 9.0.2

Batch Rate (UBEs/min) — Batch transaction rate in UBEs per minute.

JD Edwards EnterpriseOne Batch Only Benchmark
System Rack
Units (U)
Batch
Rate
(UBEs/min)
UBEs/
U
UBEs/
Core
UBEs/
Chip
Version
SPARC T5-2 (2 x SPARC T5, 3.6 GHz) 3 880 267 25 440 9.0.2
IBM Power 770 (4 x POWER7, 3.3 GHz) 8 643 81 20 161 9.0.2
2 x Cisco B200 M2 (2 x X5690, 3.46 GHz)
1 x Cisco B250 M2 (2 x X5680, 3.33 GHz)
3 546 182 15 91 9.0.2

Configuration Summary

Hardware Configuration:

1 x SPARC T5-2 server with
2 x SPARC T5 processors, 3.6 GHz
512 GB memory
4 x 300 GB 10K RPM SAS internal disk
2 x 300 GB internal SSD
4 x Sun Flash Accelerator F40 PCIe Card (4 x 93 GB)

Software Configuration:

Oracle Solaris 10 1/13
Oracle Solaris Containers
JD Edwards EnterpriseOne 9.0.2
JD Edwards EnterpriseOne Tools (8.98.4.2)
Oracle WebLogic Server 11g (10.3.4)
Oracle HTTP Server 11g
Oracle Database 11g Release 2 (11.2.0.3)

Benchmark Description

JD Edwards EnterpriseOne is an integrated applications suite of Enterprise Resource Planning (ERP) software. Oracle offers 70 JD Edwards EnterpriseOne application modules to support a diverse set of business operations.

Oracle's Day in the Life (DIL) kit is a suite of scripts that exercises most common transactions of JD Edwards EnterpriseOne applications, including business processes such as payroll, sales order, purchase order, work order, and manufacturing processes, such as ship confirmation. These are labeled by industry acronyms such as SCM, CRM, HCM, SRM and FMS. The kit's scripts execute transactions typical of a mid-sized manufacturing company.

  • The workload consists of online transactions and the UBE – Universal Business Engine workload of 61 short and 4 long UBEs.

  • LoadRunner runs the DIL workload, collects the user’s transactions response times and reports the key metric of Combined Weighted Average Transaction Response time.

  • The UBE processes workload runs from the JD Enterprise Application server.

    • Oracle's UBE processes come as three flavors:
      • Short UBEs < 1 minute engage in Business Report and Summary Analysis,
      • Mid UBEs > 1 minute create a large report of Account, Balance, and Full Address,
      • Long UBEs > 2 minutes simulate Payroll, Sales Order, night only jobs.
    • The UBE workload generates large numbers of PDF files reports and log files.
    • The UBE Queues are categorized as the QBATCHD, a single threaded queue for large and medium UBEs, and the QPROCESS queue for short UBEs run concurrently.

Oracle's UBE process performance metric is Number of Maximum Concurrent UBE processes at transaction rate, UBEs/minute.

Key Points and Best Practices

Four Oracle Solaris processors sets were used with Oracle Solaris Containers assigned to the processor sets as follows:

  • one JD Edwards EnterpriseOne Application server, two Oracle WebLogic Servers 11g Release 1 each coupled with an Oracle Web Tier HTTP server instances (online workload), each in an Oracle Solaris Container (three total),

  • one JD Edwards EnterpriseOne Application server (for batch only workload) in an Oracle Solaris Container,

  • Oracle Database 11g Release 2.0.3 database in an Oracle Solaris Container,

  • the Oracle database log writer.

Other items of note:

  • Each Oracle WebLogic vertical cluster, with twelve managed instances, was configured in a dedicated webserver container in order to load balance users' requests and to provide the infrastructure to support high number of users with ease of deployment and high availability.

  • The database redo logs were configured on the raw disk partitions.

  • The mixed batch workload of 44 short UBEs and 8 long UBEs was executed concurrently with the 12,000 online application users, producing a sustained rate of 198.5 UBE/min.

See Also

Disclosure Statement

Copyright 2013, Oracle and/or its affiliates. All rights reserved. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Other names may be trademarks of their respective owners. Results as of 03/26/2013

SPARC T5-2 (SPARC T5-2 Server base package, 2xSPARC T5 16-core processors, 32x16GB-1066 DIMMS, 4x600GB 10K RPM 2.5. SAS-2 HDD,2x300GB SSDs, 4x Sun Flash Accelerator F40 PCIe Cards, 2x Power Cables) List Price $98,190. IBM Power 770 (IBM Power 770:9917 Model MMC, 2x3.3GHz 16-core, 32x one processor activation, 2xCEC Enclosure with IBM Bezel, I/O Backplane and System Midplane,2x Service Processor, 16x 0/64GB DDR3 Memory (4x16GB) DIMMS-1066MHz Power7 CoD Memory, 24x Activation of 1 GB DDR3 Power7 Memory, 10x Activation of 100GB DDR3 Power7 Memory, 2x Disk/Media Backplane. 2x 300GB SAS 15K RPM 2.5. HDD (AIX/Linux only), 1x SATA slimline DVD-RAM drive, 4x AC Power Supply 1925W) List Price $532,143. Source: ibm.com, collected 03/18/2013.

SPARC T5-2 Performance Running Oracle Fusion Middleware SOA

Oracle's SPARC T5-2 server running Oracle Fusion Middleware SOA Suite 11g on Oracle Solaris 11 demonstrated 2.1x to 2.4x throughput improvement with 2x concurrency over a similarly configured SPARC T4-2 server for Fusion Order Demo and Oracle Service Bus (OSB) benchmark workloads using 5 KB message size.

  • Oracle Fusion Middleware SOA was deployed on virtualized environments using Oracle VM for SPARC to demonstrate consolidation of multiple SOA services onto a single system.

  • The benchmark demonstrates SPARC hardware crypto performance within an OSB service using 100-byte element encrypted with AES and signed with RSA128.

Performance Landscape

OSB Tests
System ch/co/th OS  Concurrency 
T5/T4 Test
SPARC T5-2
SPARC T5-2 (db)
1/8/64
2/32/256
Oracle
Solaris 11
144 2.1x http_passthrough
96 2.4x dyn_transform
64 2.3x body encryption

ch/co/th – chips, cores, threads


BPEL Test
System ch/co/th OS Users T5/T4 Test
SPARC T5-2
SPARC T5-2 (db)
1.5/24/192
2/32/256
S11 400 2.2x Fusion order demo

ch/co/th – chips, cores, threads

Configuration Summary

Application Server:

SPARC T5-2
2 x SPARC T5 processors, 3.6 GHz
256 GB memory
2 x 300 GB internal disks
Oracle Solaris 11.1
Oracle WebLogic 10.3.6
Oracle SOA 11.1.1.6 (PS5)
Oracle OSB 11.1.1.6 (PS5)
Oracle JDK 7

Database Server:

SPARC T5-2
2 x SPARC T5 processors, 3.6 GHz
256 GB memory
2 x 300 GB internal disks
1 x Sun Storage 6180, 16 x 146 GB SAS disks
Oracle Solaris 11.1
Oracle Database 11g Release 2 (11.2.0.3)

Benchmark Description

Three tests were performed as part of the Oracle SOA Suite profiling:

HTTP Passthrough (http_passthrough)

The client sends a 5 KB message to a HTTP Web Services Description Language (WSDL)-based proxy service on an Oracle Service Bus server. The proxy routes (using route action) the message to the backend servlet in a WLS domain. Oracle Service Bus monitoring is enabled as the message goes through the bus. The proxy's operation selection algorithm is SOAP Action Header. This workload involves more networking load than any of the other Oracle Service Bus microbenchmarks described.

Dynamic Transformation (dyn_transformation)

In this benchmark the HTTP proxy receives a 5 KB XML document. The XML document has an Xquery resource name in one of its leaf nodes. The pipeline uses an Xpath to retrieve the Xquery resource name and executes transformation on the inbound XML. The majority of CPU is spent on XML processing.

Body Encryption (body_encryption)

This benchmark tests the crypto performance within an Oracle Service Bus service. The client sends a 5 KB message, within which a 100-byte element is encrypted, to the WSDL-based Oracle Service Bus proxy service over HTTP. The WSDL binding references an Oracle Web Services Manager policy. The business service is also WSDL-based. The element is encrypted with AES and signed with RSA128. The encrypted element is decrypted, and the message is routed to the backend service as a clear SOAP message.

See Also

Disclosure Statement

Copyright 2013, Oracle and/or its affiliates. All rights reserved. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Other names may be trademarks of their respective owners. Results as of 26 March 2013.

SPARC T5-1B Performance Running Oracle Communications ASAP

Oracle's SPARC T5-1B server module delivered outstanding results on Oracle Communications ASAP. The SPARC T5-1B server module ran Oracle Solaris 11 with Oracle Database 11g Release 2, Oracle WebLogic Server 11g and Oracle Communications ASAP version 7.2.

  • Running Oracle Communications ASAP, the SPARC T5-1B server module achieved 1,722 ASDLs (atomic network activation actions) per second, the highest throughput that has been achieved in the 12NEP test for a single Oracle Communications ASAP instance across any SPARC architecture.

  • The SPARC T5-1B server module running a single instance of the Oracle Communications ASAP application, with both the application and database tiers consolidated onto a single machine, easily supported the service activation volumes of 1,722 ASDLs/sec which is representative of a typical mobile operator with more than 100 million subscribers.

  • Oracle Communications ASAP v7.2 delivered 48% higher throughput on a the SPARC T5-1B server module when compared to the SPARC T4-2 server.

  • The SPARC T5 processor delivered over 2 times the throughput compared to the previous generation SPARC T4 processor.

Performance Landscape

ASAP 7.2.0 12NEP Test Results
System ASDLs/sec CPU Usage
SPARC T5-1B 1,722.2 44.8%
SPARC T4-2 1,114.3 42.7%

Configuration Summary

Hardware Configuration:

SPARC T5-1B server module
1 x SPARC T5 processor at 3.6 GHz
256 GB memory

SPARC T4-2 server
2 x SPARC T4 processors at 2.85 GHz
256 GB memory

Storage Configuration:

Pillar Axiom

Software Configuration:

Oracle Solaris 11.1
Oracle Database 11g Release 2 (11.2.0.3.0)
Oracle WebLogic Server 10.3.6.0
Oracle Communications ASAP 7.2.0 (SR2B23)
Oracle JDK 7 update 7

Benchmark Description

Oracle Communications ASAP is used to activate a variety of services including data, video, voice and content services across mobile, fixed and satellite networks. Typical activities performed include activating new subscribers and services, moving / adding / changing / deleting services of existing subscribers and deleting existing subscribers and services.

The throughput of ASAP is measured in atomic actions per second (or ASDLs/sec). An atomic action is a single command or operation that can be executed on a network element. Atomic actions are grouped together to form a common service action, where each service action typically relates to an orderable item, such as "GSM voice" or "voice mail" or "GSM data". One or more service actions are invoked by an order management system via an activation work order request.

The workload resembles a typical mobile order to activate a GSM subscriber. A single service action to add a subscriber consists of seven atomic actions where each atomic action executes a command on a network element. Each network element was serviced by a dedicated Network Element Processor (NEP). The ASAP benchmark can vary the number of NEPs, which correlate to the complexity of a Telco operator's environment.

See Also

Disclosure Statement

Copyright 2013, Oracle and/or its affiliates. All rights reserved. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Other names may be trademarks of their respective owners. Results as of 26 March 2013.

Monday Oct 01, 2012

World Record Batch Rate on Oracle JD Edwards Consolidated Workload with SPARC T4-2

Oracle produced a World Record batch throughput for single system results on Oracle's JD Edwards EnterpriseOne Day-in-the-Life benchmark using Oracle's SPARC T4-2 server running Oracle Solaris Containers and consolidating JD Edwards EnterpriseOne, Oracle WebLogic servers and the Oracle Database 11g Release 2. The workload includes both online and batch workload.

  • The SPARC T4-2 server delivered a result of 8,000 online users while concurrently executing a mix of JD Edwards EnterpriseOne Long and Short batch processes at 95.5 UBEs/min (Universal Batch Engines per minute).

  • In order to obtain this record benchmark result, the JD Edwards EnterpriseOne, Oracle WebLogic and Oracle Database 11g Release 2 servers were executed each in separate Oracle Solaris Containers which enabled optimal system resources distribution and performance together with scalable and manageable virtualization.

  • One SPARC T4-2 server running Oracle Solaris Containers and consolidating JD Edwards EnterpriseOne, Oracle WebLogic servers and the Oracle Database 11g Release 2 utilized only 55% of the available CPU power.

  • The Oracle DB server in a Shared Server configuration allows for optimized CPU resource utilization and significant memory savings on the SPARC T4-2 server without sacrificing performance.

  • This configuration with SPARC T4-2 server has achieved 33% more Users/core, 47% more UBEs/min and 78% more Users/rack unit than the IBM Power 770 server.

  • The SPARC T4-2 server with 2 processors ran the JD Edwards "Day-in-the-Life" benchmark and supported 8,000 concurrent online users while concurrently executing mixed batch workloads at 95.5 UBEs per minute. The IBM Power 770 server with twice as many processors supported only 12,000 concurrent online users while concurrently executing mixed batch workloads at only 65 UBEs per minute.

  • This benchmark demonstrates more than 2x cost savings by consolidating the complete solution in a single SPARC T4-2 server compared to earlier published results of 10,000 users and 67 UBEs per minute on two SPARC T4-2 and SPARC T4-1.

  • The Oracle DB server used mirrored (RAID 1) volumes for the database providing high availability for the data without impacting performance.

Performance Landscape

JD Edwards EnterpriseOne Day in the Life (DIL) Benchmark
Consolidated Online with Batch Workload

System Rack
Units
(U)
Batch
Rate
(UBEs/m)
Online
Users
Users
/ U
Users
/ Core
Version
SPARC T4-2 (2 x SPARC T4, 2.85 GHz) 3 95.5 8,000 2,667 500 9.0.2
IBM Power 770 (4 x POWER7, 3.3 GHz, 32 cores) 8 65 12,000 1,500 375 9.0.2

Batch Rate (UBEs/m) — Batch transaction rate in UBEs per minute

Configuration Summary

Hardware Configuration:

1 x SPARC T4-2 server with
2 x SPARC T4 processors, 2.85 GHz
256 GB memory
4 x 300 GB 10K RPM SAS internal disk
2 x 300 GB internal SSD
2 x Sun Storage F5100 Flash Arrays

Software Configuration:

Oracle Solaris 10
Oracle Solaris Containers
JD Edwards EnterpriseOne 9.0.2
JD Edwards EnterpriseOne Tools (8.98.4.2)
Oracle WebLogic Server 11g (10.3.4)
Oracle HTTP Server 11g
Oracle Database 11g Release 2 (11.2.0.1)

Benchmark Description

JD Edwards EnterpriseOne is an integrated applications suite of Enterprise Resource Planning (ERP) software. Oracle offers 70 JD Edwards EnterpriseOne application modules to support a diverse set of business operations.

Oracle's Day in the Life (DIL) kit is a suite of scripts that exercises most common transactions of JD Edwards EnterpriseOne applications, including business processes such as payroll, sales order, purchase order, work order, and manufacturing processes, such as ship confirmation. These are labeled by industry acronyms such as SCM, CRM, HCM, SRM and FMS. The kit's scripts execute transactions typical of a mid-sized manufacturing company.

  • The workload consists of online transactions and the UBE – Universal Business Engine workload of 61 short and 4 long UBEs.

  • LoadRunner runs the DIL workload, collects the user’s transactions response times and reports the key metric of Combined Weighted Average Transaction Response time.

  • The UBE processes workload runs from the JD Enterprise Application server.

    • Oracle's UBE processes come as three flavors:

      • Short UBEs < 1 minute engage in Business Report and Summary Analysis,

      • Mid UBEs > 1 minute create a large report of Account, Balance, and Full Address,

      • Long UBEs > 2 minutes simulate Payroll, Sales Order, night only jobs.

    • The UBE workload generates large numbers of PDF files reports and log files.

    • The UBE Queues are categorized as the QBATCHD, a single threaded queue for large and medium UBEs, and the QPROCESS queue for short UBEs run concurrently.

Oracle's UBE process performance metric is Number of Maximum Concurrent UBE processes at transaction rate, UBEs/minute.

Key Points and Best Practices

Two JD Edwards EnterpriseOne Application Servers, two Oracle WebLogic Servers 11g Release 1 coupled with two Oracle Web Tier HTTP server instances and one Oracle Database 11g Release 2 database on a single SPARC T4-2 server were hosted in separate Oracle Solaris Containers bound to four processor sets to demonstrate consolidation of multiple applications, web servers and the database with best resource utilizations.

  • Interrupt fencing was configured on all Oracle Solaris Containers to channel the interrupts to processors other than the processor sets used for the JD Edwards Application server, Oracle WebLogic servers and the database server.

  • A Oracle WebLogic vertical cluster was configured on each WebServer Container with twelve managed instances each to load balance users' requests and to provide the infrastructure that enables scaling to high number of users with ease of deployment and high availability.

  • The database log writer was run in the real time RT class and bound to a processor set.

  • The database redo logs were configured on the raw disk partitions.

  • The Oracle Solaris Container running the Enterprise Application server completed 61 Short UBEs, 4 Long UBEs concurrently as the mixed size batch workload.

  • The mixed size UBEs ran concurrently from the Enterprise Application server with the 8,000 online users driven by the LoadRunner.

See Also

Disclosure Statement

Copyright 2012, Oracle and/or its affiliates. All rights reserved. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Other names may be trademarks of their respective owners. Results as of 09/30/2012.

Monday Oct 03, 2011

SPARC T4-4 Servers Set World Record on SPECjEnterprise2010, Beats IBM POWER7, Cisco x86

Oracle produced a world record SPECjEnterprise2010 benchmark result of 40,104.86 SPECjEnterprise2010 EjOPS using four of Oracle's SPARC T4-4 servers in the application tier and two more SPARC T4-4 servers for the database server.

  • The four SPARC T4-4 server configuration (sixteen SPARC T4 processors total, 3.0 GHz) demonstrated 2.4x better performance compared to the IBM Power 780 server (eight POWER7 processors, 3.86 THz) result of 16,646.34 SPECjEnterprise2010 EjOPS.

  • In the database tier, two SPARC T4-4 servers with a total of eight SPARC T4 processors at 3.0 GHz, processed 2.4x more transactions compared to the IBM result of 16,646.34 SPECjEnterprise2010 EjOPS which used four POWER7 processors at 3.55 GHz.

  • The four SPARC T4-4 server configuration demonstrated 1.5x better performance compared to the Cisco UCS B440 M2 Blade Server result of 26,118.67 SPECjEnterprise2010 EjOPS.

  • The four SPARC T4-4 server configuration demonstrated 2.3x better performance compared to the Cisco UCS B440 M1 Blade Server result of 17,301.86 SPECjEnterprise2010 EjOPS.

  • This result demonstrated less than 1 second average response times for all SPECjEnterprise2010 transactions and 90% of all transaction times took less than 1 second.

  • This result demonstrated a sustained Java EE 5 transaction load generated by approximately 320,000 users.

  • This result using 16 Oracle WebLogic 10.3.5 server instances demonstrated 4.8x better performance per application server instance when compared to the IBM result which used 32 WebSphere instances.

  • The SPARC T4-4 servers delivered a 6.7x price/performance advantage over the IBM Power 780 for the servers used in the application tier (see disclosure statement below for details). This price/performance advantage in the application tier was accomplished with a SPARC T4-4 server configuration with 2 TB of total memory compared to the IBM solution with 0.5 TB of memory.

  • The SPARC T4-4 servers had a 1.9x advantage over IBM in performance per space for the application tier (see disclosure statement below for details) even though the Oracle solution had four servers.

  • The four SPARC T4-4 servers used for the application tier used Oracle Solaris Containers to consolidate four Oracle WebLogic application server instances on each server to achieve this result.

  • The two SPARC T4-4 servers used for the database tier hosted Oracle Database 11g Release 2 and Oracle RAC cluster software using Oracle Automatic Storage Management (ASM).

  • Oracle Fusion Middleware provides a family of complete, integrated, hot pluggable and best-of-breed products known for enabling enterprise customers to create and run agile and intelligent business applications. Oracle WebLogic Server's on-going, record-setting Java application server performance demonstrates why so many customers rely on Oracle Fusion Middleware as their foundation for innovation.

Performance Landscape

Complete benchmark results are at the SPEC website, SPECjEnterprise2010 Results.

SPECjEnterprise2010 Performance Chart
as of 10/11/2011
Submitter EjOPS* Java EE Server DB Server
Oracle 40,104.86 4 x SPARC T4-4
4 chips, 32 cores, 3.0 GHz SPARC T4
Oracle WebLogic 11g (10.3.5)
2 x SPARC T4-4
4 chips, 32 cores, 3.0 GHz SPARC T4
Oracle 11g DB 11.2.0.2
Cisco 26,118.67 2 x Cisco UCS B440 M2
4 chips, 40 cores, 2.4 GHz Xeon E7-4870
Oracle WebLogic 11g (10.3.5)
1 x Cisco UCS C460 M2
4 chips, 40 cores, 2.4 GHz Xeon E7-4870
Oracle 11g DB 11.2.0.2
Cisco 17,301.86 2 x Cisco UCS B440 M1
4 chips, 32 cores, 2.26 GHz Xeon X7560
Oracle WebLogic 10.3.4
1 x Cisco UCS C460 M1
4 chips, 32 cores, 2.26 GHz Xeon X7560
Oracle 11g DB 11.2.0.2
IBM 16,646.34 1 x IBM Power 780
8 chips, 64 cores, 3.86 GHz POWER7
WebSphere Application Server V7.0
1 x IBM Power 750 Express
4 chips, 32 cores, 3.55 GHz POWER7
IBM DB2 Universal Database 9.7

* SPECjEnterprise2010 EjOPS (bigger is better)

Configuration Summary

Application Servers:

4 x SPARC T4-4 servers, each with
4 x 3.0 GHz SPARC T4 processors
512 GB memory
2 x 10GbE NIC
Oracle Solaris 10 8/11
Oracle WebLogic Server 11g Release 1 (10.3.5)
Java HotSpot(TM) 64-Bit Server VM on Solaris, version 1.6.0_26 (Java SE 6 Update 26)

Database Servers:

2 x SPARC T4-4 servers, each with
4 x 3.0 GHz SPARC T4 processors
1024 GB memory
2 x 10GbE NIC
4 x 8Gb FC HBA
Oracle Solaris 10 8/11
Oracle Database 11g Enterprise Edition Release 11.2.0.2
Oracle Real Application Clusters 11g Release 2

Storage Servers:

8 x Sun Fire X4270 M2 (12-Drive)
1 x 3.0 GHz Intel Xeon
8 GB memory
1 x 8Gb FC HBA
Oracle Solaris 11 Express 2010.11
8 x Sun Storage F5100 Flash Arrays

Switch Hardware:

2 x Sun Network 10GbE 72-port Top of Rack (ToR) Switch
1 x Brocade 5300 80-port Fiber Channel Switch

Benchmark Description

SPECjEnterprise2010 is the third generation of the SPEC organization's J2EE end-to-end industry standard benchmark application. The new SPECjEnterprise2010 benchmark has been re-designed and developed to cover the Java EE 5 specification's significantly expanded and simplified programming model, highlighting the major features used by developers in the industry today. This provides a real world workload driving the Application Server's implementation of the Java EE specification to its maximum potential and allowing maximum stressing of the underlying hardware and software systems,
  • The web container, servlets, and web services
  • The EJB container
  • JPA 1.0 Persistence Model
  • JMS and Message Driven Beans
  • Transaction management
  • Database connectivity
Moreover, SPECjEnterprise2010 also heavily exercises all parts of the underlying infrastructure that make up the application environment, including hardware, JVM software, database software, JDBC drivers, and the system network.

The primary metric of the SPECjEnterprise2010 benchmark is jEnterprise Operations Per Second (SPECjEnterprise2010 EjOPS). The primary metric for the SPECjEnterprise2010 benchmark is calculated by adding the metrics of the Dealership Management Application in the Dealer Domain and the Manufacturing Application in the Manufacturing Domain. There is NO price/performance metric in this benchmark.

Key Points and Best Practices

  • Four Oracle WebLogic server instances on each SPARC T4-4 server were hosted in 4 separate Oracle Solaris Containers to demonstrate consolidation of multiple application servers.
  • Each Oracle Solaris Container was bound to a separate processor set, each contained 7 cores (total 56 threads). This was done to improve performance by reducing memory access latency by using the physical memory closest to the processors. The default set was used for network and disk interrupt handling.
  • The Oracle WebLogic application servers were executed in the FX scheduling class to improve performance by reducing the frequency of context switches.
  • The Oracle database processes were run in 2 processor sets using psrset(1M) and executed in the FX scheduling class. This improved performance by reducing memory access latency and reducing context switches.
  • The Oracle log writer process was run in a separate processor set containing 2 threads and run in the RT scheduling class. This insured that the log writer had the most efficient use of CPU resources.

See Also

Disclosure Statement

SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 10/11/2011. SPARC T4-4, 40,104.86 SPECjEnterprise2010 EjOPS; Cisco UCS B440 M2, 26,118.67 SPECjEnterprise2010 EjOPS; Cisco UCS B440 M1, 17,301.86 SPECjEnterprise2010 EjOPS; IBM Power 780, 16,646.34 SPECjEnterprise2010 EjOPS.

SPECjEnterprise2010 models contemporary Java-based applications that run on large Java EE (Java Enterprise Edition) servers, backed by network infrastructure and database servers. Focusing on the critical Java EE server hardware & OS, the IBM result includes a Java EE server with a list price of $1.30 million. The Oracle Java EE servers have a list price of $0.47 million. The Java EE server price versus delivered EjOPS is $77.97/EjOPS for IBM versus $11.67/EjOPS for Oracle. Oracle's $/perf advantage is 6.7x better than IBM ($77.97/$11.67).

Pricing details for IBM, IBM p780 512GB based on public pricing at http://tpc.org/results/FDR/TPCH/TPC-H_1TB_IBM780_Sybase-FDR.pdf. Adjusted hardware costs to license all 64 cores. AIX pricing at: http://www-304.ibm.com/easyaccess3/fileserve?contentid=214347 and AIX Standard Edition V7.1 per processor (5765-G98-0017 64*2,600=$166,400). This gives application tier hardware & OS Price/perf: $77.97/EjOPS (1297956/16646.34)

Pricing details for Oracle, four SPARC T4-4 512 GB, HW acquisition price from Oracle's price list: $467,856 http://www.oracle.com. This gives application tier hardware & OS Price/perf: $11.67/EjOPS (467856/40104.86)

The Oracle application tier servers occupy 20U of space, 40,140.86/20=2005 EjOPS/U. The IBM application tier server occupies 16U of space, 16,646.34/16=1040 EjOPS/U. 2005/1040=1.9x

Tuesday Sep 27, 2011

SPARC T4-2 Servers Set World Record on JD Edwards EnterpriseOne Day in the Life Benchmark with Batch, Outperforms IBM POWER7

Using Oracle's SPARC T4-2 server for the application tier and a SPARC T4-1 server for the database tier, a world record result was produced running the Oracle's JD Edwards EnterpriseOne application Day in the Life (DIL) benchmark concurrently with a batch workload.

  • The SPARC T4-2 server running online and batch with JD Edwards EnterpriseOne 9.0.2 is 1.7x faster and has better response time than the IBM Power 750 system which only ran the online component of JD Edwards EnterpriseOne 9.0 Day in the Life test.

  • The combination of SPARC T4 servers delivered a Day in the Life benchmark result of 10,000 online users with 0.35 seconds of average transaction response time running concurrently with 112 Universal Batch Engine (UBE) processes at 67 UBEs/minute.

  • This is the first JD Edwards EnterpriseOne benchmark for 10,000 users and payroll batch on a SPARC T4-2 server for the application tier and the database tier with Oracle Database 11g Release 2. All servers ran with the Oracle Solaris 10 operating system.

  • The single-thread performance of the SPARC T4 processor produced sub-second response for the online components and provided dramatic performance for the batch jobs.

  • The SPARC T4 servers, JD Edwards EnterpriseOne 9.0.2, and Oracle WebLogic Server 11g Release 1 support 17% more users per JAS (Java Application Server) than the SPARC T3-1 server for this benchmark.

  • The SPARC T4-2 server provided a 6.7x better batch processing rate than the previous SPARC T3-1 server record result and had 2.5x faster response time.

  • The SPARC T4-2 server used Oracle Solaris Containers, which provide flexible, scalable and manageable virtualization.

  • JD Edwards EnterpriseOne uses Oracle Fusion Middleware WebLogic Server 11g R1 and Oracle Fusion Middleware Cluster Web Tier Utilities 11g HTTP server.

  • The combination of the SPARC T4-2 server and Oracle JD Edwards EnterpriseOne in the application tier with a SPARC T4-1 server in the database tier measured low CPU utilization providing headroom for growth.

Performance Landscape

JD Edwards EnterpriseOne Day in the Life Benchmark
Online with Batch Workload

System Online
Users
Resp
Time (sec)
Batch
Concur
(# of UBEs)
Batch
Rate
(UBEs/m)
Version
2xSPARC T4-2 (app+web)
SPARC T4-1 (db)
10000 0.35 112 67 9.0.2
SPARC T3-1 (app+web)
SPARC Enterprise M3000 (db)
5000 0.88 19 10 9.0.1

Resp Time (sec) — Response time of online jobs reported in seconds
Batch Concur (# of UBEs) — Batch concurrency presented in the number of UBEs
Batch Rate (UBEs/m) — Batch transaction rate in UBEs per minute

Edwards EnterpriseOne Day in the Life Benchmark
Online Workload Only

System Online
Users
Response
Time (sec)
Version
SPARC T3-1, 1 x SPARC T3 (1.65 GHz), Solaris 10 (app)
M3000, 1 x SPARC64 VII (2.75 GHz), Solaris 10 (db)
5000 0.52 9.0.1
IBM Power 750, POWER7 (3.55 GHz) (app+db) 4000 0.61 9.0

IBM result from http://www-03.ibm.com/systems/i/advantages/oracle/, IBM used WebSphere

Configuration Summary

Application Tier Configuration:

1 x SPARC T4-2 server with
2 x 2.85 GHz SPARC T4 processors
128 GB main memory
6 x 300 GB 10K RPM SAS internal HDD
Oracle Solaris 10 9/10
JD Edwards EnterpriseOne 9.0.2 with Tools 8.98.3.3

Web Tier Configuration:

1 x SPARC T4-2 server with
2 x 2.85 GHz SPARC T4 processors
256 GB main memory
2 x 300 GB SSD
4 x 300 GB 10K RPM SAS internal HDD
Oracle Solaris 10 9/10
Oracle WebLogic Server 11g Release 1

Database Tier Configuration:

1 x SPARC T4-1 server with
1 x 2.85 GHz SPARC T4 processor
128 GB main memory
6 x 300 GB 10K RPM SAS internal HDD
2 x Sun Storage F5100 Flash Array
Oracle Solaris 10 9/10
Oracle Database 11g Release 2

Benchmark Description

JD Edwards EnterpriseOne is an integrated applications suite of Enterprise Resource Planning (ERP) software. Oracle offers 70 JD Edwards EnterpriseOne application modules to support a diverse set of business operations.

Oracle's Day in the Life (DIL) kit is a suite of scripts that exercises most common transactions of JD Edwards EnterpriseOne applications, including business processes such as payroll, sales order, purchase order, work order, and manufacturing processes, such as ship confirmation. These are labeled by industry acronyms such as SCM, CRM, HCM, SRM and FMS. The kit's scripts execute transactions typical of a mid-sized manufacturing company.

  • The workload consists of online transactions and the UBE – Universal Business Engine workload of 42 short, 8 medium and 4 long UBEs.

  • LoadRunner runs the DIL workload, collects the user’s transactions response times and reports the key metric of Combined Weighted Average Transaction Response time.

  • The UBE processes workload runs from the JD Enterprise Application server.

    • Oracle's UBE processes come as three flavors:
      • Short UBEs < 1 minute engage in Business Report and Summary Analysis,
      • Mid UBEs > 1 minute create a large report of Account, Balance, and Full Address,
      • Long UBEs > 2 minutes simulate Payroll, Sales Order, night only jobs.
    • The UBE workload generates large numbers of PDF files reports and log files.
    • The UBE Queues are categorized as the QBATCHD, a single threaded queue for large and medium UBEs, and the QPROCESS queue for short UBEs run concurrently.

Oracle’s UBE process performance metric is Number of Maximum Concurrent UBE processes at transaction rate, UBEs/minute.

Key Points and Best Practices

One JD Edwards EnterpriseOne Application Server and two Oracle WebLogic Servers 11g R1 coupled with two Oracle Fusion Middleware 11g Web Tier HTTP Server instances on the SPARC T4-2 servers were hosted in three separate Oracle Solaris Containers to demonstrate consolidation of multiple application and web servers.

  • Interrupt fencing was configured on all Oracle Solaris Containers to channel the interrupts to processors other than the processor sets used for the JD Edwards Application server and WebLogic servers.

  • Processor 0 was left alone for clock interrupts.

  • The applications were executed in the FX scheduling class to improve performance by reducing the frequency of context switches.

  • A WebLogic vertical cluster was configured on each WebServer Container with twelve managed instances each to load balance users' requests and to provide the infrastructure that enables scaling to high number of users with ease of deployment and high availability.

  • The database server was run in an Oracle Solaris Container hosted on the SPARC T4-2 server.

  • The database log writer was run in the real time RT class and bound to a processor set.

  • The database redo logs were configured on the raw disk partitions.

  • The private network between the SPARC T4-2 servers was configured with a 10 GbE interface.

  • The Oracle Solaris Container on the Enterprise Application server ran 42 Short UBEs, 8 Medium UBEs and 4 Long UBEs concurrently as the mixed size batch workload.

  • The mixed size UBEs ran concurrently from the application server with the 10000 online users driven by the LoadRunner.

See Also

Disclosure Statement

Copyright 2011, Oracle and/or its affiliates. All rights reserved. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Other names may be trademarks of their respective owners. Results as of 9/26/2011.

Wednesday Mar 23, 2011

SPARC T3-1B Doubles Performance on Oracle Fusion Middleware WebLogic Avitek Medical Records Sample Application

The Oracle WebLogic Server 11g software was used to demonstrate the performance of the Avitek Medical Records sample application. A configuration using SPARC T3-1B and SPARC Enterprise M5000 servers from Oracle was used and showed excellent scaling of different configurations as well as doubling previous generation SPARC blade performance.

  • A SPARC T3-1B server, running a typical real-world J2EE application on Oracle WebLogic Server 11g, together with a SPARC Enterprise M5000 server running the Oracle database, had 2.1x times the transactional throughput over the previous generation UltraSPARC T2 processor based Sun Blade T6320 server module.

  • The SPARC T3-1B server shows linear scaling as the number of cores in the SPARC T3 processor used in the SPARC T3-1B system module are doubled.

  • The Avitek Medical Records application instances were deployed in Oracle Solaris zones on the SPARC T3-1B server, allowing for flexible, scalable and lightweight architecture of the application tier.

Performance Landscape

Performance for the application tier is presented. Results are the maximum transactions per second (TPS).

Server Processor Memory Maximum TPS
SPARC T3-1B 1 x SPARC T3, 1.65 GHz, 16 cores 128 GB 28,156
SPARC T3-1B 1 x SPARC T3, 1.65 GHz, 8 cores 128 GB 14,030
Sun Blade T6320 1 x UltraSPARC T2, 1.4 GHz, 8 cores 64 GB 13,386

The same SPARC Enterprise M5000 server from Oracle was used in each case as the database server. Internal disk storage was used.

Configuration Summary

Hardware Configuration:

1 x SPARC T3-1B
1 x 1.65 GHz SPARC T3
128 GB memory

1 x Sun Blade T6320
1 x 1.4Ghz GHz SPARC T2
64 GB memory

1 x SPARC Enterprise M5000
8 x 2.53 SPARC64 VII
128 GB memory

Software Configuration:

Avitek Medical Records
Oracle Database 10g Release 2
Oracle WebLogic Server 11g R1 version 10.3.3 (Oracle Fusion Middleware)
Oracle Solaris 10 9/10
HP Mercury LoadRunner 9.5

Benchmark Description

Avitek Medical Records (or MedRec) is an Oracle WebLogic Server 11g sample application suite that demonstrates all aspects of the J2EE platform. MedRec showcases the use of each J2EE component, and illustrates best practice design patterns for component interaction and client development. Oracle WebLogic server 11g is a key component of Oracle Fusion Middleware 11g.

The MedRec application provides a framework for patients, doctors, and administrators to manage patient data using a variety of different clients. Patient data includes:

  • Patient profile information: A patient's name, address, social security number, and log-in information.

  • Patient medical records: Details about a patient's visit with a physician, such as the patient's vital signs and symptoms as well as the physician's diagnosis and prescriptions.

MedRec comprises of two main Java EE applications supporting different user scenarios:

medrecEar – Patients log in to the web application (patientWebApp) to register their profile or edit. Patients can also view medical records or their prior visits. Administrators use the web application (adminWebApp) to approve or deny new patient profile requests. medrecEar also provides all of the controller and business logic used by the MedRec application suite, as well as the Web Service used by different clients.

physicianEar – Physicians and nurses login to the web application (physicianWebApp) to search and access patient profiles, create and review medical records, and prescribe medicine to patients. The physician application is designed to communicate using the Web Service provided in the medrecEar.

The medrecEAR and physicianEar application are deployed to Oracle WebLogic Server 11g instance called MedRecServer. The physicianEAR application communicates with the controller components of medrecEAR using Web Services.

The workload injected into the MedRec applications measures the average transactions per second for the following sequence:

  1. A client opens page http://{host}:7011/Start.jsp (MedRec)
  2. Patient completes Registration process
  3. Administrator login, approves the patient profile, and logout
  4. Physician connect to the on-line system and logs in
  5. Physician performs search for a patient and looks up patient's visit information
  6. Physician logs out
  7. Patient logs in and reviews the profile
  8. Patient makes changes to the profile and updates the information
  9. Patient logs out

Each of the above steps constitutes a single transaction.

Key Points and Best Practices

Please see the Oracle documentation on the Oracle Technical Network for tuning your Oracle WebLogic Server 11g deployment.

See Also

Disclosure Statement

Copyright 2011, Oracle and/or its affiliates. All rights reserved. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Other names may be trademarks of their respective owners. Results as of 3/22/2011.

About

BestPerf is the source of Oracle performance expertise. In this blog, Oracle's Strategic Applications Engineering group explores Oracle's performance results and shares best practices learned from working on Enterprise-wide Applications.

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