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Available Netweaver Benchmarks

The SAP BW Advance Mixed Load Benchmark (BW-AML Benchmark) is the successor of the popular BW-EML benchmark which was retired recently. The new BW-AML meets the most current demands of typical business warehouse customers.

BW-AML results

 

Main differences/extensions between BW-EML and BW-AML:

Benchmark Operation
  • The old BW-EML Benchmark was designed for optimizing query throughput only. The BW-AML now introduces a second phase which aims at response time optimization, with strong focus of customer relevant use cases / scenarios
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Data Model
  • Inserts / Updates / Deletes on transactional data during delta loads
  • Master data changes along with delta loads
  • Utilization of navigation attributes
  • Multiple currencies in source data
  • Stand-alone data loads to measure data load times (Phase 2)
  • Master data lookups, non-trivial transformations (Phase 2)
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Queries
  • Randomization of selection of key figures, changing set of key figures in navigation step
  • More sophisticated use of FEMS queries and exception aggregation
  • Currency conversion
  • Extension of all queries and navigation steps on multiple part providers
  • Different query patterns for InfoCube / DSO multiproviders
 

The BW-AML benchmark consists of 2 phases. Phase 1 is for measuring query throughput at a defined number of initial records. Phase 2 collects information about the runtimes of complex queries and complex delta loads.

The BW-AML benchmark KPIs are for Benchmark Phase 1 the query throughput measured in Advanced Query Navigation Steps / hour. For Phase 2 the 10 complex query runtimes result in the KPI Normalized mean runtime single query test. Finally, the delta load of phase 2 loading, transforming and aggregating 50 Million records results in the Total runtime delta load/transformation test KPI.

Important: Due to the changes in the data model, query design and KPIs the BW-EML and BW-AML benchmark results are not comparable

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The data mart scenario is one use of the Business Intelligence capabilities of SAP NetWeaver. The data mart contains a static snapshot of operational data. Multiple users run queries on this data in 10 InfoCubes which contain 2,500,000,000 records. The key figure is the number of query navigation steps/hour.

 

Benchmark Results

Note: The BI-D results can not be compared with the results of the query phase of the BW benchmark as different queries are executed.

Procedure

The following actions are simulated in an SD InfoCube.

  • 1. Query 1: Select a year
  • 2. Within the year, drill down to a specific country
  • 3. Within the country, drill down to a specific sales organization
  • 4. Within the sales organization, drill down to distribution channel
  • 5. Within the distribution channel, drill down to type, version, and material number
  • 6. Change material number and customer number
  • 7. Start new query including formulas
  • 8. Query 2: Start a new query that retrieves the yearly and quarterly sales volumes for different types of ranges, e.g. sales organizations
  • 9. Query 3: Similar to query 1 for country, sales organization, and distribution channel
  • 10. Within this query, expand to material level two
  • 11. Expand to level three
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The mixed load scenario is one use of the Business Intelligence capabilities of SAP NetWeaver. In this scenario, query activity and load/update activity are executed in parallel. Multiple users run queries on data in 10 SD InfoCubes. You can choose from the following size categories for the initial data load:

  • 300 million records
  • 1000 million records
  • 3000 million records

In three phases during high load activity, static operational data is extended with delta data.

The key figure of this benchmark is the number of query navigation steps/hour.

The BI mixed load benchmark can be run with or without BI Accelerator.

 

Benchmark Results

Procedure

The following actions are simulated in an SD InfoCube. Three times during the benchmark run (total 1 hour), a delta data package is uploaded. The total size of these packages is 1/1000th of the total records of the initial load

  • 1. Query 1: Select a year
  • 2. Within the year, drill down to a specific country
  • 3. Within the country, drill down to a specific sales organization
  • 4. Within the sales organization, drill down to distribution channel
  • 5. Within the distribution channel, drill down to type, version, and material number
  • 6. Change material number and customer number
  • 7. Start new query including formulas
  • 8. Query 2: Start a new query that retrieves the yearly and quarterly sales volumes for different types of ranges, e.g. sales organizations
  • 9. Query 3: Similar to query 1 for country, sales organization, and distribution channel
  • 10. Within this query, expand to material level two
  • 11. Expand to level three
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The SAP BW edition for SAP HANA Standard Application Benchmark is the latest addition to the list of SAP BW benchmarks. The new SAP BW edition for SAP HANA benchmarks goes well beyond the scope and features used in the BW-AML benchmark. The new benchmark can fully utilize the new capabilities of SAP HANA to process the benchmark workload – thus the benchmark will only be available on the SAP BW edition for SAP HANA. The benchmark workload completely differs from that of the BW-AML benchmark.

The benchmark consists of 3 phases.

  • 1. Data load phase
  • 2. Query throughput phase
  • 3. Query runtime phase

Allowed data volumes are a multiple of 1.3 billion initial records.

Initial Data volumes: n * 1.3 billion records
Single- and Multi-Node Setups

Important: Due to the completely different workload, data model, query design and KPIs the BW-AML and SAP BW edition for SAP HANA benchmark results are not comparable.

SAP BW edition for SAP HANA Standard Application Benchmark 

Data load phase
  • The old BW-EML Benchmark was designed for optimizing query throughput only. The BW-AML now introduces a second phase which aims at response time optimization, with strong focus of customer relevant use cases / scenarios
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Query Phases (Query throughput phase / Query runtime phase)
  • Inserts / Updates / Deletes on transactional data during delta loads
  • Master data changes along with delta loads
  • Utilization of navigation attributes
  • Multiple currencies in source data
  • Stand-alone data loads to measure data load times (Phase 2)
  • Master data lookups, non-trivial transformations (Phase 2)
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The SAP BW Enhanced Mixed Load Benchmark (BW-EML Benchmark) meets the current demands of typical business warehouse customers. These demands are mainly coined by three major requirements:

  • Near real-time reporting – Getting instant results from analytical applications on last minute data nowadays is crucial for timely decision making. Typical examples for real-time data analysis include smart metering or trade promotion management.
  • Ad-hoc reporting capabilities – During the last few years, data volumes in data warehouses have dramatically grown. One reason for this growth is the increased complexity and detail level of the data, which in turn requires much more sophisticated and complex analysis methods. As a result, analytical applications are supposed to facilitate navigating through huge amounts of data by providing extensive slicing and dicing functionality. This makes it inherently difficult to foresee frequent navigation patterns and pre-calculate intermediate results to speed up reporting performance. Ad-hoc type query capabilities are required to satisfy these demands.
  • Reduction of TCO – Typical sizes of today's data warehouses comprise tens or hundreds of terabytes of data. It is therefore crucial to keep data redundancy at a low level, but still be able to maintain layered data models. SAP NetWeaver BW 7.30 helps reduce the total cost of ownership by allowing reports to run directly on DataStore objects which are the core building elements of a layered warehousing architecture, often eliminating the need to maintain data redundantly in multi-dimensional InfoCube data structures.

The latest addition to the family of SAP BW Application Benchmarks – the BW-EML Benchmark – has been developed with these three customer requirements in mind.

Like its predecessor the BW-MXL Benchmark, the EML Benchmark focuses on a mix of multi user reporting load and delta data that is loaded into the database simultaneously to the queries.

 
Benchmark Results
Benchmark Data Model
The data model consists of three InfoCubes and seven DataStore objects. Each of these objects holds data of one particular year. The three InfoCubes hold the same data as the corresponding DataStore objects for the last three years. Both object types have the same set of fields. The InfoCube comes with a full set of 16 dimensions which comprise a total of 63 characteristics, having cardinalities of up to 1 million different values and one complex hierarchy. With its 30 different key figures, including key figures requiring exception aggregation, the InfoCube data model has been defined in close accordance with typical customer data models. In the DataStore object data model, the high cardinality characteristics have been defined as key members, while other characteristics have been modeled as part of the data members.
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Data Volumes
SAP BW-EML Benchmark can be executed with various different data volumes. In its smallest configuration, the benchmark rules require an initial load of a total of 500 million records (i.e. 50 million records per InfoCube / DataStore object) coming from ASCII flat files. Further possible configurations include initial load volumes of 1000 million and 2000 million records and more. Even larger data volumes can be defined for distributed server landscapes. The total record length in the ASCII files is 873 bytes. In any case, the total number of records that needs to be loaded in addition to the initial load is one thousandth of the initial records. A single benchmark run is supposed to last at least one hour. During this time, the delta data have to be loaded in small chunks every five minutes. Each InfoCube and DataStore object has to be loaded with the same number of records.
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Query Model

Eight reports have been defined on two MultiProviders – one MultiProvider for the three InfoCubes, and another MultiProvider for the seven DataStore objects. Since the InfoCubes and DataStore objects have the same set of fields, the respective reports on both MultiProviders are identical so that we actually have two sets of four queries each.

Reports select data for one particular year, picking the InfoCube or DataStore object containing the data randomly. Within one report further navigation steps are executed, each of them resulting in an individual query and a database access. Although the first three reports follow similar navigation patterns, the filter and drill-down operations have been randomized to address the demand for ad-hoc types of queries. While random values for filter parameters make sure that different partitions of data are accessed, a random choice of characteristic that are used for drill downs or other slice-and-dice operations makes sure that a huge number of different characteristics combinations is covered in a multi user reporting scenario. In order to guarantee a high degree of reproducibility of the reporting results, characteristics have been grouped by their respective cardinalities, and only characteristics of the same cardinality are considered for a randomized operation.

The key figure of this benchmark is the number of ad-hoc navigation steps/hour. Given the differences of the queries and data models, results of the EML benchmark cannot be compared to those of the MXL Benchmark.

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The Employee Self-Service Portal (EP-ESS) Benchmark is part of the SAP Standard Application Benchmark suite for SAP NetWeaver Portal. The suite consists of two representative business cases that are highly visible in the market and allow for the testing of high numbers of concurrent users on the portal. Each scenario is a standard application benchmark in its own right and can be run separately.

 
Benchmark Results

The EP-ESS Benchmark uses the Business Package for Employee Self-Service. EP-ESS provides a number of iViews that allow employees to create, display, and change their own data, such as department, name, address, and more in the SAP R/3 back-end system. This benchmark focuses on concurrent users with the employee role (workset Employee Self-Service) and their top-level navigation behavior in the portal. From a technical point of view, this benchmark tests the performance of the portal platform (running on the SAP NetWeaver Java stack), while launching business transactions. The back-end influence on the performance has been omitted.

User Interaction Steps of the EP-ESS Benchmark
  • 1. Log on to the portal – Welcome page (includes three iViews)
  • 2. Choose Working Time —> Record Working Time
  • 3. Choose Leave Request
  • 4. Choose Leave Request Overview
  • 5. Choose Personal Information —> Personal Data
  • 6. Choose Address
  • 7. Choose Bank Information
  • 8. Choose Benefits and Payment —> Paycheck Inquiry
  • 9. Log off from portal
 

Seven different business transactions are launched per loop (steps 2 - 8). Every loop is repeated n times. The user think time is 10 seconds; thus, one loop takes at least 70 seconds.

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The People-Centric CRM Portal (EP-PCC) Benchmark is part of the SAP Standard Application Benchmark suite for SAP NetWeaver Portal. The suite consists of two representative business cases that are highly visible in the market and allow for the testing of high numbers of concurrent users on the portal. Each scenario is a standard application benchmark in its own right and can be run separately.

The People-Centric CRM (EP-PCC) Benchmark uses the Business Package for SAP CRM: Business Productivity Pack. This business package provides a number of iViews that display sales information from SAP Business Information Warehouse (SAP BW) and SAP Customer Relationship Management (SAP CRM) systems for employees in sales, marketing, and service who need to make the correct decision quickly and effectively at all times. This benchmark focuses on concurrent users in the sales representative role and their top-level navigation behavior in the portal. From a technical point of view, this benchmark tests the performance of the portal platform (running on the SAP NetWeaver Java stack), while launching business transactions, rendering the presentation output, and caching SAP BW business content. The SAP BW and SAP CRM back-end responses are simulated to avoid the influence of back-end load on the portal performance.

User Interaction Steps of the EP-PCC Benchmark
  • 1. Log on to the portal – Welcome Page (includes three iViews)
  • 2. Choose Home —> Today (includes four iViews)
  • 3. Choose Activities —> Overview (includes four iViews)
  • 4. Choose Account Management —> Overview (includes two iViews)
  • 5. Choose Acquisition —> Overview (includes three iViews)
  • 6. Log off from portal
 

Thirteen different iViews are rendered per loop (steps 2 - 5). Every loop is repeated n times. The user think time is 10 seconds; thus, one loop takes at least 40 seconds

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Benchmark Results

2,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Phase 1: Advanced Navigation Steps/Hours   Phase 2: Normalized mean runtime single query test (seconds per billion records):   Phase 2: Total runtime delta load/transformation test (seconds):   Operating System - Release Database Server   Database Release   Certification Number
11/18/2016    Hitachi   34,010   7.65   275   SuSE Linux Enterprise Server 12   SAP HANA 1.0   2016055
10/24/2016   Fujitsu   25,770

  7.99   336   SuSE Linux Enterprise Server 11   SAP HANA 1.0   2016049
08/12/2016   Fujitsu   25,580   9.21   356   SuSE Linux Enterprise Server 11   SAP HANA 1.0   2016040
07/21/2016   Dell   33,500   7.89   274   SuSE Linux Enterprise Server 11   SAP HANA 1.0   2016037
07/04/2016   Hitachi   32,190   9.09   303   SuSE Linux Enterprise Server 12   SAP HANA 1.0   2016035
06/06/2016   Dell   29,560   9.48   351   SuSE Linux Enterprise Server 11   SAP HANA 1.0   2016025
05/13/2016   Dell   23,690   9.56   361   SuSE Linux Enterprise Server 11   SAP HANA 1.0   2016019

4,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Phase 1: Advanced Navigation Steps/Hours   Phase 2: Normalized mean runtime single query test (seconds per billion records):   Phase 2: Total runtime delta load/transformation test (seconds):   Operating System - Release Database Server   Database Release   Certification Number
11/18/2016   Dell   21,580   6.11   294   SuSE Linux Enterprise Server 11   SAP HANA 1.0  
2016054
10/26/2016   Hitachi   20,360
  5.56   309   SuSE Linux Enterprise Server 12

  SAP HANA 1.0

  2016052
06/06/2016   Dell   18,440   6.61   364   SuSE Linux Enterprise Server 11   SAP HANA 1.0   2015026
06/06/2016   Dell   14,990   6.72   358   SuSE Linux Enterprise Server 11   SAP HANA 1.0   2015022

SAP NetWeaver 2004s

Date of Certification (mm/dd/yyyy)   Technology Partner   Query Navigation Steps/ Hour   Operating System - Release   RDBMS Release   SAP NetWeaver  Release   Central Server   Number of Processors   Number of Cores   Number of Threads   CPU Type   CPU Speed (MHz)   CPU Cache   Central Server Memory (MB)   Certification Number
3/30/2010   Fujitsu   854649   SuSE Linux Enterprise Server 10   Oracle 11g Real Application Clusters (RAC)   SAP NetWeaver 7.0 (non-Unicode)   Fujitsu PRIMERGY RX600 S5   4   32   64   Intel Xeon Processor X7560   2260   4 KB L1 cache and 256 KB L2 cache per core, 24 MB L3 cache per processor   131072   2010011
10/12/2009   Fujitsu   320363   SuSE Linux Enterprise Server 10   Oracle 10g Real Application Clusters (RAC)   SAP NetWeaver 7.0 (non-Unicode)   Fujitsu Primergy RX300-S5   2   8   16   Intel Xeon Processor X5570   2930   64 KB L1 cache and 256 KB L2 cache per core, 8 MB L3 cache per processor   98304   2009036
10/31/2008   IBM   182112   i 6.1   DB2 for
i 6.1
  SAP NetWeaver 7.0 (2004s)   IBM Power System 570   4   8   16   POWER6   5000   128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor   131072   2008063
4/8/2008   IBM   40445   i 6.1   DB2 for
i 6.1
  SAP NetWeaver 7.0 (2004s)   IBM Power System 520 Express   1   2   4   POWER6   4200   128 KB L1 cache and 4 MB L2 cache per core   32768   2008020
10/22/2007   IBM   26224   i5/OS V5R4   DB2 for i5/OS V5R4   SAP NetWeaver 7.0 (2004s)   IBM System i 520   2   2   4   POWER5+   1900   32 KB(D) + 64 KB(I) L1 cache per processor, 1.9 MB L2 cache and 36 MB L3 cache per 2 processors   16384   2007061
7/24/2007   IBM   92716   i5/OS V5R4M5   DB2 for i5/OS V5R4M5   SAP NetWeaver 7.0 (2004s)   IBM System i 570   2   4   8   POWER6   4700   128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor   65536   2007047
4/19/2007   IBM   114687   i5/OS V5R4   DB2 for i5/OS V5R4   SAP NetWeaver 2004s   IBM System i5 570   8   8   16   POWER5+   2200   32 KB(D) + 64 KB(I) L1 cache, 1.9 MB L2 cache, 36 MB L3 cache   131072   2007027
01/25/2007   IBM   51875   i5/OS V5R4   DB2 for i5/OS V5R4   SAP NetWeaver 2004s   IBM System i5 570   4   4   8   POWER5+   2200   32 KB(D) + 64 KB(I) L1 cache, 1.9 MB L2 cache, 36 MB L3 cache   65536   2007003

SAP NetWeaver 7.0

Date of Certification (mm/dd/yyyy)   Technology Partner   Query Navigation Steps/ Hour   Operating System – Release   RDBMS Release   SAP NetWeaver  Release   Database Servers   Database Server Memory (MB)   Number & Type of Application Servers   Certification Number
5/31/2010   Fujitsu   1624629   SUSE Linux Enterprise Server 10   Oracle 11g Real Application Clusters (RAC)   SAP NetWeaver 7.0 (non-Unicode)   2 x Fujitsu Primergy RX600 S5, 4 processors / 32 cores / 64 threads, Intel Xeon Processor X7560, 2,26 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 24 MB L3 cache per processor; 1 server 128 and one server 256 GB main memory   1 x 131072 and 1 x 262144   ran on database server   2010024
11/9/2009   Fujitsu   1,165,742   SuSE Linux Enterprise Server 10   Oracle 10g Real Application Clusters (RAC)   SAP NetWeaver 7.0 (non-Unicode)   4 x Fujitsu Primergy RX300-S5, 2 processors / 8 cores / 16 threads, Intel Xeon Processor X5570, 2.93 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 8 MB L3 cache per processor   4 x 98304   ran on database server   2009045
11/9/2009   Fujitsu   900.309   SuSE Linux Enterprise Server 10   Oracle 10g Real Application Clusters (RAC)   SAP NetWeaver 7.0 (non-Unicode)   3 x Fujitsu Primergy RX300-S5, 2 processors / 8 cores / 16 threads, Intel Xeon Processor X5570, 2.93 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 8 MB L3 cache per processor   3 x 98304   ran on database server   2009044
10/12/2009   Fujitsu   609349   SuSE Linux Enterprise Server 10   Oracle 10g Real Application Clusters (RAC)   SAP NetWeaver 7.0 (non-Unicode)   2 x Fujitsu Primergy RX300-S5, 2 processors / 8 cores / 16 threads, Intel Xeon Processor X5570, 2.93 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 8 MB L3 cache per processor   2 x 98304   ran on database server   2009037

SAP NetWeaver 2004s and SAP NetWeaver 7.0, Without BI Accelerator

 
300,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Query Navigation Steps/ Hour   Operating System – Release Database Server   RDBMS Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
11/30/2010   IBM   300,000,000   625646   i 7.1   DB2 for i 7.1   SAP NetWeaver 7.0   IBM Power System 780, 4 processor / 16 cores / 64 threads, POWER7, 4100 MHz, 32 KB(D) + 32 KB(I) L1 cache and 256 KB L2 cache per core, 8 MB L3 cache per core   2010047
8/17/2010   IBM   300,000,000   151,426   i 7.1   DB2 for i 7.1   SAP NetWeaver 7.0   IBM Power System 740, 1 processor / 4 cores / 16 threads, POWER7, 3.30 GHz, 32 KB(D) + 32 KB(I) L1 cache and 256 KB L2 cache per core, 8 MB L3 cache per core, 64 GB main memory   2010035
4/13/2010   IBM   300,000,000   278462   i 7.1   DB2 for i 7.1   SAP NetWeaver 7.0   IBM Power System 750, 1 processor / 8 cores / 32 threads, POWER7, 3.30 GHz, 32 KB(D) + 32 KB(I) L1 cache and 256 KB L2 cache per core, 4 MB L3 cache per core, 128 GB main memory   2010014
2/8/2010   IBM   300,000,000   241526   i 6.1   DB2 for i 6.1   SAP NetWeaver 7.0   IBM Power System 750, 1 processor / 8 cores / 32 threads, POWER7, 3.30 GHz, 32 KB(I) + 32 KB(D) L1 cache and 256 KB L2 cache per core, 4 MB L3 cache per core, 128 GB main memory   2010005
10/20/2009   IBM   300,000,000   154447   i 6.1   DB2 for i 6.1   SAP NetWeaver 7.0   IBM Power System 570, 4 processors / 8 cores / 16 threads, POWER6, 4.2 GHz, 128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor, 128 GB main memory   2009043
4/28/2009   IBM   300,000,000   90,635   i 6.1   DB2 for i 6.1   SAP NetWeaver 7.0   IBM Power 550, 2 processors / 4 cores / 8 threads, POWER6, 5.0 GHz, 128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor, 64 GB main memory   2009011
4/28/2009   IBM   300,000,000   90,492   i 6.1   DB2 for i 6.1   SAP NetWeaver 7.0   IBM Power 550, 2 processors / 4 cores / 8 threads, POWER6, 5.0 GHz, 128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor, 64 GB main memory   2009010
3/19/2009   IBM   300,000,000   41,090   i 6.1   DB2 for i 6.1   SAP NetWeaver 7.0   IBM Power 520, 1 processor / 2 cores / 4 threads, POWER6, 4.7 GHz, 128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor, 32 GB main memory   2009002
12/8/2008   IBM   300,000,000   93.468   i 6.1   DB2 for i 6.1   SAP NetWeaver 7.0   IBM Power System 570, 2 processors / 4 cores / 8 threads, POWER6, 5.0 GHz, 128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor, 96 GB main memory   2008069

1.300.000.000 initial records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Phase 1: Total Runtime of Data Load/Transformation (seconds)   Phase 2: Query Executions per Hour / Records selected   Phase 3: Total Runtime of complex query phase (seconds)   OS / Database / SAP version   Dabase server(s)   Certification Number
08/24/2016   Dell   21.473   1,972 / 102,183,318,183   202   SuSE Linux Enterprise Server 11 / SAP HANA 1.0 / SAP NetWeaver 7.50   Dell PowerEdge R930, 4 processor / 96 cores / 192 threads, Intel Xeon Processor E7-8890 v4, 2.20 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 60 MB L3 cache per processor, 1024 GB main memory   2016043

500,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Ad-Hoc Navigation Steps/ Hour   Operating System - Release Database Server   Database Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
8/8/2013   IBM   500,000,000   66,900   i 7.1   DB2 for i 7.1   SAP NetWeaver 7.30   IBM Power System 750 Express Server, 4 processor / 32 cores / 128 threads, POWER7+, 4.06 GHz, 32 KB(D) + 32 KB(I) L1 cache and 256 KB L2 cache per core, 10 MB L3 cache per core, 512 GB main memory   2013020

1,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Ad-Hoc Navigation Steps/Hour   Operating System - Release Database Server   Database Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
05/05/2015   Dell   1,000,000,000   320,940   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.31   1 database server: Dell PowerEdge R930, 4 processors / 72 cores / 144 threads, Intel Xeon Processor E7-8890 v3, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 1536 GB main memory

2 application servers: Dell PowerEdge R910, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2015015
10/20/2014   Dell   1,000,000,000   148,680   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.31   1 database server: Dell PowerEdge R730, 2 processors / 36 cores / 72 threads, Intel Xeon Processor E5-2699 v3, 2.30 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 512 GB main memory

2 application servers: Dell PowerEdge R910, 4 processors / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2014038
09/25/2013   HP   1,000,000,000   129,930   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.30   1 database server: HP DL580 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory

1 application server: HP BL680 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2013027
05/16/2012   HP   1,000,000,000   65,990   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.30   1 database server: HP DL580 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory

1 application server: HP BL680 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2012023

2,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Ad-Hoc Navigation Steps/Hour   Operating System - Release Database Server   Database Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
09/28/2015   Dell   2,000,000,000   191,170   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.40   1 database server: Dell PowerEdge R930, 4 processors / 72 cores / 144 threads, Intel Xeon Processor E7-8890 v3, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 1024 GB main memory

2 application servers: Dell PowerEdge R910, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2015039
05/05/2015   Dell   2,000,000,000   172,450   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.31   1 database server: Dell PowerEdge R930, 4 processors / 72 cores / 144 threads, Intel Xeon Processor E7-8890 v3, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 1536 GB main memory

2 application servers: Dell PowerEdge R910, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2015014
08/03/2015   HP   2,000,000,000   181,880   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.30   1 database server: HP DL580 Gen9, 4 processors / 72 cores / 144 threads, Intel Xeon Processor E7-8890 v3, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 1024 GB main memory

2 application servers: 1 x HP BL680 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 1024 GB main memory 1 x HP BL680 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2015035
06/01/2015   IBM   2,000,000,000   192,750   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.31   1 database server: IBM Power Enterprise System 870, 4 processors / 40 cores / 320 threads, POWER8, 4.19 GHz, 32 KB (I) and 64 KB (D) L1 cache and 512 KB L2 cache per core, 8 MB L3 cache per core, 1024 GB main memory

2 application servers: 1 x IBM Power Enterprise System 850, 4 processors / 40 cores / 160 threads, POWER8, 3.35 GHz, 32 KB (I) and 64 KB (D) L1 cache and 512 KB L2 cache per core, 8 MB L3 cache per core, 1024 GB main memory

1 x IBM Power 760, 4 processors / 48 cores / 192 threads, POWER7+, 3.41 GHz, 32 KB (I) and 32 KB (D) L1 cache and 256 KB L2 cache per core, 10 MB L3 cache per core, 1024 GB main memory
  2015024
11/20/2014   Dell   2,000,000,000   137,010   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.31   1 database server: Dell PowerEdge R920, 4 processors / 60 cores / 120 threads, Intel Xeon Processor E7-4890 v2, 2.80 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 37.5 MB L3 cache per processor, 1024 GB main memory

2 application servers: Dell PowerEdge R910, 4 processors / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2014044
06/02/2014   HP   2,000,000,000   111,850   SuSE Linux Enterprise Server 11 on VMWARE ESX 5.5   SAP HANA 1.0   SAP NetWeaver 7.30   1 database server: HP DL580 Gen8, 4 processors / 60 cores / 120 threads, Intel Xeon Processor E7-4880 v2, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 1024 GB main memory

1 application servers: HP BL680 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 1024 GB main memory

1 application servers: HP BL680 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2014021
03/26/2014   HP   2,000,000,000   126,980   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.30   1 database server: HP DL580 Gen8, 4 processors / 60 cores / 120 threads, Intel Xeon Processor E7-4880 v2, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 1024 GB main memory

2 application servers: HP BL680 G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 1024 GB main memory"
  2014009

3,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Ad-Hoc Navigation Steps/Hour   Operating System - Release Database Server   Database Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
05/27/2015   Dell   3,000,000,000   120,790   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.31   1 database server: Dell PowerEdge R930, 4 processors / 72 cores / 144 threads, Intel Xeon Processor E7-8890 v3, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 1536 GB main memory

2 application servers: Dell PowerEdge R910, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2015022

Multi-DB Node

1,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Ad-Hoc Navigation Steps/Hour   Operating System - Release Database Server   Database Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
05/27/2015   Dell   1,000,000,000   1,610,380   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.31   7 x Dell PowerEdge R920, 4 processors / 60 cores / 120 threads, Intel Xeon Processor E7-4880 v2, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 37.5 MB L3 cache per processor, 1024 GB main memory

15x application server: 4 x Dell PowerEdge R910, 4 processors / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 37.5 MB L3 cache per processor, 1024 GB main memory 1 x Dell PowerEdge R920, 4 processors / 60 cores / 120 threads, Intel Xeon Processor E7-4880 v2, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 37.5 MB L3 cache per processor, 1024 GB main memory 10 x Dell PowerEdge R630, 2 processors / 24 cores / 48 threads, Intel Xeon Processor E5-2670 v3, 2.30 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 256 GB main memory
  2015023
05/05/2015   Lenovo   1,000,000,000   1,992,570   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.40   7 x database servers: Lenovo x3850 X6 , 4 processor / 72 cores / 144 threads, Intel Xeon Processor E7-8890 v3, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 1024 GB main memory

15 x IBM Flex System x880 X6 Compute Node, 2 processor / 30 cores / 60 threads, Intel Xeon Processor E7-8890 v2, 2.80 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 37.5 MB L3 cache per processor, 256 GB main memory
  2015011
03/16/2015   Lenovo   1,000,000,000   1,542,060   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.40   7 x database servers: Lenovo x3850 X6 , 4 processor / 60 cores / 120 threads, Intel Xeon Processor E7-4880 v2, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 37.5 MB L3 cache per processor, 1024 GB main memory

12 x application server: IBM X3850 X5, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 256 GB main memory
  2015007

Multi-DB Node

3,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Ad-Hoc Navigation Steps/Hour   Operating System - Release Database Server   Database Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
05/05/2015   VCE   3,000,000,000   124,570   SuSE Linux Enterprise Server 11 on VMWARE ESX 5.5   SAP HANA 1.0   SAP NetWeaver 7.31   4 database servers, virtualized: 1 x VCE Vblock Specialized System for SAP HANA 4+0 containing 4 server blades each with: 4 processor / 40 cores / 80 threads Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory

2 x application server: 1 x VCE Vblock Specialized System for SAP HANA containing 2 server blades each with: 4 processors / 40 cores / 80 threads, Intel Xeon Processor E7- 4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory
  2015016
12/06/2013   HP   3,000,000,000   128,650   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.30   "4 x database servers: HP BL680C G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory

1 x application server: HP BL680C G7, 4 processor / 40 cores / 80 threads, Intel Xeon Processor E7-4870, 2.40 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 30 MB L3 cache per processor, 512 GB main memory

1 x HP BL460C Gen8, 2 processor / 16 cores / 32 threads, Intel Xeon Processor E5-2680, 2.70 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 20 MB L3 cache per processor, 256 GB main memory"
  2013037

Multi-DB Node

10,000,000,000 records

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of records   Ad-Hoc Navigation Steps/ Hour   Operating System - Release Database Server   Database Release   SAP NetWeaver Release   Number & Type of Database/Application Servers   Certification Number
05/05/2015   Lenovo   10,000,000,000   269,960   SuSE Linux Enterprise Server 11   SAP HANA 1.0   SAP NetWeaver 7.40   7 x database servers: Lenovo x3850 X6 , 4 processor / 72 cores / 144 threads, Intel Xeon Processor E7-8890 v3, 2.50 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 45 MB L3 cache per processor, 1024 GB main memory

15 x application server: IBM Flex System x880 X6 Compute Node, 2 processor / 30 cores / 60 threads, Intel Xeon Processor E7-8890 v2, 2.80 GHz, 64 KB L1 cache and 256 KB L2 cache per core, 37.5 MB L3 cache per processor, 256 GB main memory
  2015018

SAP NetWeaver Portal 6.0 and 7.0

Date of Certifcation (mm/dd/yyyy)   Technology Partner   Number of Portal Users   Average Online Response Time (sec)   Number of Top Level Navigation Steps/Hour   Operating System - Release   JSE - Version   SAP NetWeaver Release   Central Server   Number of processors   Number of cores   Number of threads   CPU Type   CPU Speed (MHz)   Cache   Central Server Memory (MB)   Certification Number
8/30/2007   IBM   2600   1.81   792619   AIX 5L Version 5.3   IBM Java 1.4.2   7.0 (2004s)   IBM System p 570   2   4   8   POWER6   4700   128 KB L1 cache and 4 MB L2 cache per core, 32 MB L3 cache per processor   32768   2007052
4/7/2006   Dell   1941   1.99   583000   SuSE Linux Enterprise Server 9 (64-bit)   IBM JSE 1.4.2 (64-bit)   2004 (64-bit)   Dell PowerEdge Model 6850   4   8   16   Intel XEON Dual-Core   3000   16 KB L1 cache, 2 MB L2 cache   32768   2006017
03/02/2006   Sun   1440   1.94   433912   SuSE Linux Enterprise Server 9 (64-bit)   IBM JSE 1.4.2 (64-bit)   2004 (64-bit)   Sun Fire Model V20z   2   4   4   Dual-core AMD Opteron processor Model 275   2200   128 KB L1 cache, 1 MB L2 cache   8192   2006012
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