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Představení produktové řady Oracle SPARC S7
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Oracle’s SPARC S7 Servers
Josef Šlahůnek
Oracle Sales Consulting Systems
September 14th, 2016
Phone: 602 731 728
E-Mail: josef.slahunek@oracle.com
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Safe Harbor Statement
The following is intended to outline our general product direction. It is intended for
information purposes only, and may not be incorporated into any contract. It is not a
commitment to deliver any material, code, or functionality, and should not be relied upon
in making purchasing decisions. The development, release, and timing of any features or
functionality described for Oracle’s products remains at the sole discretion of Oracle.
3
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7 Servers: Technical Deep Dive
Overview
SPARC S7 Processor Overview
Server Details
Reliability, Availability, and Serviceability (RAS)
and System Management
1
2
3
4
4
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Oracle’s SPARC S7 servers extend the
world’s most advanced systems for
enterprise computing into scale-out
and cloud applications, with unique
capabilities for information security,
core efficiency and data analytics
acceleration.
SPARC S7 Processor–Based Systems
5
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 6
Oracle SPARC Portfolio
• Higher Performance as X86
• Better security
• SWoC
• Greater Application
consolidation
• From small to big
• Cloud
SPARC T5-4
64-cores @ 3.6GHz
2TB Memory
SPARC T5-8
128-cores @ 3.6GHz
4TB Memory
SPARC S7-2
8/16-cores @ 4.3GHz
1TB Memory
SPARC M7-16
SPARC
SuperCluster
M7
SPARC T5-2
16/32-cores @
3.6GHz
1TB MemorySPARC S7-2L
8/16-cores @ 4.3GHz
1TB Memory
SPARC T7-1
32-cores @ 4.2GHz
1TB Memory
SPARC T7-2
64-cores @ 4.2GHz
2TB Memory
SPARC T7-4
128-cores @ 4.2GHz
4TB Memory
SPARC M7-8
256-cores @ 4.2GHz
8TB Memory
512-cores @ 4.2GHz
16TB Memory
Fujitsu M10
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 7
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
(1) Maximum memory capacity is based on 64 GB DIMMs.
SPARC S7 Servers
SPARC S7-2 Server SPARC S7-2L Server
Processors 1 or 2 2
Max Cores/Threads 16 / 128 16 / 128
Max Memory1 1 TB 1 TB
Form Factor 1U 2U
Max Disk Drives 8 26
PCIe Slots Available 3 6
Integrated Ethernet 4x 10GBase-T 4x 10GBase-T
8
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7 Processor–Based Servers
• Oracle’s SPARC S7 processor:
– Software in Silicon features: Same as in Oracle’s SPARC M7 processor
– System-on-a-chip design: DDR4 interfaces and PCIe controller
• DDR4-2400 memory for high performance
• Internal SAS-3 Host Bus Adapter
• Onboard support for NVMe flash drives
• x8-capable PCIe 3.0 slots
• Oracle Integrated Lights Out Manager (Oracle ILOM)
management
• Oracle Solaris 11.3 or later required
– Oracle Solaris 10 1/13 supported in guest domains
Key Characteristics
9
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Two Systems, Five Enclosures, Shared Design
SPARC S7-2 and SPARC S7-2L Servers
SPARC S7-2L, 2U 12x 3.5-inch and 2x 2.5-inch drives
2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; ~100 TB storage (12x 3.5-inch drives plus 2x 2.5-inch SAS-3 drives)
SPARC S7-2L, 2U 26x 2.5-inch drives
2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; 39 TB storage (24x plus 2x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays)
SPARC S7-2L, 2U 8x 2.5-inch drives
2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; 17 TB storage (8x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays)
SPARC S7-2, 1U 8x 2.5-inch drives
1U; 1 or 2 processors; 16 DIMMs; 1,024 GB DDR4; 3 PCIe 3.0 slots; 17 TB storage (8x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays)
SPARC S7-2L, 2U 12x 2.5-inch NVMe flash drives
2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 4 PCIe 3.0 slots; 38 TB NVMe flash storage (12x 2.5-inch NVMe drives)
10
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7 Processor
Overview
11
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7 Processor Overview
• Software in Silicon features
– Silicon Secured Memory
– Cryptographic accelerators
– 4 DAX units, 16 DAX engines
• 8 cores at 4.27 GHz
• 64 hardware threads per processor
• Dynamic threading supporting critical threads
• Up to 8 DDR4 DIMMs per processor
• 2-way fully connected glueless symmetric multiprocessing (SMP)
• Technology: TSMC 20nm
12
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7: Full Integration, Simplicity
1-Processor SPARC T7 Server
2-Processor SPARC S7 Server
16 DIMM Slots
PCIe
Controller
DDR4
Interfaces 16 DIMM Slots
10GEthPCIe SlotsDisks 10GEthPCIe SlotsDisks
13
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Balanced Design Grows all Key Attributes for Efficiency
Continually Increasing Performance
SPARC T5 SPARC M7 SPARC S7
Processor Cores 16 32 8
Cache per Core 0.5 MB 2 MB 2 MB
Memory Bandwidth per Core 5.0 GB/s 5.3 GB/s 6.0 GB/s
Memory Access 163 ns 131 ns 97 ns
I/O Bandwidth 32 GB/s 145 GB/s 32 GB/s
Processor Frequency 3.60 GHz 4.13 GHz 4.27 GHz
Year 2013 2015 2016
14
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC Innovation is Continually Increasing Core Performance
15
x86 per core performance is stalled
CorePerformancevs.x86E5v2
2.0x
1.8x
1.6x
1.4x
1.2x
1.0x
.8x
2013 20152014 2016
x86: flat for four generations
M7
S7
SPARC: Database & Java
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Faster than the Latest from HPE
Dramatically Improve Java Application Efficiency
16
2,402
4,1121.7x Faster JavaS7-2
4.27 GHz S7 Core
x86
2.2 GHz E5 v4 Core
HPE DL360 G9
SPARC S7-2 (16-core) 65,790 SPECjbb2015-MultiJVM max-jOPS, 35,812 SPECjbb2015-MultiJVM critical-jOPS;
HP ProLiant DL360 Gen9 (44-core) 105,690 SPECjbb2015-MultiJVM max-jOPS, 52,952 SPECjbb2015-MultiJVM critical-jOPS
Max jOPS / Core
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Open Source OLTP Database Benchmark
Outstanding Leadership in Database Performance
S7-2
4.27 GHz S7 Core
X86
2.2 GHz E5 v4 Core
1.6x Faster Database
Transactions per minute, per Core
17
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
NoSQL Big Data Benchmark
Dramatically Scale your Big Data Workloads
18
Yahoo Cloud Serving Benchmark
11.4 K Ops
21.3 K Ops
1.9xFaster NoSQLS7-2
4.27 GHz S7 Core
X86
2.2 GHz E5 v4 Core
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7 Processor: Software in Silicon Features
Feature Benefits
Security
inSilicon
Silicon Secured Memory •Prevention of malicious memory access attacks
•Protection against silent data corruption in memory
•Faster and higher-quality code development
Cryptographic
Acceleration
•End-to-end security at full speeds
•Encryption of everything always
•Secured network and database transactions
SQLin
Silicon
In-Memory Query
Acceleration
•Analytics performed on live OLTP data
•Reduced number of systems needed for analytics and reporting
In-Line Decompression •Reduced memory footprint and lower TCO
•Increased in-memory databases and performance
Same Benefits as in the SPARC M7 Processor
19
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Revolutionary Hardwired Protection Against Data Corruption
Security in Silicon: Silicon Secured Memory
• SPARC S7 processor stops memory corruption
– Helps stop malicious code from accessing secure data
– When access is denied, the problem is reported
• Hidden “color” bits added to pointers and to
memory
• Pointer color must match content color or access is
aborted
• Can be used in production code with near-zero
impact on performance
Memory
Pointers
Memory
Content
20
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
CoreCoreCore Core
SQL in Silicon: In-Memory Query Acceleration
• The SPARC S7 processor includes on-chip
Data Analytics Accelerator (DAX) units
– Independently process streams of database
column elements placed in system memory
– Example: Find all values that match “California”
– 4 accelerator units per chip, with 4 pipelines each
• Free processor cores to run higher-level SQL
functions or other applications
• Read data directly from memory, process it,
and place results in cache for core usage
21
SPARC S7
Cache
DAX DAX DAX DAX
Core Core Core Core
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SQL in Silicon: In-Line Decompression
• The key to placing more data in memory
• The performance of decompression on
today’s processors is a huge bottleneck
• Solution: DAX unit runs decompression at
memory speeds
– Equivalent to eight decompression PCI cards and
30 CPU cores
• Increases useable memory
Process
Decompress
DAX
Data Stream
22
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Security in Silicon: Cryptographic Acceleration
• Eight cryptographic accelerators per SPARC S7 processor, one in each core
• Wire-speed encryption capabilities for secure data center operation
without a performance penalty
• Support for 15 industry-standard cryptographic algorithms plus random
number generation
• Easy to deploy via Oracle Solaris Cryptographic Framework
• Oracle Database 11.2.0.3 or later: Acceleration is automatic with Oracle
Database Enterprise Edition when Transparent Data Encryption is enabled
23
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
S7 advantage increases on highest security ciphers
Much Faster End-To-End Encryption
SPARC S7
Core
x86 E5 v4
Core
2.3 x Faster
AES 256-CFB: Popular for Cloud, DB
SHA 512: Important for Financial Operations
2.0 GB/s
0.9 GB/s
3.0 GB/s
0.4 GB/s
7.5x FasterSPARC S7
Core
x86 E5 v4
Core
24
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Simple, Comprehensive Security Auditing
• Quickly and easily test
system configuration for
compliance and security
best-practices
Extensible compliance framework with standard profiles
25
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7 Makes Enterprise-Wide Security Practical
Comprehensive Security Designed In, Not Bolted On
8 Cores and
8 Cryptographic
Accelerators per Chip
Protection from attacks
against data
in memory, on media or
transmitted over the
network with virtually no
performance impact
Silicon
Secured
Memory
Encryption
Accelerators
Access Control,
Read-Only
VMs
Compliance
Reporting,
Remote Audits
26
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Get started at:
https://community.oracle.com/community/softwareinsilicon/overview
Oracle Software in Silicon Cloud for Developers
Free Access for Universities, Researchers, Customers, and Partners
• Access Oracle Solaris Zones with Security in
Silicon and DAX technology
• Open APIs and documentation
• Example Apache Spark integration
• Use cases and code examples
• Prebuilt templates that can be extended and
customized
• 30 GB storage to upload your test data and
applications
27
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7-2 Server
System Details
28
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7-2 Server: Overview
• 1U chassis, fits into 900 mm–deep rack
• One or two SPARC S7 processors (up to 16 cores/128 threads)
• Up to 1,024 GB of DDR4-2400 memory
– 4, 8, or 16 DIMMs per system
– 16 GB, 32 GB, or 64 GB per DIMM
• Eight 2.5-inch hot-pluggable disk drive bays
– Up to 8 SAS HDDs/SSDs
– Up to 4 NVMe SSDs
– Mixing SAS and NVMe drives is supported
• One internal 12 Gb/sec SAS-3 HBA
• Onboard support for NVMe SSDs
• Four 10GBASE-T ports (one onboard quad-port NIC)
• 3+11 low-profile PCIe 3.0 x8 slots (2 with physical x16 support)
• Serial and Ethernet management ports, 2 USB ports
• Four hot-swappable N+1 redundant fan modules (top loading)
• Two 800 W/1,200 W 2 (output) hot-pluggable power supplies (N+1)
29
1) One PCIe slot (#4) is internal and reserved for the SAS HBA
2) Power supply output: 800 W when operating at 100–120 VAC, 1,200 W at 200–240 VAC
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7-2L Server
System Details
30
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7-2L Server: Overview
• 2U chassis, fits into 900 mm–deep rack
• Two SPARC S7 processors (16 cores/128 threads)
• Up to 1,024 GB of DDR4-2400 memory
– 8 or 16 DIMMs per system
– 16 GB, 32 GB, or 64 GB per DIMM
• Four types of disk drive cage options
– Eight 2.5-inch drive bays1
– 24 front and 2 rear 2.5-inch drive bays1,2
– Twelve 2.5-inch NVMe drive bays (no SAS drives)
– Twelve 3.5-inch and two 2.5-inch drive bays2 (no NVMe drives)
• One internal 12 Gb/sec SAS-3 HBA3
• Four 10GBASE-T ports (one onboard quad-port NIC)
• 6+14 low-profile PCIe 3.0 x8 slots (2 with physical x16 support)
• Serial and Ethernet management ports, 2 USB ports
• Four hot-swappable N+1 redundant fan modules (top loading)
• Two 1,200 W (output) hot-pluggable power supplies (N+1)
31
1) Four drive bays are NVMe-enabled, mixing SAS and NVMe drives is supported
2) All drive bays are supported by the single internal 12 Gb/sec SAS-3 HBA
3) Not included in the 12x NVMe drive configuration
4) One PCIe slot (#7) is internal and reserved for the SAS HBA or an NVMe PCIe switch
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
• Oracle’s SPARC S7 processor
– 4.27 GHz, 16 cores/128 threads
• 8 DDR4s per socket, 16 DDR4s per system
– 128 GB min (8x 16 GB DIMMS)
– 512 GB max (16x 32 GB DIMMS)
• I/O functions
– 6x LP PCIe 3.0 slots
– 4x 10GBase-T Ethernet ports
– 3x USB ports (two front, one rear)
• Storage
– 8x SFF HDD/SSD, four of which can be NVMe, plus 1x DVD
– Supported: HDD: 1.2 TB, SSD: 400 GB, NVME: 1.6 TB
• Software
– Oracle Solaris 11.3
• On-board LOM (Intel XL710):
– 10 Gigabit Ethernet (GbE) controller
– PCI Express (PCIe) 3.0, x8 including direct I/O optimizations
via TLP Processing Hints (TPH)
– SR-IOV: up to 128 virtual devices per physical device
– Excellent small-packet performance for network appliances
and NFV
32
Netra SPARC S7-2
Rear View
8x SFF (up to 8x HDD/SSD, up to 4x NVMe) + DVD
Front View
2x 1,200 W PSUs AC/DC, 6x PCI-e slots, 4x 10 GbE
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
RAS and System Management
33
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 34
SPARC S7-2 and S7-2L Servers: Availability Features
Redundant, hot-swappable
power supplies and cooling fans
Memory error protection,
message retry in hardware,
cyclic redundancy check (CRC)
Dual PCIe root complexes and
cross-connected PCIe switchesPower-On
Self-Test
Internal NVMe drives supported by
two separate PCIe buses for isolation
Hot-pluggable drives
Front and rear system
indicator LEDs
Redundant I/O controller (cards)
with MPxIO for storage devices
and IPMP for network devices
Fault Management Architecture (FMA)
Oracle Solaris ZFS for file
system resilience (RAID)
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
SPARC S7 Processor–Based Servers: Memory
• Memory error protection
– Error correction within a single DRAM device
– Triple-bit error detection across DRAM devices
• Memory page retirement upon exceeding threshold
• Memory channel interconnect
– Cyclic redundancy check (CRC)
– Message retry in hardware
• Memory “scrubber”
– Periodic event to prevent multiple soft errors in one line
• Cache protection
– All single-bit errors corrected
– Squash double-bit errors in cache with cache bypass
35
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Oracle ILOM on SPARC S7 Processor–Based Servers
• SPARC S7 processor–based servers use Oracle ILOM 3.2.6
• Oracle ILOM looks/behaves just like Oracle ILOM on other platforms
– Management interfaces: CLI, BUI, IPMI, SNMP
– Remote host management
– Inventory and component management
– System monitoring and alert/fault management
– User account management
– Power consumption management
36
Integrated Lights Out Management
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Oracle Enterprise Manager Ops Center: Screenshot
37
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Management of Applications to OS to Virtualization to Disk
38
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Oracle’s SPARC S7 servers extend the
world’s most advanced systems for
enterprise computing into scale-out
and cloud applications, with unique
capabilities for information security,
core efficiency and data analytics
acceleration.
SPARC S7 Processor–Based Systems
39
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |
Required Benchmark Disclosure Statement
• Additional Info: http://blogs.oracle.com/bestperf
• Copyright 2016, Oracle &/or its affiliates. All rights reserved. Oracle & Java are registered trademarks of Oracle &/or its affiliates.Other names may be trademarks of their respective owners
• SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 6/29/2016. SPARC S7-2,
14,400.78 SPECjEnterprise2010 EjOPS (unsecure); SPARC S7-2, 14,121.47 SPECjEnterprise2010 EjOPS (secure); Oracle Server X6-2, 27,509.59 SPECjEnterprise2010 EjOPS (unsecure); IBM Power
S824, 22,543.34 SPECjEnterprise2010 EjOPS (unsecure); IBM x3650 M5, 19,282.14 SPECjEnterprise2010 EjOPS (unsecure).
• SPEC and the benchmark name SPECjbb are registered trademarks of Standard Performance Evaluation Corporation (SPEC). Results from http://www.spec.org as of 6/29/2016. SPARC S7-2 (16-
core) 65,790 SPECjbb2015-MultiJVM max-jOPS, 35,812 SPECjbb2015-MultiJVM critical-jOPS; IBM Power S812LC (10-core) 44,883 SPECjbb2015-MultiJVM max-jOPS, 13,032 SPECjbb2015-
MultiJVM critical-jOPS; SPARC T7-1 (32-core) 120,603 SPECjbb2015-MultiJVM max-jOPS, 60,280 SPECjbb2015-MultiJVM critical-jOPS; Huawei RH2288H v3 (44-core) 121,381 SPECjbb2015-
MultiJVM max-jOPS, 38,595 SPECjbb2015-MultiJVM critical-jOPSHP ProLiant DL360 Gen9 (44-core) 120,674 SPECjbb2015-MultiJVM max-jOPS, 29,013 SPECjbb2015-MultiJVM critical-jOPS; HP
ProLiant DL380 Gen9 (44-core) 105,690 SPECjbb2015-MultiJVM max-jOPS, 52,952 SPECjbb2015-MultiJVM critical-jOPS;; Cisco UCS C220 M4 (44-core) 94,667 SPECjbb2015-MultiJVM max-jOPS,
71,951 SPECjbb2015-MultiJVM critical-jOPS; Huawei RH2288H V3(36-core) 98,673 SPECjbb2015-MultiJVM max-jOPS, 28,824 SPECjbb2015-MultiJVM critical-jOPs; Lenovo x240 M5 (36-core)
80,889 SPECjbb2015-MultiJVM max-jOPS,43,654 SPECjbb2015-MultiJVM critical-jOPS; SPARC T5-2 (32-core) 80,889 SPECjbb2015-MultiJVM max-jOPS, 37,422 SPECjbb2015-MultiJVM critical-
jOPS; SPARC S7-2 (16-core) 66,612 SPECjbb2015-Distributed max-jOPS, 36,922 SPECjbb2015-Distributed critical-jOPS; HP ProLiant DL380 Gen9 (44-core) 120,674 SPECjbb2015-Distributed max-
jOPS, 39,615 SPECjbb2015-Distributed critical-jOPS; HP ProLiant DL360 Gen9 (44-core) 106,337 SPECjbb2015-Distributed max-jOPS, 55,858 SPECjbb2015-Distributed critical-jOPS; HP ProLiant
DL580 Gen9 (96-core) 219,406 SPECjbb2015-Distributed max-jOPS, 72,271 SPECjbb2015-Distributed critical-jOPS; Lenovo Flex System x3850 X6 (96-core) 194,068 SPECjbb2015-Distributed
max-jOPS, 132,111 SPECjbb2015-Distributed critical-jOPS.
• SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 10/25/2015. SPARC T7-1,
25,818.85 SPECjEnterprise2010 EjOPS (unsecure); SPARC T7-1, 25,093.06 SPECjEnterprise2010 EjOPS (secure); Oracle Server X5-2, 21,504.30 SPECjEnterprise2010 EjOPS (unsecure); IBM Power
S824, 22,543.34 SPECjEnterprise2010 EjOPS (unsecure); IBM x3650 M5, 19,282.14 SPECjEnterprise2010 EjOPS (unsecure).
• SPEC and the benchmark names SPECfp and SPECint are registered trademarks of the Standard Performance Evaluation Corporation. Results as of October 25, 2015 from www.spec.org and
this report. 1 chip resultsSPARC T7-1: 1200 SPECint_rate2006, 1120 SPECint_rate_base2006, 832 SPECfp_rate2006, 801 SPECfp_rate_base2006; SPARC T5-1B: 489 SPECint_rate2006, 440
SPECint_rate_base2006, 369 SPECfp_rate2006, 350 SPECfp_rate_base2006; Fujitsu SPARC M10-4S: 546 SPECint_rate2006, 479 SPECint_rate_base2006, 462 SPECfp_rate2006, 418
SPECfp_rate_base2006. IBM Power 710 Express: 289 SPECint_rate2006, 255 SPECint_rate_base2006, 248 SPECfp_rate2006, 229 SPECfp_rate_base2006; Fujitsu CELSIUS C740: 715
SPECint_rate2006, 693 SPECint_rate_base2006; NEC Express5800/R120f-1M: 474 SPECfp_rate2006, 460 SPECfp_rate_base2006.
• Two-tier SAP Sales and Distribution (SD) standard application benchmarks, SAP Enhancement Package 5 for SAP ERP 6.0 as of 5/16/16:SPARC M7-8, 8 processors / 256 cores / 2048
threads,SPARC M7, 4.133 GHz, 130000 SD Users, 713480 SAPS, Solaris 11, Oracle 12cSAP, Certification Number: 2016020, SPARC T7-2 (2 processors, 64 cores, 512 threads) 30,800 SAP SD
users, 2 x 4.13 GHz SPARC M7, 1 TB memory, Oracle Database 12c, Oracle Solaris 11, Cert# 2015050. HPE Integrity Superdome X (16 processors, 288 cores, 576 threads) 100,000 SAP SD users,
16 x 2.5 GHz Intel Xeon Processor E7-8890 v3 4096 GB memory, SQL Server 2014, Windows Server 2012 R2 Datacenter Edition, Cert# 2016002 . IBM Power System S824 (4 processors, 24
cores, 192 threads) 21,212 SAP SD users, 4 x 3.52 GHz POWER8, 512 GB memory, DB2 10.5, AIX 7, Cert#201401. Dell PowerEdge R730 (2 processors, 36 cores, 72 threads) 16,500 SAP SD users,
2 x 2.3 GHz Intel Xeon Processor E5-2699 v3 256 GB memory, SAP ASE 16, RHEL 7, Cert#2014033. HP ProLiant DL380 Gen9 (2 processors, 36 cores, 72 threads) 16,101 SAP SD users, 2 x 2.3 GHz
Intel Xeon Processor E5-2699 v3 256 GB memory, SAP ASE 16, RHEL 6.5, Cert#2014032. SAP, R/3, reg TM of SAP AG in Germany and other countries. More info www.sap.com/benchmark
•
40
Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 41

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Představení produktové řady Oracle SPARC S7

  • 2. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Oracle’s SPARC S7 Servers Josef Šlahůnek Oracle Sales Consulting Systems September 14th, 2016 Phone: 602 731 728 E-Mail: josef.slahunek@oracle.com
  • 3. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Safe Harbor Statement The following is intended to outline our general product direction. It is intended for information purposes only, and may not be incorporated into any contract. It is not a commitment to deliver any material, code, or functionality, and should not be relied upon in making purchasing decisions. The development, release, and timing of any features or functionality described for Oracle’s products remains at the sole discretion of Oracle. 3
  • 4. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7 Servers: Technical Deep Dive Overview SPARC S7 Processor Overview Server Details Reliability, Availability, and Serviceability (RAS) and System Management 1 2 3 4 4
  • 5. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Oracle’s SPARC S7 servers extend the world’s most advanced systems for enterprise computing into scale-out and cloud applications, with unique capabilities for information security, core efficiency and data analytics acceleration. SPARC S7 Processor–Based Systems 5
  • 6. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 6 Oracle SPARC Portfolio • Higher Performance as X86 • Better security • SWoC • Greater Application consolidation • From small to big • Cloud SPARC T5-4 64-cores @ 3.6GHz 2TB Memory SPARC T5-8 128-cores @ 3.6GHz 4TB Memory SPARC S7-2 8/16-cores @ 4.3GHz 1TB Memory SPARC M7-16 SPARC SuperCluster M7 SPARC T5-2 16/32-cores @ 3.6GHz 1TB MemorySPARC S7-2L 8/16-cores @ 4.3GHz 1TB Memory SPARC T7-1 32-cores @ 4.2GHz 1TB Memory SPARC T7-2 64-cores @ 4.2GHz 2TB Memory SPARC T7-4 128-cores @ 4.2GHz 4TB Memory SPARC M7-8 256-cores @ 4.2GHz 8TB Memory 512-cores @ 4.2GHz 16TB Memory Fujitsu M10
  • 7. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 7
  • 8. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | (1) Maximum memory capacity is based on 64 GB DIMMs. SPARC S7 Servers SPARC S7-2 Server SPARC S7-2L Server Processors 1 or 2 2 Max Cores/Threads 16 / 128 16 / 128 Max Memory1 1 TB 1 TB Form Factor 1U 2U Max Disk Drives 8 26 PCIe Slots Available 3 6 Integrated Ethernet 4x 10GBase-T 4x 10GBase-T 8
  • 9. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7 Processor–Based Servers • Oracle’s SPARC S7 processor: – Software in Silicon features: Same as in Oracle’s SPARC M7 processor – System-on-a-chip design: DDR4 interfaces and PCIe controller • DDR4-2400 memory for high performance • Internal SAS-3 Host Bus Adapter • Onboard support for NVMe flash drives • x8-capable PCIe 3.0 slots • Oracle Integrated Lights Out Manager (Oracle ILOM) management • Oracle Solaris 11.3 or later required – Oracle Solaris 10 1/13 supported in guest domains Key Characteristics 9
  • 10. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Two Systems, Five Enclosures, Shared Design SPARC S7-2 and SPARC S7-2L Servers SPARC S7-2L, 2U 12x 3.5-inch and 2x 2.5-inch drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; ~100 TB storage (12x 3.5-inch drives plus 2x 2.5-inch SAS-3 drives) SPARC S7-2L, 2U 26x 2.5-inch drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; 39 TB storage (24x plus 2x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays) SPARC S7-2L, 2U 8x 2.5-inch drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; 17 TB storage (8x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays) SPARC S7-2, 1U 8x 2.5-inch drives 1U; 1 or 2 processors; 16 DIMMs; 1,024 GB DDR4; 3 PCIe 3.0 slots; 17 TB storage (8x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays) SPARC S7-2L, 2U 12x 2.5-inch NVMe flash drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 4 PCIe 3.0 slots; 38 TB NVMe flash storage (12x 2.5-inch NVMe drives) 10
  • 11. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7 Processor Overview 11
  • 12. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7 Processor Overview • Software in Silicon features – Silicon Secured Memory – Cryptographic accelerators – 4 DAX units, 16 DAX engines • 8 cores at 4.27 GHz • 64 hardware threads per processor • Dynamic threading supporting critical threads • Up to 8 DDR4 DIMMs per processor • 2-way fully connected glueless symmetric multiprocessing (SMP) • Technology: TSMC 20nm 12
  • 13. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7: Full Integration, Simplicity 1-Processor SPARC T7 Server 2-Processor SPARC S7 Server 16 DIMM Slots PCIe Controller DDR4 Interfaces 16 DIMM Slots 10GEthPCIe SlotsDisks 10GEthPCIe SlotsDisks 13
  • 14. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Balanced Design Grows all Key Attributes for Efficiency Continually Increasing Performance SPARC T5 SPARC M7 SPARC S7 Processor Cores 16 32 8 Cache per Core 0.5 MB 2 MB 2 MB Memory Bandwidth per Core 5.0 GB/s 5.3 GB/s 6.0 GB/s Memory Access 163 ns 131 ns 97 ns I/O Bandwidth 32 GB/s 145 GB/s 32 GB/s Processor Frequency 3.60 GHz 4.13 GHz 4.27 GHz Year 2013 2015 2016 14
  • 15. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC Innovation is Continually Increasing Core Performance 15 x86 per core performance is stalled CorePerformancevs.x86E5v2 2.0x 1.8x 1.6x 1.4x 1.2x 1.0x .8x 2013 20152014 2016 x86: flat for four generations M7 S7 SPARC: Database & Java
  • 16. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Faster than the Latest from HPE Dramatically Improve Java Application Efficiency 16 2,402 4,1121.7x Faster JavaS7-2 4.27 GHz S7 Core x86 2.2 GHz E5 v4 Core HPE DL360 G9 SPARC S7-2 (16-core) 65,790 SPECjbb2015-MultiJVM max-jOPS, 35,812 SPECjbb2015-MultiJVM critical-jOPS; HP ProLiant DL360 Gen9 (44-core) 105,690 SPECjbb2015-MultiJVM max-jOPS, 52,952 SPECjbb2015-MultiJVM critical-jOPS Max jOPS / Core
  • 17. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Open Source OLTP Database Benchmark Outstanding Leadership in Database Performance S7-2 4.27 GHz S7 Core X86 2.2 GHz E5 v4 Core 1.6x Faster Database Transactions per minute, per Core 17
  • 18. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | NoSQL Big Data Benchmark Dramatically Scale your Big Data Workloads 18 Yahoo Cloud Serving Benchmark 11.4 K Ops 21.3 K Ops 1.9xFaster NoSQLS7-2 4.27 GHz S7 Core X86 2.2 GHz E5 v4 Core
  • 19. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7 Processor: Software in Silicon Features Feature Benefits Security inSilicon Silicon Secured Memory •Prevention of malicious memory access attacks •Protection against silent data corruption in memory •Faster and higher-quality code development Cryptographic Acceleration •End-to-end security at full speeds •Encryption of everything always •Secured network and database transactions SQLin Silicon In-Memory Query Acceleration •Analytics performed on live OLTP data •Reduced number of systems needed for analytics and reporting In-Line Decompression •Reduced memory footprint and lower TCO •Increased in-memory databases and performance Same Benefits as in the SPARC M7 Processor 19
  • 20. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Revolutionary Hardwired Protection Against Data Corruption Security in Silicon: Silicon Secured Memory • SPARC S7 processor stops memory corruption – Helps stop malicious code from accessing secure data – When access is denied, the problem is reported • Hidden “color” bits added to pointers and to memory • Pointer color must match content color or access is aborted • Can be used in production code with near-zero impact on performance Memory Pointers Memory Content 20
  • 21. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | CoreCoreCore Core SQL in Silicon: In-Memory Query Acceleration • The SPARC S7 processor includes on-chip Data Analytics Accelerator (DAX) units – Independently process streams of database column elements placed in system memory – Example: Find all values that match “California” – 4 accelerator units per chip, with 4 pipelines each • Free processor cores to run higher-level SQL functions or other applications • Read data directly from memory, process it, and place results in cache for core usage 21 SPARC S7 Cache DAX DAX DAX DAX Core Core Core Core
  • 22. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SQL in Silicon: In-Line Decompression • The key to placing more data in memory • The performance of decompression on today’s processors is a huge bottleneck • Solution: DAX unit runs decompression at memory speeds – Equivalent to eight decompression PCI cards and 30 CPU cores • Increases useable memory Process Decompress DAX Data Stream 22
  • 23. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Security in Silicon: Cryptographic Acceleration • Eight cryptographic accelerators per SPARC S7 processor, one in each core • Wire-speed encryption capabilities for secure data center operation without a performance penalty • Support for 15 industry-standard cryptographic algorithms plus random number generation • Easy to deploy via Oracle Solaris Cryptographic Framework • Oracle Database 11.2.0.3 or later: Acceleration is automatic with Oracle Database Enterprise Edition when Transparent Data Encryption is enabled 23
  • 24. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | S7 advantage increases on highest security ciphers Much Faster End-To-End Encryption SPARC S7 Core x86 E5 v4 Core 2.3 x Faster AES 256-CFB: Popular for Cloud, DB SHA 512: Important for Financial Operations 2.0 GB/s 0.9 GB/s 3.0 GB/s 0.4 GB/s 7.5x FasterSPARC S7 Core x86 E5 v4 Core 24
  • 25. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Simple, Comprehensive Security Auditing • Quickly and easily test system configuration for compliance and security best-practices Extensible compliance framework with standard profiles 25
  • 26. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. |Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7 Makes Enterprise-Wide Security Practical Comprehensive Security Designed In, Not Bolted On 8 Cores and 8 Cryptographic Accelerators per Chip Protection from attacks against data in memory, on media or transmitted over the network with virtually no performance impact Silicon Secured Memory Encryption Accelerators Access Control, Read-Only VMs Compliance Reporting, Remote Audits 26
  • 27. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Get started at: https://community.oracle.com/community/softwareinsilicon/overview Oracle Software in Silicon Cloud for Developers Free Access for Universities, Researchers, Customers, and Partners • Access Oracle Solaris Zones with Security in Silicon and DAX technology • Open APIs and documentation • Example Apache Spark integration • Use cases and code examples • Prebuilt templates that can be extended and customized • 30 GB storage to upload your test data and applications 27
  • 28. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7-2 Server System Details 28
  • 29. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7-2 Server: Overview • 1U chassis, fits into 900 mm–deep rack • One or two SPARC S7 processors (up to 16 cores/128 threads) • Up to 1,024 GB of DDR4-2400 memory – 4, 8, or 16 DIMMs per system – 16 GB, 32 GB, or 64 GB per DIMM • Eight 2.5-inch hot-pluggable disk drive bays – Up to 8 SAS HDDs/SSDs – Up to 4 NVMe SSDs – Mixing SAS and NVMe drives is supported • One internal 12 Gb/sec SAS-3 HBA • Onboard support for NVMe SSDs • Four 10GBASE-T ports (one onboard quad-port NIC) • 3+11 low-profile PCIe 3.0 x8 slots (2 with physical x16 support) • Serial and Ethernet management ports, 2 USB ports • Four hot-swappable N+1 redundant fan modules (top loading) • Two 800 W/1,200 W 2 (output) hot-pluggable power supplies (N+1) 29 1) One PCIe slot (#4) is internal and reserved for the SAS HBA 2) Power supply output: 800 W when operating at 100–120 VAC, 1,200 W at 200–240 VAC
  • 30. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7-2L Server System Details 30
  • 31. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7-2L Server: Overview • 2U chassis, fits into 900 mm–deep rack • Two SPARC S7 processors (16 cores/128 threads) • Up to 1,024 GB of DDR4-2400 memory – 8 or 16 DIMMs per system – 16 GB, 32 GB, or 64 GB per DIMM • Four types of disk drive cage options – Eight 2.5-inch drive bays1 – 24 front and 2 rear 2.5-inch drive bays1,2 – Twelve 2.5-inch NVMe drive bays (no SAS drives) – Twelve 3.5-inch and two 2.5-inch drive bays2 (no NVMe drives) • One internal 12 Gb/sec SAS-3 HBA3 • Four 10GBASE-T ports (one onboard quad-port NIC) • 6+14 low-profile PCIe 3.0 x8 slots (2 with physical x16 support) • Serial and Ethernet management ports, 2 USB ports • Four hot-swappable N+1 redundant fan modules (top loading) • Two 1,200 W (output) hot-pluggable power supplies (N+1) 31 1) Four drive bays are NVMe-enabled, mixing SAS and NVMe drives is supported 2) All drive bays are supported by the single internal 12 Gb/sec SAS-3 HBA 3) Not included in the 12x NVMe drive configuration 4) One PCIe slot (#7) is internal and reserved for the SAS HBA or an NVMe PCIe switch
  • 32. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | • Oracle’s SPARC S7 processor – 4.27 GHz, 16 cores/128 threads • 8 DDR4s per socket, 16 DDR4s per system – 128 GB min (8x 16 GB DIMMS) – 512 GB max (16x 32 GB DIMMS) • I/O functions – 6x LP PCIe 3.0 slots – 4x 10GBase-T Ethernet ports – 3x USB ports (two front, one rear) • Storage – 8x SFF HDD/SSD, four of which can be NVMe, plus 1x DVD – Supported: HDD: 1.2 TB, SSD: 400 GB, NVME: 1.6 TB • Software – Oracle Solaris 11.3 • On-board LOM (Intel XL710): – 10 Gigabit Ethernet (GbE) controller – PCI Express (PCIe) 3.0, x8 including direct I/O optimizations via TLP Processing Hints (TPH) – SR-IOV: up to 128 virtual devices per physical device – Excellent small-packet performance for network appliances and NFV 32 Netra SPARC S7-2 Rear View 8x SFF (up to 8x HDD/SSD, up to 4x NVMe) + DVD Front View 2x 1,200 W PSUs AC/DC, 6x PCI-e slots, 4x 10 GbE
  • 33. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | RAS and System Management 33
  • 34. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 34 SPARC S7-2 and S7-2L Servers: Availability Features Redundant, hot-swappable power supplies and cooling fans Memory error protection, message retry in hardware, cyclic redundancy check (CRC) Dual PCIe root complexes and cross-connected PCIe switchesPower-On Self-Test Internal NVMe drives supported by two separate PCIe buses for isolation Hot-pluggable drives Front and rear system indicator LEDs Redundant I/O controller (cards) with MPxIO for storage devices and IPMP for network devices Fault Management Architecture (FMA) Oracle Solaris ZFS for file system resilience (RAID)
  • 35. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | SPARC S7 Processor–Based Servers: Memory • Memory error protection – Error correction within a single DRAM device – Triple-bit error detection across DRAM devices • Memory page retirement upon exceeding threshold • Memory channel interconnect – Cyclic redundancy check (CRC) – Message retry in hardware • Memory “scrubber” – Periodic event to prevent multiple soft errors in one line • Cache protection – All single-bit errors corrected – Squash double-bit errors in cache with cache bypass 35
  • 36. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Oracle ILOM on SPARC S7 Processor–Based Servers • SPARC S7 processor–based servers use Oracle ILOM 3.2.6 • Oracle ILOM looks/behaves just like Oracle ILOM on other platforms – Management interfaces: CLI, BUI, IPMI, SNMP – Remote host management – Inventory and component management – System monitoring and alert/fault management – User account management – Power consumption management 36 Integrated Lights Out Management
  • 37. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Oracle Enterprise Manager Ops Center: Screenshot 37
  • 38. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Management of Applications to OS to Virtualization to Disk 38
  • 39. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Oracle’s SPARC S7 servers extend the world’s most advanced systems for enterprise computing into scale-out and cloud applications, with unique capabilities for information security, core efficiency and data analytics acceleration. SPARC S7 Processor–Based Systems 39
  • 40. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | Required Benchmark Disclosure Statement • Additional Info: http://blogs.oracle.com/bestperf • Copyright 2016, Oracle &/or its affiliates. All rights reserved. Oracle & Java are registered trademarks of Oracle &/or its affiliates.Other names may be trademarks of their respective owners • SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 6/29/2016. SPARC S7-2, 14,400.78 SPECjEnterprise2010 EjOPS (unsecure); SPARC S7-2, 14,121.47 SPECjEnterprise2010 EjOPS (secure); Oracle Server X6-2, 27,509.59 SPECjEnterprise2010 EjOPS (unsecure); IBM Power S824, 22,543.34 SPECjEnterprise2010 EjOPS (unsecure); IBM x3650 M5, 19,282.14 SPECjEnterprise2010 EjOPS (unsecure). • SPEC and the benchmark name SPECjbb are registered trademarks of Standard Performance Evaluation Corporation (SPEC). Results from http://www.spec.org as of 6/29/2016. SPARC S7-2 (16- core) 65,790 SPECjbb2015-MultiJVM max-jOPS, 35,812 SPECjbb2015-MultiJVM critical-jOPS; IBM Power S812LC (10-core) 44,883 SPECjbb2015-MultiJVM max-jOPS, 13,032 SPECjbb2015- MultiJVM critical-jOPS; SPARC T7-1 (32-core) 120,603 SPECjbb2015-MultiJVM max-jOPS, 60,280 SPECjbb2015-MultiJVM critical-jOPS; Huawei RH2288H v3 (44-core) 121,381 SPECjbb2015- MultiJVM max-jOPS, 38,595 SPECjbb2015-MultiJVM critical-jOPSHP ProLiant DL360 Gen9 (44-core) 120,674 SPECjbb2015-MultiJVM max-jOPS, 29,013 SPECjbb2015-MultiJVM critical-jOPS; HP ProLiant DL380 Gen9 (44-core) 105,690 SPECjbb2015-MultiJVM max-jOPS, 52,952 SPECjbb2015-MultiJVM critical-jOPS;; Cisco UCS C220 M4 (44-core) 94,667 SPECjbb2015-MultiJVM max-jOPS, 71,951 SPECjbb2015-MultiJVM critical-jOPS; Huawei RH2288H V3(36-core) 98,673 SPECjbb2015-MultiJVM max-jOPS, 28,824 SPECjbb2015-MultiJVM critical-jOPs; Lenovo x240 M5 (36-core) 80,889 SPECjbb2015-MultiJVM max-jOPS,43,654 SPECjbb2015-MultiJVM critical-jOPS; SPARC T5-2 (32-core) 80,889 SPECjbb2015-MultiJVM max-jOPS, 37,422 SPECjbb2015-MultiJVM critical- jOPS; SPARC S7-2 (16-core) 66,612 SPECjbb2015-Distributed max-jOPS, 36,922 SPECjbb2015-Distributed critical-jOPS; HP ProLiant DL380 Gen9 (44-core) 120,674 SPECjbb2015-Distributed max- jOPS, 39,615 SPECjbb2015-Distributed critical-jOPS; HP ProLiant DL360 Gen9 (44-core) 106,337 SPECjbb2015-Distributed max-jOPS, 55,858 SPECjbb2015-Distributed critical-jOPS; HP ProLiant DL580 Gen9 (96-core) 219,406 SPECjbb2015-Distributed max-jOPS, 72,271 SPECjbb2015-Distributed critical-jOPS; Lenovo Flex System x3850 X6 (96-core) 194,068 SPECjbb2015-Distributed max-jOPS, 132,111 SPECjbb2015-Distributed critical-jOPS. • SPEC and the benchmark name SPECjEnterprise are registered trademarks of the Standard Performance Evaluation Corporation. Results from www.spec.org as of 10/25/2015. SPARC T7-1, 25,818.85 SPECjEnterprise2010 EjOPS (unsecure); SPARC T7-1, 25,093.06 SPECjEnterprise2010 EjOPS (secure); Oracle Server X5-2, 21,504.30 SPECjEnterprise2010 EjOPS (unsecure); IBM Power S824, 22,543.34 SPECjEnterprise2010 EjOPS (unsecure); IBM x3650 M5, 19,282.14 SPECjEnterprise2010 EjOPS (unsecure). • SPEC and the benchmark names SPECfp and SPECint are registered trademarks of the Standard Performance Evaluation Corporation. Results as of October 25, 2015 from www.spec.org and this report. 1 chip resultsSPARC T7-1: 1200 SPECint_rate2006, 1120 SPECint_rate_base2006, 832 SPECfp_rate2006, 801 SPECfp_rate_base2006; SPARC T5-1B: 489 SPECint_rate2006, 440 SPECint_rate_base2006, 369 SPECfp_rate2006, 350 SPECfp_rate_base2006; Fujitsu SPARC M10-4S: 546 SPECint_rate2006, 479 SPECint_rate_base2006, 462 SPECfp_rate2006, 418 SPECfp_rate_base2006. IBM Power 710 Express: 289 SPECint_rate2006, 255 SPECint_rate_base2006, 248 SPECfp_rate2006, 229 SPECfp_rate_base2006; Fujitsu CELSIUS C740: 715 SPECint_rate2006, 693 SPECint_rate_base2006; NEC Express5800/R120f-1M: 474 SPECfp_rate2006, 460 SPECfp_rate_base2006. • Two-tier SAP Sales and Distribution (SD) standard application benchmarks, SAP Enhancement Package 5 for SAP ERP 6.0 as of 5/16/16:SPARC M7-8, 8 processors / 256 cores / 2048 threads,SPARC M7, 4.133 GHz, 130000 SD Users, 713480 SAPS, Solaris 11, Oracle 12cSAP, Certification Number: 2016020, SPARC T7-2 (2 processors, 64 cores, 512 threads) 30,800 SAP SD users, 2 x 4.13 GHz SPARC M7, 1 TB memory, Oracle Database 12c, Oracle Solaris 11, Cert# 2015050. HPE Integrity Superdome X (16 processors, 288 cores, 576 threads) 100,000 SAP SD users, 16 x 2.5 GHz Intel Xeon Processor E7-8890 v3 4096 GB memory, SQL Server 2014, Windows Server 2012 R2 Datacenter Edition, Cert# 2016002 . IBM Power System S824 (4 processors, 24 cores, 192 threads) 21,212 SAP SD users, 4 x 3.52 GHz POWER8, 512 GB memory, DB2 10.5, AIX 7, Cert#201401. Dell PowerEdge R730 (2 processors, 36 cores, 72 threads) 16,500 SAP SD users, 2 x 2.3 GHz Intel Xeon Processor E5-2699 v3 256 GB memory, SAP ASE 16, RHEL 7, Cert#2014033. HP ProLiant DL380 Gen9 (2 processors, 36 cores, 72 threads) 16,101 SAP SD users, 2 x 2.3 GHz Intel Xeon Processor E5-2699 v3 256 GB memory, SAP ASE 16, RHEL 6.5, Cert#2014032. SAP, R/3, reg TM of SAP AG in Germany and other countries. More info www.sap.com/benchmark • 40
  • 41. Copyright © 2016, Oracle and/or its affiliates. All rights reserved. | 41