Huawei Server Storage Introduction

Transcript

Huawei Server and Storage Introduction Harry Lin Sales ActForNet Technologies Inc RH1288v2 Harry Lin Sales ActForNet Technologies Inc RH2285H Harry Lin Sales ActForNet Technologies Inc RH2288H Harry Lin Sales ActForNet Technologies Inc RH2485v2 Harry Lin Sales ActForNet Technologies Inc Huawei RH5885H V3 and RH5885 V3 Introduction Version: V1.0 (2014-02-20) Contents 1 Click to add Trends Title Multi-Socket Server Development 2 Click to add Title RH5885 V3 Introduction 3 Click to add Title RH5885 V3 Highlights 4 4-Socket Server Application Scenarios 5 Success Cases for Huawei 4-Socket Server 10 Server Development Trends 80% x86 server revenue shares 28% UNIX server shipments reduced in the last 4 years 40 ZB Total data in 2020 65% Enterprises deployment virtualization Source: Gartner report (2013 Q2) RISC to IA High TCO for midrange computers • Migration to x86 servers • Higher performance than midrange computers • High reliability and smooth upgrades Virtualization Big data Cloud computing requirements Computing and storage of massive data • Large memory • Multiple threads and cores • Mission-critical application virtualization 11 • Distributed architecture • High-performance • Large local storage capacity High-Performance Rack Server Development Launched products RH5885 V2 (8 sockets)   RH5885 V2 (4 sockets)   2014 RH5885H/RH5885 V3 4-socket server 2014 RH8100 V3 New-generation 8socket server 12 No. 1 in the TPC-E test 12 world records for the SPEC benchmark test 35 RAS features Widely used in large enterprises, carriers and governments 2015 RH8100/RH8200/RH8300 Based on Huawei NC 2.0 chips 8-socket/16-socket/32-socket highperformance server 2016 and after High-performance server cluster solution For Mission-critical Applications RH5885 V3 4-socket rack server RH5885H V3 4-socket rack server Database Virtualiza tion BI Big data • Optimal choice for mission-critical ---same performance and reliability as midrange computers • 53 RAS features to guarantee high stability • Double the performance compared with last generation servers • 4 hot-swappable PCIe cards and supports up to 4 dual-slot GPUs 60 23 53 1 minute computing cores 2.5-inch HDDs RAS features online hot-swap 13 Contents 1 Multi-Socket Server Development Trends Click to add Title 2 Click to add Title RH5885H V3/RH5885 V3 Introduction 3 to add Title RH5885H V3/RH5885 Click V3 Highlights 4 4-Socket Server Application Scenarios 5 Success Cases for Huawei 4-Socket Server 14 RH5885H V3 Specifications Highlights Picture Front view Form factor 4U 4-socket rack server Number of CPU 2 or 4 Processor model Intel® Xeon® E7-4800 v2 6-core, 8-core, 10-core, 12-core, or 15-core processors Number of DIMMs 96 DDR3 DIMMs, up to 6 TB (64GB for each DIMM) Number of hard disks 8 or 23 x 2.5" SAS/SATA HDDs or SSDs RAID support RAID 0, 1, 10, 5, 50, 6, and 60, 1 GB cache, power-off protection with a battery or supercapacitor PCIe expansion 16 PCIe slots, four of which support hot swap without the need for opening the chassis cover Integrated NIC 2 x GE ports, 4 x GE ports or 2 x 10GE ports Power supply 220 V or 110 V AC and –48 V DC, redundant PSUs Fan module 5 hot-swappable fan modules in N+1 redundancy mode Operating temperature 5°C-40°C Dimensions (H x W x D) 175 mm x 447 mm x 790 mm (6.89 in. x 17.60 in. x 31.10 in.) Rear view • • • Enhanced performance: supports four E5-4800 v2 processors, with up to 60 computing cores, and 6 TB memory. Super large storage: supports up to 23 x 2.5" hard disks, suitable for distributed databases and big data analysis. Simple maintenance: Hot-swappable fan modules and PCIe devices that can be maintained without the need for opening the chassis 15 RH5885H V3 Front View 1 3 5 7 9 11 13 15 17 Fan module 1 Fan module 3 Fan module 5 Health indicator Power button/indicator Hard disk active indicator DVD VGA port USB port 1 16 2 4 6 8 10 12 14 16 – Fan module 2 Fan module 4 Network port link status indicator UID button/indicator Hard disk fault indicator Hard disk LCD USB port 2 – RH5885H V3 Rear View 17 1 Hot swap indicator (hotswappable PCIe card) 2 Power indicator (hot-swappable PCIe card) 3 Hot swap button (hotswappable PCIe card) 4 Standard PCIe riser card 1 5 7 NIC Serial port 6 8 UID indicator VGA port 9 iMana management network port 10 USB port 11 13 Standard PCIe riser card 2 PSU indicator 12 14 PSU 2 PSU 1 15 Hot-swappable PCIe riser card - - RH5885H V3 Top View BBU or supercapacitor 8 memory boards, supporting up to 8 x 12 DIMMs 12 PCIe slots 4 hot-swappable PCIe slots 4 processors 18 RH5885 V3 Specifications Highlights Picture Front view Form factor 4U 4-socket rack server Number of CPUs 2 or 4 Processor model Intel® Xeon® E7-4800 v2 6-core, 8-core, 10-core, 12-core, or 15-core processors Number of DIMMs 48 DDR3 DIMMs, up to 3 TB (64 GB for each DIMM) Number of hard disks 8 or 23 x 2.5" SAS/SATA HDDs or SSDs RAID support RAID 0, 1, 10, 5, 50, 6, and 60, 1 GB cache, power-off protection with a battery or supercapacitor PCIe expansion 7 PCIe slots Integrated NIC 2 x GE ports, 4 x GE ports or 2 x 10GE ports Power supply 220 V or 110 V AC and –48 V DC, PSUs in 2+2 redundancy mode Fan module 5 hot-swappable fan modules in N+1 redundancy mode, supporting maintenance without the need for opening the chassis cover Operating temperature 5°C to 40°C Dimensions (H x W x D) 175 mm x 447 mm x 790 mm (6.89 in. x 17.60 in. x 31.10 in.) Rear view • • • Enhanced performance: supports four E5-4800 v2 processors, with up to 60 computing cores, and 3 TB memory. Super large storage: supports up to 23 x 2.5" hard disks, suitable for distributed databases and big data analysis. Energy saving: uses four 800 W or 1200 W Platinum PSUs for flexible configurations, supporting power capping and dynamic power consumption control. 19 RH5885 V3 Front View 1 2 3 4 5 6 7 Network port link status indicator Health indicator UID button/indicator Power button/indicator ESD jack Hard disk fault indicator Hard disk operating indicator 20 8 9 10 11 12 13 Hard disk DVD Indicator diagnosis panel VGA port USB port 2 USB port 1 RH5885 V3 Rear View 1 2 3 4 5 Standard PCIe card Serial port VGA port USB port Management network port 21 6 7 8 9 Integrated NIC PSU 4 indicator PSU 4 PSU 3 indicator 10 PSU 3 11 12 13 14 PSU 2 indicator PSU 2 PSU 1 indicator PSU 1 RH5885 V3 Top View 5 hot-swappable counter-rotating fan modules in N+1 redundancy mode 3 PCIe slots (fullheight, full-length) Eight groups of DIMMs (6 DIMMs in each group), with up to 48 DIMMs 4 PCIe slots (fullheight, half-length) 4 E7 v2 processors 22 Contents 1 Click to add Title RH5885 V3 Positioning 2 to add Title RH5885H V3/RH5885Click V3 Introduction 3 to add Title RH5885H V3/RH5885Click V3 Highlights 4 4-Socket Server Application Scenarios 5 Success Cases for Huawei 4-Socket Server 23 Highlights of Huawei 4-Socket Servers 1. 53 RAS features 2. 2+2 PSUs 3. Hot-swappable PCIe and fan modules 4. Stable system operation at 40°C  Stability and reliability 1. Up to 60 computing cores 2. 6 TB memory 3. 16 PCIe slots 4. 23 x 2.5" hard disks 5. 4 dual-slot GPUs  Superb performance 1. Maintenance without the need for opening the chassis cover 2. Touch-LCD for fault diagnosis 3. eSight for unified server management 4. Black box function for quick fault location  Simple maintenance Highlights 24 1. Redundant Platinum PSUs 2. Huawei dynamic energy management technology (DEMT) 3. Power capping 4. Non-simultaneous power-on hard disks  Energy saving Huawei Servers Highlight Stability Comprehensive memory protection mechanism • Fault DIMM precaution • Precise fault DIMM indicated • Memory mirroring • Memory sparing More than 53 RAS features • • • As reliable as midrange computer Enhanced stability, data protection, and simple maintenance Same stability as midrange computers Hot swap without the need for opening the chassis Redundancy for hardware and software • • • Online PCIe cards replacement in 1 minute Fan modules support hot swap maintenance without the need for opening the chassis. 25 • • Dual SATA DOM ports, supporting backup for preinstalled software Management software with dualimage backup Platinum PSUs in 1+1 or 2+2 redundancy mode 53 High Reliability Features Memory System 7 features 15 features Memory mirroring Memory sparing Faulty memory indication Enhanced DDDC Enhance SDDC and so on Machine Check Architecture (MCA) Recovery I/O MCA Recovery Execution Path Enhanced MCA Predictive Failure Analysis (PFA) Error injection support and so on 26 CPU 21 features QPI link-level data retransmission QPI clock switchover QPI CRC protection (8-bit) QPI CRC protection (16-bit) QPI self-healing QPI viral mode Software 10 features Corrected Machine Check Interrupt (CMCI) Online fault recovery for PCIe devices PCIe hot swap PCIe advanced error reporting Touch-LCD for fault diagnosis Online Fan maintenance 2+2 power redundancy Enhanced Fault Diagnosis - eMCA System recovery Normal status with error prevention Service reconfiguration Isolate/replace HW or add new resources without system down Function HW un-correctable errors • • • Error Contained Error detected HW correctable errors Error corrected Fault recovery: Correctable errors are automatically corrected on the RH5885 V3, ensuring normal system operation. Fault isolation: To deal with un-correctable errors, the RH5885 V3 isolates a faulty component. eMCA: The correctable memory errors are preferentially corrected by the BIOS. 27 Faulty I/O Device Isolation Function description • When a fatal error is detected, the faulty I/O device is isolated. 28 A fatal error is detected on an I/O device. • The server enters the viral mode. • The system disconnects links from the faulty I/O device. • The fault is isolated from other devices. Higher Performance than IBM P750 Floating-point performance 88% ahead of competitive products Floating-point performance 64% higher than competitive products SPECfp_rate_base2006 SPECint_rate_base2006 1730 1800 2320 2500 1600 1400 2000 1050 1230 1200 1500 1000 800 1000 600 500 400 200 0 0 IBM 750 RH5885H V3 29 IBM 750 RH5885H V3 Database Performance Data comparison Server RH5885 V3 (3 TB) The TPC-E performance test results keep improving. tpsE tpsE 5311 X3850(2TB) 3218.46 6000 RH5885 V2 (1 TB) 3053.84 5000 IBM X3850 (1 TB) 2862.61 4000 RX500 S7 (1 TB) 2651.27 3000 DL580 G7 (1 TB) 2454.51 2000 5311 3218.46 2862.61 2651.27 2454.51 1000 0 RH5885H V3 (3TB) 30 X3850 (2TB) IBM X3850 (1TB) RX500 S7 (1TB) DL580 G7 (1TB) Four High-Performance GPUs RH5885H V3 supports four dual-slot GPUs to meet requirements for graphics processing, HPC, and virtual desktop applications. Virtual desktop HPC • NIVIDA GRID K1&K2 • Dual slots, full-height, full-length • Pass-through graphics boards, used for desktop cloud users with high graphics processing requirements • K1: 130 W • K2: 225 W • Tesla K10, single slot, 225 W • Tesla K20, dual slots, 225 W • Used for HPC 31 Graphics processing • Quadro 4000: 256 cores • Single slot: 142 W Simple Maintenance Buttons and indicators are in the same area. Front fan modules can be maintained without the need for opening the chassis cover. Modular designed memory boards Pull-out asset tag Touch-LCD, which can be pulled out of the server and rotated 32 Handle with ergonomic design to facilitate pulling out the server Hot-swappable PCIe devices can be maintained without the need for opening the chassis cover. PCIe Devices Easy Maintenance Highlights PCIe device hot swap • • • Quick replacement for non-pluggable PCIe Maintenance without the need for opening the chassis: Four hot-swappable PCIed devices can be replaced without interrupting services. Free-of-tool installation: Non-pluggable PCIe devices can be quickly installed by using riser cards without any tools. High scalability: A maximum of 16 PCIe devices are supported. 33 Touch-LCD Diagnosis Panel Touch-LCD The touch-LCD is used to monitor installation status and running status of server components and set the server IP address. The background colors indicate various fault severities. 34 Flexible Configuration for Local Storage Up to 23 hard disks to provide an industry-leading local storage capacity   To meet requirements for various application scenarios, the RH5885 V3 uses eight or twenty-three 2.5-inch hard disks to provide an industryleading local storage capacity. Adopting the advanced RAID technology, the RH5885 V3 supports RAID 0, 1, 10, 5, and 6, a 1 GB cache, and an optional battery or supercapacitor for power-off protection. Huawei RH5885 V3 • HP DL580 DELL R910 • Up to 23 x 2.5" hard disks 35 Up to 16 x 2.5" hard disks • Up to 8 x 2.5" hard disks High Energy Efficiency Energy-efficient and environment friendly  PSUs in 1+1 or 2+2 redundancy mode, meeting requirements for high efficiency and reliability  Overall performance increased by 100% with the same power consumption 80 Plus Platinum PSUs with 94% power efficiency Power capping • Highly efficient Platinum PSUs • DC/DC onboard power efficiency of 94% • Increased utilization of the equipment room and rack power supply • Increased device density in an equipment room and reduced rent for equipment rooms 36 DEMT • 13% increased energy efficiency by adopting DEMT • Energy-saving range covering idle to 100% loads Stable System Operation at 40°C • Refined management of vector airflows: efficiently uses air to meet cooling requirements for 95 W, 115 W, or 130 W processors. • Double-faced cellular board: increases the amount of system airflow input by achieving the open porosity of 43%, which is 115% increased compared with HP servers. Refined management of vector airflows • MIMO: provides high energy-saving efficiency for the entire server, and scored 5013 in the SPECpower_ssj2008 test. The Huawei 4-socket servers support the ambient temperature 5°C (10°C to 35°C) higher than that supported by mainstream servers. 37 • Aluminium board embedded with copper heat sink: reduces weight by 45% compared with the general heat sink, with less thermal resistance and higher cooling efficiency. Contents 1 Click to addTrends Title Multi-Socket Server Development 2 Click to add Title RH5885 V3 Introduction 3 RH5885 V3 Features Click to add Title 4 4-Socket Server Application Scenarios 5 Success Cases for Huawei 4-Socket Server 38 Substitute for Midrange Computers Application and middleware Database Traditional midrange computers Migrate to the X86 architecture RH2288 V2 2-socket server RH2288 V2 2-socket server RH5885 V3 4-socket server RH5885 V3 4-socket server Storage resource pool Old OS New OS UNIX Linux Middleware Weblogic for UNIX Weblogic for Linux Database Oracle for UNIX Oracle for Linux 39 • • • Performance improvement: >10% Cost reduction: >50% Reduce capacity expansion costs after using the standard platform • Respond quickly to new business. Mission Critical Application -- Database Recommended configuration Middleware server Middleware server Device Configuration Quantity Middleware RH2288 2 x E5-2620 v2, 128 GB memory 2 Database RH5885 4 x E7-4870 v2, 1 TB memory 2 Shared storage S6800T Software Database server HA 40 Middleware WebLogic Database Oracle RAC OS SUSE Linux Enterprise 1 Mission Critical Application -- BI CRM library Data warehouse Data display ETL and analysis ERP library Other service database Data extraction RH5885 RH5885 SAP BusinessObjects BI SAP Sybase IQ Data integration 41 Data analysis Decision making support Virtual Resource Pool Email VDI ERP CRM Email VDI ERP CRM Email VDI ERP CRM VM2 VM2 VM2 VM2 VM2 VM2 VM2 VM2 VM2 VM2 VM2 VM2 Hypervisor Hypervisor Hypervisor RH5885 V3 resource pool   The RH5885 V3 resource pool applies to services that have high requirements for single-VM performance, and supports large-scale or mission critical virtualization. An RH5885 supports up to 60 computing cores, with 120 concurrent threads, and 3 TB memory, providing sufficient resources. 42 SAP HANA Appliance Single-node appliance solution Recommended appliance hardware configurations Processor • Intel® Xeon® E7-4800/8800 • 4 to 8 processor sockets Memory capacity • 512 GB to 2 TB Storage • Logs: PCIe SSDs of 800 GB, 1.2 TB, and 2.4 TB • SAS hard disks for local storage • Ratio of the memory capacity to the local disk capacity: 1:4 Network Multiple 10GE NICs 43 Contents 1 Click to add Trends Title Multi-Socket Server Development 2 Click to add Title RH5885 V3 Introduction 3 RH5885 V3 FeaturesClick to add Title 4 4-Socket Server Application Scenarios 5 Success Cases for Huawei 4-Socket Server 44 Global References Government Telecom Integrator Transportation Finance Energy State Archives Administration China Mobile SAP China TravelSky Technology Limited Agriculture Bank of China China Shenhua Group Zhengzhou Railway Bureau People's Bank of China Yunnan Provincial Administration of Taxation Shanxi Provincial Environment Protection Center China Unicom Poland S4E China State Grid China Telecom Bilot, Oy, Finland 45 Xi'an Railway Bureau Huaxia Bank China National Offshore Oil Corporation (CNOOC) E-commerce Ctrip CTS, HK Copaco Netherland BSS System Migration from RISC to X86 Customer Benefits BSS System Midrange Computer Huawei RH5885 V2 TCO saved 48% with open ecosystem Workload reduced from 90% to 40%, Efficiency improved 37% “The legacy RISC system took 35 hours to get the billing information, and Huawei platform takes 22 hours .The new system keeps the same reliability as midrange computer.” 46 Same reliability as midrange computer E-Commerce Platform for CTS Hong Kong Customer Requirements    An open and universal architecture is required to reduce the cost. The platform must be flexibly scalable to meet development requirements for new services. The core platform must provide similar reliability to midrange computers. Huawei's Solution    The x86 server RH5885 V3 is used to construct the cluster. Based on universal, commercial software, the service rollout is fast. 35 RAS features ensure high reliability. e-Business Access and application server x86 cluster substitute for midrange computers RH5885 database server Customer Benefits   The platform TCO is reduced by 50%. The system running is stable, and mission critical applications run properly. 47 "The Huawei x86 servers used for constructing the travel e-commerce platform greatly reduce the cost, shorten the service rollout time, and provide high reliability, satisfying our requirements." State Grid Scheduling System Project  Customer challenges   Solution Customer benefits     x86 servers are to be used as the core computing devices to substitute for the existing midrange computers in the scheduling system. The deployment density and computing efficiency need to be increased, and the investment and maintenance costs need to be reduced. Deploy Huawei blade servers in the intelligent simulation system to increase the deployment density. Deploy Huawei high-end, 4-socket, x86 servers for the power scheduling system to provide a highperformance, high-reliability platform. Reduce the TCO by 50%. Improve system performance by 15% by using customized testing and optimization. Provide quick service rollout by using the open, universal architecture. 48 SAP HANA Appliance  Challenge Huawei solution A top Italy retailer wanted to upgrade the inventory management system  The legacy information system had over 2 hours delay  Distribution of goods can’t catch up with the goods consumption  Need a real-time inventory management system    RH5885 with SAP HANA in-memory database The server based on Intel CPU can provide 4TB memory and 16TB local storage maximum Result  Up to 1000x faster data analytics speed than original Data Warehouse  Efficiency is improved from 2 hours to 5 seconds after the deployment 49 HUAWEI ENTERPRISE ICT SOLUTIONS A BETTER WAY Copyright © 2014 Huawei Technologies Co., Ltd. All Rights Reserved. The information in this document may contain predictive statements including, without limitation, statements regarding the future financial and operating results, future product portfolio, new technology, etc. There are a number of factors that could cause actual results and developments to differ materially from those expressed or implied in the predictive statements. Therefore, such information is provided for reference purpose only and constitutes neither an offer nor an acceptance. Huawei may change the information at any time without notice. HUAWEI E9000 Converged Infrastructure Blade Server Content 1 Click to add Development Title Converged Infrastructure Trends 2 Click to add Title E9000 Product Highlights 3 Click to add Title E9000 Product Overview 4 Application Scenarios 5 Application Case 52 New-generation IT System Features Data Center Development Trends Server-centric Real-time online data LAN Switch UNIX、PC Server Internal Storage Storage-and-Server-centric SAN Switch Heterogeneous resource integration and unified management Provisioning of multiple services sharing platform Cloud Big Data Independent RAID array Separated SAN network and LAN network Unified network Data Center Ethernet ECoE Unified Data Center Management Automatic Architecture Management of massive data On-demand and spacebased deployment Elastic, smooth expansion Convergence Architecture Smooth Expansion Application Transparency Research by Gartner indicates that 30% of data centers will use converged infrastructure by 2015. Rapid response 53 IT Architecture Development Trends Traditional IT Architecture Memory Convergence Architecture I/O acceleration (exclusive) Unified physical machine and virtual machine management Virtualization CPU Network I/O acceleration (exclusive / shared) CPU External storage External storage Network Memory Storage Application Integration Application deployment template Management Platform Physical and virtual resource pool management I/O acceleration (exclusive / shared) High-speed network CPU System efficiency and agility are increased, and operating expense (OPEX) is lowered 54 Memory Storage Server Network Memory Server CPU Server Server I/O acceleration (exclusive) Virtualization Infrastructure New IT System Construction Objectives Current IT status quo and challenges  Time-consuming IT system construction   Difficulties in system expansion   System upgrades and expansion fail to keep pace of business growth  Simplicity    Significant energy challenges as deployment scale growing 55 High integration and rapid deployment Efficiency   Information silos anywhere Ever-increasing management costs System energy consumption challenges   Accelerated application and outstanding performance Agile Flexible expansion and adaption to changes Green  High energy efficiency  Difficulties in system maintenance   Trends such as big data and cloud computing impose new requirements on the IT system New IT construction objectives Content 1 Click to add Development Title Converged Infrastructure Trends 2 Click to add Title E9000 Product Highlights 3 Click to add Title E9000 Product Overview 4 Application Scenarios 5 Application Case 56 E9000 Converged Infrastructure Blade Server 1 2 • • Storage Distributed storage solution provides cost-effective solution for applications of big data • Network 8 kinds of switch modules support GE/10GE/FCoE/FC/IB QDR/FDR • Management Esight unified management improves management efficiency over 70% 57 No.1 Storage Density CH222（Full width）support 15*2.5 inch HDDs Single-frame support 120*2.5 inch HDDs 3 E9000 switch module base on advanced Huawei DataCenter No.1 Switch Technology 15.6T midplane switch capacity，support maximum 128*10GE Switch Performance ports and evolution to 40GE and 100GE Support Ethernet，IB，FC ports, flexible networking 4 Support running at 40°C No.1 Reliability The failure rate is 15% lower than competitors 5 No.1 Energy Efficiency Rank first in China Mobile and China Unicom competition testing Chinese green energy certification 6 Convenient O&M Plug and Play Automatic configuration and transmission data, including BIOS, RAID, network card Computing 7 kinds of computing nodes，fully support E5-2600/E54600/E7-4800 processors No.1 One chassis supports 32*2P notes、64*Romley EP 130W CPU Computing One chassis Maximum floating point performance Density 16.5TFlops No.1 Computing Density E900 Highest Computing Density    One chassis supports 32*2P notes、64*Romley EP 130W Quantity of CPUs/Chassis CPU Maximum floating point performance 16.5TFlops Single node maintenance Every node supports 8 memory channels, leading memory bandwidth Quantity of memory channel HUAWEI CH140 Half width slot support 2*2P nodes, E5-2600 CPU，every node support 8 memory channels, support single node maintenance IBM FlexSystem X222 full width slot 4 nodes support E5-2400 CPU，every node only support 6 memory channels 58 HUAWEI E9000 DELL M1000e IBM FlexSystem SuperMicro SuperBlade 64 32 32 40 Yes Yes No No 8 6 6 8 DELL Power420 Full hight 4 nodes support E52400 CPU, every node only support 6 memory channels. Not support single node maintenance SuperMicro SBI-7227R-T2 Full hight 2 nodes support E52600 CPU, every node support 8 memory channels. Not support single node maintenance No.1 Storage Density E9000 Highest Storage Density  E9000 CH222（Full width）support 15*2.5 inch HDDs  Single-frame support 120*2.5 inch HDDs，the biggest memory Quantity of HDDs per slot Quantity of HDDs per chassis HUAWEI E9000 DELL M1000e IBM FlexSystem 15 7 12 120 56 84 capacity in one chassis Note: E9000 chassis supports 8 CH222 computing nodes HUAWEI CH222 DELL internal SAN PS-M4110x E9000 CH222：Support 15*2.5’ HDDs，SAS, SATA, NL-SAS, 120 HDDs in one chassis Dell SAN PS-M4110x occupies double slots，support 14 HDDs， 56 HDDs in one chassis 59 IBM FlexSystem storage node IBM PureFlex storage note, support 14*2.5’ HDDs， 98 HDDs in one chassis No.1 Switch Performance E9000 switch performance overall leading    E9000 switch module base on advanced Huawei DataCenter Switch Technology 15.6T midplane switch capacity，support maximum 128*10GE ports and evolution to 40GE and 100GE Support Ethernet，IB，FC ports, flexible networking Backplane bandwidth Quantity of 10GE E9000 Switch Module Switch slot uplink 32 ports，single-frame maximum 128*10GE ports， support more than 3 plane network EN4093 10Gb switch board： 14*10G+2*40G 60 IBM FlexSystem HP C7000 15.6T 8.96T 6.27T 7.168T 128 48 88 64 IBM: single-frame max 88*10GE ports，only 2 network plane HP/DELL：switch module uplink 16*10GE ports CX317 10GEpass-thru: 32ports CX911 multi-plane switch board DELL M1000e Other Manufacture EN4091 10Gb Board： 14 ports CX116 GE pass-thru: 32ports HUAWEI E9000 10G switch board ：8 ports HP 6120XG 10G switch board: 8 ports IB switch board ：8ports No.1 Reliability Ensure Reliability by Advanced Design and Strict Testing  Failure Rate(According to Support stable operation at 40°C high temperature, ensuring business continuity  The failure rate is 15% lower than competitors Independent air-duct, improving system heat dissipation Passive backplanes avoid single points of failure • • Front and rear independent air-duct • Duct design optimization The passive backplanes contain no active components such as resistors, capacitors, and ICs, except PCBs and connectors the statistical result from customer T) The most stringent standards of reliability testing for components • High and low temperature test, HALT • 3000 times Power cycle test • Continuous 30 days stress test Others 0.87% 1.12% Quality control throughout the whole process • • • • • 61 HUAWEI Supplier Certification Component selection and control IPD process from module to system 150 reliability patents EMC testing, safety testing No.1 Energy Efficiency Leading Energy Efficiency, Energy Saving  Rank No.1 in SEPC power testing  Rank No.1 in in China Mobile and China Unicom competition testing 80PLUS Platinum Power efficiency 94.6% • • 80PLUS Platinum power, 94.6% conversion efficiency , 5% higher than industry onboard DC/DC 94% conversion efficiency  Chinese Green Energy Certification • • Non-toxic design, Energy saving Green energy, to meet customer requirements of environmental protection 62 Chinese green energy certification DEMT--Dynamic Energy Management Technology Power Capping Technology • • Improve power utilization of the equipment room and cabinet Improve equipment room density, reduced rental costs; • • Improve energy efficiency over 13% by DEMT Range of energy saving cover idle～100％ load Convenient O&M Initial deployment • Deployment, changing or migration of blades or switch modules Offline Configuration Mass deployment Equipment changing Configuration Remains Plug and play Equipment migration Configuration Migration Configuration migration with equipment location • Plug and play • Parameters automatically configured and migrated (including configurations of BIOS，network card，RAID etc.) 63 • Time-saving, changing equipment would only cost 2 minutes instead of 20 minutes Hardware Acceleration Solutions Hardware acceleration solutions greatly accelerate services  PCIe SSD cards improve the IOPS by 100 times  Data compression cards improve Hadoop performance by 40%  The PSTM application coprocessor speedup ratio increases by 300%  The iNIC improves the Vswitch performance by 200% HUAWEI 4T financial data query test SSD card Exadata HUAWEI SQL17 timeout 320s SQL13 905s 319s SQL12 737s 124s SQL7 85s 15s Top17 SQL Query iNIC Intel Phi Coprocessor CH221 IO Expansion Computing Node 64 E9000 Chassis Comparison of E9000 and competitors’ products E9000 and competitors products Key Competitiveness Key feature HP C7000 G8 IBM FlexSystem Cisco UCS G3 Huawei E9000 Engineering capability heat dissipation for front ,rear slots and power supply 1200W/100W 1200W/100W 1200W/100W 1400W/280W Computing capability Computing density 32 56 16 64 Memory capacity Memory capacity per chassis (mainstream granules) 8.2T 10.8T 6.14T 12.3T 2.5" disk quantity per slot 12 12 12 15 External SAN Internal SAN External SAN External SAN Internal DS 6.144Tbps 7.168Tbps 1.28Tbps 15.6Tbps 10GE/FCoE/8G FC/IB switch Y Y Y Y 40GE Y N Y Y RoCE N Y N Y 16G FC N Y N N PCIe resources expansion N 2*PCIe 8x+2*PCIe 16x N 4*PCIe 8x or 2*PCIe 16x 5°C~35°C 5°C~40°C 5°C~35°C 5°C~40°C Storage capability Computing and storage converged Backplane Bandwidth network PCIe expansion Running environment Ambient temperature 65 Content 1 Click to add Development Title Converged Infrastructure Trends 2 Click to add Title E9000 Product Highlights 3 Click to add Title E9000 Product Overview 4 Application Scenarios 5 Application Case 66 E9000 Product Panorama chassis chassis E9000 chassis • • • • Adopts the modular design for compute nodes, storage nodes, switch modules, fan modules, and power supply modules 12U high chassis, providing 8 full width or 16 half width slots Support next 3 generation Intel processors Support evolution of next decade network technology Computing node Computing node CH121 HW 2S Node High density Large memory CH140 HW 2*2P Twin Node Ultra high density high performance CH220 FW IO Expansion Node Large memory Strong expansion CH221 FW IO Expansion Node Large memory Strong expansion CH222 FW Storage Node Large memory Ultra large storage CH240 FW 4P Node High performance Ultra large memory CH242 FW 4P Node Ultra high performance Large memory Switch module Switch module CX110 GE switch module CX116 CX310 CX311 CX317 CX610 CX911 GE pass-thru module 10GE converged switch module 10GE/FCoE converged switch module 10GE pass-thru module QDR/FDR switch module 10GE/FC Multiplane switch module 67 E9000 Chassis Front view Rear view Half width slot E9000 chassis Fan module Management module Switch module Power supply module Full width slot specification • • • • • Chassis specification Installed in a standard 19-inch rack, the E9000 is 12 U high. Its dimensions are: 530.2 mm x 442 mm x 840 mm (H x W x D) An E9000 chassis houses 16 half-width slots or 8 full-width slots Management modules support 1+1 redundancy and management protocols and interfaces such as IPMI 2.0, SOL, SSL, SSH, and web Supports up to 6 Platinum PSMs (AC 3000 W/DC 2500 W) in N+N/N+1 redundancy with up to 95% efficiency under 50% load and supports dynamic management for PSMs in the hibernation state Provides 14 fan modules(3 groups) and every group supports single-fan failures 68 CH121 Half Width Computing Node Front view CH121 product view Isometric view Highlights • • • Form factor Half-width 2-socket computing node Number of CPUs 1 or 2 Processor model Intel Xeon E5-2600/core options: 4,6 or 8 Number of DIMMs 24 DDR3 DIMMs, providing a maximum capacity of 768G Number of HDDs 2 2.5 inch SSDs or SAS/SATA HDDs RAID support Support RAID 0 and 1 PCIe expansion Operating systems supported 2 PCIe x16 mezz modules 1 standard PCIe x8 full-height half-length card Microsoft Windows Sever 2008 R2 Enterprise/Standard Edition 32/64bit Red Hat Enterprise Linux SUSE Linux Enterprise Server Citrix XenServer VMware ESX Operating temperatures 5℃-40℃ Dimensions 215 mm(8.46 in.)*525mm(20.67 in.)*60.46mm(2.38 in.) High performance: Half slot provides a dissipation capacity of 700W, supporting 2 E5-2690 processors Cost-effective large-memory: Provides 24 DIMMs at 1.5 times the usual height that apply mainstream granules to double capacity with a total of up to 768 GB DDR3 memory capacity (most cost-effective for large-memory applications) Flexible PCIe expansion: support 1 standard FHHL PCIe card，users can choose proper PCIe acceleration solution for service optimization 69 CH140 Half Width Twin Computing Node Front view CH140 product view Isometric view Form factor Half-width 2*2-socket computing node Number of CPUs 2*1 or 2 Processor model Intel Xeon E5-2600/core options: 4,6 or 8 Number of DIMMs Each 2S node provides 8 DDR3 DIMMs Number of HDDs 1 2.5 inch SSD PCIe expansion Each node provides 2 PCIe x8 mezz modules Operating systems supported 1*2.5inch HDD SSD 4DIMMs Microsoft Windows Sever 2008 R2 Enterprise/Standard Edition 32/64bit Red Hat Enterprise Linux SUSE Linux Enterprise Server Citrix XenServer VMware ESX 4DIMMs Operating temperatures 5℃-35℃ Dimensions 215 mm(8.46 in.)*525mm(20.67 in.)*60.46mm(2.38 in.) Highlights • High performance : CH140 support 4 maximum 130W E5-2600 processors(E5-2680, 8 cores at 2.7GHz) • Ultra-high computing density: One chassis supports 32*2P notes、64*Romley EP 130W CPU, industry highest density • Single node maintenance 70 CH220/CH221 Full Width IO Expansion Node Front view CH220/CH221 product view Isometric view Highlights • • • Form factor Full-width 2-socket computing node Number of CPUs 1 or 2 Processor model Intel Xeon E5-2600/core options: 4,6 or 8 Number of DIMMs 24 DDR3 DIMMs, providing a maximum capacity of 768G Number of HDDs 2 2.5 inch SSDs or SAS/SATA HDDs RAID support Support RAID 0 and 1 PCIe expansion Operating systems supported 2 PCIe x16 mezz modules(Note: MEZZ2 has been occupied) 4 PCIe x8 FHHL(CH220)or 2 PCIe x6FHHL(CH221) Microsoft Windows Sever 2008 R2 Enterprise/Standard Edition 32/64bit Red Hat Enterprise Linux SUSE Linux Enterprise Server Citrix XenServer VMware ESX Operating temperatures 5℃-40℃ Dimensions 423 mm(16.65in.)*525mm(20.67 in.)*60.46mm(2.38 in.) Strong expansion capability: support standard PCIe card, a maximum of 4 PCIe cards are supported in one full width slot, industry No.1 PCIe expansion capability High performance: full width slot provides a dissipation capacity of 1400W, adoption of FHFL GPU cards can greatly improve HPC application performance Cost-effective large-memory: Provides 24 DIMMs at 1.5 times the usual height, most cost-effective for large-memory applications 71 CH222 Full Width Storage Expansion Node Front view CH222 product view Isometric view Highlights • • • Form factor Full-width 2-socket computing node Number of CPUs 1 or 2 Processor model Intel Xeon E5-2600/core options: 4,6 or 8 Number of DIMMs 24 DDR3 DIMMs, providing a maximum capacity of 768G Number of HDDs 15 2.5 inch SSDs or SAS/SATA HDDs RAID support Support RAID 0,1,10,5,50,6,60, 1GB RAID cache PCIe expansion Operating systems supported 2 PCIe x16 mezz modules 1 PCIe x8 FHHL card Microsoft Windows Sever 2008 R2 Enterprise/Standard Edition 32/64bit Red Hat Enterprise Linux SUSE Linux Enterprise Server Citrix XenServer VMware ESX Operating temperatures 5℃-40℃ Dimensions 423 mm(16.65in.)*525mm(20.67 in.)*60.46mm(2.38 in.) Ultra-Large storage: Full width slot provides 15 2.5 inch HDD bays, providing a maximum capacity of 15T, very suitable for applications of big data and distributed computing Flexible PCIe expansion: support 1 standard FHHL PCIe card，users can choose proper PCIe acceleration solution for service optimization Cost-effective large-memory: Provides 24 DIMMs at 1.5 times the usual height, most cost-effective for large-memory applications 72 CH240 Full Width Computing Node Front view CH240 product view Isometric view Form factor Full-width 4-socket computing node Number of CPUs 2 or 4 Processor model Intel Xeon E5-4600/core options: 4,6 or 8 Number of DIMMs 48 DDR3 DIMMs, providing a maximum capacity of 1.5TB Number of HDDs 8 2.5 inch SSDs or SAS/SATA HDDs RAID support Support RAID 0,1,10,5,50,6,60, 512MB/1GB RAID cache PCIe expansion 2 PCIe x16 mezz modules Microsoft Windows Sever 2008 R2 Enterprise/Standard Edition 32/64bit Red Hat Enterprise Linux SUSE Linux Enterprise Server Citrix XenServer VMware ESX Operating systems supported Highlights • • • Operating temperatures 5℃-40℃ Dimensions 423 mm(16.65in.)*525mm(20.67 in.)*60.46mm(2.38 in.) High performance: full width slot supports 4 E5-4600 processors and 48 DDR3 DIMMs, providing a maximum memory capacity of 1.5TB Large storage: full slot provides 8 2.5 inch HDDs bays, suitable for database applications requiring both computing performance and local storage capacity Cost-effective large-memory: Provides 48 DIMMs at 1.5 times the usual height, most cost-effective for large-memory applications 73 CH242 Full Width Computing Node Front view CH242 product view Isometric view Form factor Full-width 4-socket computing node Number of CPUs 2 or 4 Processor model Intel Xeon E7-4800/core options: 6,8 or 10 Number of DIMMs 32 DDR3 DIMMs, providing a maximum capacity of 1TB Number of HDDs 8 2.5 inch SSDs or SAS/SATA HDDs RAID support Support RAID 0,1,10,5,50,6,60, 1GB RAID cache PCIe expansion 4 PCIe x8 mezz modules Microsoft Windows Sever 2008 R2 Enterprise/Standard Edition 32/64bit Red Hat Enterprise Linux SUSE Linux Enterprise Server Citrix XenServer VMware ESX Operating systems supported Operating temperatures 5℃-40℃ Dimensions 423 mm(16.65in.)*525mm(20.67 in.)*60.46mm(2.38 in.) Highlights •High performance: full width slot supports 4 E7-4800 processors and 32 DDR3 DIMMs, providing a maximum memory capacity of 1TB •Large storage: full slot provides 8 2.5 inch HDDs bays, suitable for database applications requiring both computing performance and local storage capacity •Flexible PCIe expansion: support 1 standard FHHL PCIe card，users can choose proper PCIe acceleration solution for service optimization 74 E9000 Switch Modules Switch Modules CX116 GE switch module GE pass-thru module CX310 CX311 10GE converged switch module Uplink: 16*10GE Downlink: 32*10GE 10GE/FCoE converged switch module Uplink: 16*10GE and 8*8GFC Downlink: 32*10GE CX317 CX610 CX911 Switch Modules CX110 Uplink : 12*GE and 4*10GE Downlink: 32*GE Uplink: 32*GE Downlink: 32*GE 10GE pass-thru module Uplink: 32*10GE Downlink: 32*10GE QDR/FDR switch module Uplink: 18*QDR/FDR IB Downlink: 16*QDR/FDR IB Highlights  Enables data center TRILL large layer 2 network construction  Supports DCB lossless Ethernet to bear FCoE and iSCSI  Supports a converged network, virtual paths, and flexible Ethernet and FC configuration 75 10GE/FC Multi plane switch module Uplink: 16*10GE and 8*8GFC Downlink: 32*10GE and 16*8GFC MEZZ Modules Front view Isometric view Mainboard connecter MEZZ Modules Backplane highspeed connecter Model Available slot GE MZ110 MEZZ1/2 NIC mezz module with 4 x GE ports 10GE MZ510 MEZZ1/2 CNA mezz module with 2 x 10GE ports Supports FCoE, and FCoE supports NPIV and NPAR. A physical port can be split up to 4 NPARs. MZ512 MEZZ1/2 CNA mezz module with 4 x 10GE ports Supports FCoE, and FCoE supports NPIV and NPAR. A physical port can be split up to 4 NPARs. Multi-IO MZ910 MEZZ1/2 FC mezz module with 2 x 10GE and 2 x 8G FC ports FC ports support NPIV. InfiniBand MZ610 MEZZ1/2 HCA mezz module with 2 x 4X InfiniBand QDR ports MZ611 MEZZ1/2 HCA mezz module with 2 x 4X InfiniBand FDR ports Models Type 76 Specification Description Mezz Card and Blade Compatibility Matrix Compatibility Matrix Blade Type GE Mezz Module 10GE Mezz Module Multi-IO Mezz Module InfiniBand Mezz Module Matrix MZ110 MZ510 MZ512 MZ910 MZ610① MZ611① CH121 Mezz1 /2 Mezz1 /2 Mezz1 /2 Mezz1 /2 Mezz 2 Mezz 2 CH220 Only Mezz1② Only Mezz1② Only Mezz1② Only Mezz1② Not Support② Not Support② Mezz 2④ 【Only customized in HPC projects】 CH221 Only Mezz1③ Only Mezz1③ Only Mezz1③ Only Mezz1③ Mezz 2④ 【Only customized in HPC projects】 CH222 Mezz1 /2 Mezz1 /2 Mezz1 /2 Mezz1 /2 Mezz 2 Mezz 2 CH240 Mezz1 /2 Mezz1 /2 Mezz1 /2 Mezz1 /2 Mezz 2 Mezz 2 CH242 Mezz1 /2/3/4 Mezz1 /2/3/4 Not Support⑤ Mezz1 /2/3/4 Mezz 2/4 Mezz 2/4 Remark ① You are advised to install the InfiniBand mezz modules in Mezz2/Mezz4 (Releated to slots 1E and 4E), for cabling convenience because of the high port density and thick InfiniBand cables. ②By default configuration, the Mezz2 slot of CH220 is already occupied (By the signal connector for standard PCIe card expansion slot) , so only Mezz1 of CH220 can be used to deploy network mezz module. ③By default configuration, the Mezz2 slot of CH221 is already occupied (By the signal connector for standard PCIe card expansion slot) , so only Mezz1 of CH221 can be used to deploy network mezz module by default. ④ But in HPC projects, when used CH221 to support GPGPU/co-processors, customized -configuration by PO of CH221 can be provided, the customized-CH221 can use Mezz2 to deploy IB card. (Note: Customized CH221 need to be tracked by R&D now) ⑤CH242 not support MZ512. 77 Mapping Between MEZZ and Switch Slots Mapping between MEZZ and switch slots MEZZ and Switch Slots X2 E1 E4 X2 X3 E4 Switch slots Computing nodes MEZZ 1 MEZZ 2 Blade E1 X3 Description Description    Mezz1 is mapped to switch module slots 2 and 3. Mezz2 is mapped to switch module slots 1 and 4. Mezz module types must match switch modules. Two mezz modules can be flexibly configured with two pairs of switch modules. 78 MEZZ and Switch Module Compatibility Matrix-1 category GE module 10GE module Switch module CX110 MEZZ Module A GE switch module with 32 x GE downlink ports and 12 x GE + 4 x 10GE uplink ports Typical Combination Remark MZ110 4 x GE Yes MZ510 2 x 10GE CNA The CX110 supports communications with the MZ510. However, the MZ510 port rate is decreased to GE. The combination use of the MZ510 and the CX110 is not recommended. MZ512 4 x 10GE CNA The CX110 supports communications with the MZ512. However, the MZ512 port rate is decreased to GE. The combination use of the MZ512 and the CX110 is not recommended. MZ110 4 x GE Yes compatibility CX116 32 x GE pass-through electrical ports CX310 A 10GE converged switch module with 32 MZ510 x 10GE downlink ports and 16 x 10GE MZ512 uplink ports MZ110 2 x 10GE CNA Yes 4 x 10GE CNA Yes A 10GE/FCoE converged switch module with 32 x 10GE downlink ports, 16 x 10GE uplink ports, and 8 x 8G FC uplink ports MZ510 2 x 10GE CNA Yes 10GE/FCOE run on the link between the MZ510 and the CX311. FCF on the CX311 will end FCoE communications and switch FCoE communications to 8G FC communications. MZ512 4 x 10GE CNA Yes 10GE/FCOE run on the link between the MZ512 and the CX311. FCF on the CX311 will end FCoE communications and switch FCoE communications to 8G FC communications. MZ110 4 x GE The CX311 supports communications with the MZ110. However, the rate of ports on the CX311 is decreased to GE.. The combination use of the MZ110 and the CX311 is not recommended. 2 x 10GE CNA With the same features as the CX310, the CX312 provides eight more 10GE uplink ports than the CX310, applying to scenarios that require more uplink ports. 4 x 10GE CNA With the same features as the CX310, the CX312 provides eight more 10GE uplink ports than the CX310, applying to scenarios that require more uplink ports. MZ110 4 x GE The CX312 supports communications with the MZ110. However, the rate of downlink ports on the CX312 is decreased to GE. The combination use of the MZ110 and the CX312 is not recommended. MZ510 2 x 10GE CNA The CX317 supports communications with the MZ510. However, half of ports on the panel are not used. MZ512 4 x 10GE CNA CX311 CX312 CX317 A 10GE converged switch module with 32 MZ510 x 10GE downlink ports and 24 x 10GE uplink ports MZ512 32 x 10GE pass-through ports 79 The CX310 supports communications with the MZ110. However, the rate of downlink ports on the CX310 is decreased to GE. The combination use of the MZ110 and the CX310 is not recommended. 4 x GE Yes MEZZ and Switch Module Compatibility Matrix-2 category Multi-plane switch module Switch module CX911 compatibility InfiniBand module remark 1. 2. 3. 4. 5. 6. 7. CX610 MEZZ Module Multi-plane switch module MZ910 16 x 10GE + 8 x 8G FC uplink MZ510 ports 32 x 10GE + 16 x 8G FC downlink ports MZ512 QDR/FDR InfiniBand switching16 x 4X QDR InfiniBand/ 4X FDR InfiniBand downlink ports 18 x QDR QSFP/FDR QSFP+ uplink ports 2 x 10GE + 2 x 8G FC Typical Combination Remark Yes 2 x 10GE CNA The CX911 supports communications with the MZ510. However, the FC switching plane of the MZ510 is not used. The combination use of the MZ510 and the CX911 is not recommended. 4 x 10GE CNA The CX911 supports communications with the MZ512. However, the FC switching plane of the MZ512 is not used. The combination use of the MZ512 and the CX911 is not recommended. MZ110 4 x GE The CX911 supports communications with the MZ110. However, the rate of downlink ports on the CX911 is decreased to GE, and the FC switching plane of the MZ110 is not used. The combination use of the MZ110 and the CX911 is not recommended. MZ610 2 x 40G QDR Yes MZ611 2 x 56G FDR Yes Remark If a mezz module is installed in slot MEZZ1, the mezz module connects to switch modules in slots 2X and 3X If a mezz module is installed in slot MEZZ2, the mezz module connects to switch modules in slots 1E and 4E A mezz module provides the same functions no matter it is installed in slot MEZZ1 or MEZZ2 You are advised to install the CX116s or CX317s in slots 1E and 4E for cabling convenience because of the high port density You are advised to install the CX310s, CX311s, CX312s, or CX110s in slots 2X and 3X You are advised to install the InfiniBand switch modules in slots 1E and 4E for cabling convenience because of the high port density and thick InfiniBand cables You are advised to install the CX911s in slots 2X and 3X 80 E9000 MM910 Management Module Main parts and ports FPGA DSP Management Module CPU Local KVM port Management GE port Management serial port description Description • The MM910 manages the E9000, complies with IPMI 2.0, and provides management functions such as remote startup, shutdown, reset, logging, hardware monitoring, SOL, KVM over IP, virtual media, fan monitoring, and PSM monitoring. • The MM910 supports 1+1 redundancy, and provides a local KVM port for server management. 81 Content 1 Click to add Development Title Converged Infrastructure Trends 2 Click to add Title E9000 Product Highlights 3 Click to add Title E9000 Product Overview 4 Application Scenarios 5 Application Case 82 E9000 Application Scenarios Enterprise Datacenter Physical machine, VM, and infrastructure with converged computing, storage, and networking resources Virtual Desktop VDI in a BOX Appliance Application performance acceleration， High-speed Fabric interconnection， Business intelligence/DW, memory database, big data HPC Key Application Four-socket compute nodes supported in half-width slots, InfiniBand switching RISC to IA The modular converged architecture meets various workload requirements Computing 2S, 4S computing nodes, storage expansion, IO expansion computing nodes Storage IPSAN, FC-SAN, FCoE, distributed storage Network GE, 10GE, 8GFC, FCoE, Infiniband switch, TRILL large layer 2 data center switches IO Acceleration components PCIe SSD, GPU, FPGA, MIPS 83 Enterprise Data Center Application Physical and Virtual Servers Enterprise Datacenter Application Typical Configuration • E9000 chassis • CH121 2-socket compute node (for web, middleware, and application VM LAN deployment) GE • CH220 resource expansion 2-socket compute node • CH222 storage expansion 2-socket compute node • CH240 4-socket compute node (database physical machine deployment) 10GE 8*8G FC 10GE LAN • Large-capacity SSD cards with application acceleration for email, ERP, 8G FC SAN CRM, databases, and BI • CX110 and CX311 switch modules iSCSi FCOE IPSAN FCSAN • GE, 10GE, FCoE, and FC switching, providing a converged network to improve management convenience, flexibility, and scalability. FC SAN 84 VDI in a Box Computing and Storage Convergence Without SAN VDI in a box Typical Configuration • • • • E9000 chassis CH222 storage expansion 2-socket compute node CX110 switch module PCIe SSD card Features GE/10GE LAN • Supports 128 processor cores, 6 TB memory capacity, and up to 128 TB raw storage capacity. • Supports 500 (heavy) to 1000 (light) virtual desktop infrastructure (VDI) users. • Supports deployment of an OS and hot applications on PCIe SSD cards, which reduces the VDI startup peak, increases IOPS by 800%, and reduces costs by 20%. • Supports the disk drawer and hot-swappable disks to reduce the time required to rebuild data during disk replacement. • Supports the virtual block storage (VBS) distributed harsh table (DHT) ring to protect shared disk storage in cross-server mode. 85 MPP Architecture OLAP for BI, DW, and In-memory Database MPP Architecture Typical Configuration • E9000 chassis • CH222 storage expansion 2-socket compute node • CH240 4-socket compute node (1.5 TB memory capacity) • PCIe SSD card • CX311 switch module 10GE LAN Features • Provides 2-socket 24-DIMM computing capability per node. Supports 15 disks per node. • A 4-socket 48-DIMM analysis node provides 1.5 TB memory capacity to support the memory database and real-time analysis. • Each node provides service bandwidth of 20GE. The switch latency is in ns, which removes the IO bottleneck during the ETL process. • The large-capacity PCIe SSD card is used for the index and hot data cache, which greatly improves the IOPS of the parallel database. 56G IB 86 Unstructured Database Application Hadoop, Hbase Application Unstructured Database Application Typical Configuration • E9000 chassis • CH121 2-socket compute node • CH222 2-socket storage expansion compute node (for web, middleware, application VM deployment) • Hadoop hardware compression card • CX110 switch module GE LAN Features • 10GE • • 87 A NameNode 2-socket compute node can provide a cost-effective large memory with up to 768 GB memory capacity. A DataNode 2-socket compute node supports 15 x 2.5" disks, and provides 40GE service bandwidth (4GE per node). The compression card improves Hadoop performance by 20%, and reduces network traffic by more than 60%, CPU usage by over 80%, used disk space by more than 50%, and disk I/O data read and write operations by over 50%. Key Applications RISC to IA, Unix Migration Key Applications 32 x 10GE uplink ports LAN 16 x 10GE uplink ports Typical Configuration 12 x GE uplink ports • E9000 chassis • CH121 2-socket compute node (for web, middleware, and application VM deployment) • CH240 4-socket compute node (database physical machine deployment) • CH280 8-socket compute node (2013) • PCIe SSD card • CX110 and CX311 switch modules Features 8 x GE downlink ports 8G FC SAN FC 8 x GE downlink ports 88 • Supports the VM resource pool for web, application, and middleware layers and virtual NICs to increase network throughput, which ensures VM security. • The OLTP database is deployed on physical machines, which supports stateless computing and migration, and use FC SAN for shared storage. • Supports a large-capacity cache by using PCIe SSD cards to improve I/O performance for databases. • Supports highly reliable redundancy for PSMs (N+1/N+N) and fan modules. High Performance Computing HPC Application HPC Feature • CH140 4S high density computing node CH221 IO expansion 2S computing node 89 CH140 Twin Computing Node: High-density computing • Supports 2*2-socket compute nodes in half-width slots • Supports 64 Intel Xeon E5-2600 processors in a chassis. • Supports 192 E5-2600 processors in a rack(3 chassises). • Supports 12 TB memory capacity • Supports InfiniBand QDR/FDR • Supports InfiniBand EDR evolution • Supports GPU and SSD resource expansion Content 1 Click to add Development Title Converged Infrastructure Trends 2 Click to add Title E9000 Product Highlights 3 Click to add Title E9000 Product Overview 4 Application Scenarios 5 Application Case 90 Case: Dispatching and directing management system for CREC Customer requirements    As the dispatching and directing management system is closely related to production security, the China Railway Engineering Corporation (CREC) requires a system with high reliability and security. The dispatching and directing management system frequently transmits data, which imposes a high requirement on the data transmission latency. The system must be easy to maintain. Highlights   91  Reliability: The E9000 uses a passive midplane and fully redundant key components, which greatly improves system reliability. Real-time capability: The E9000 midplane provides a switching capability of up to 15.6 Tbit/s, ensuring high-speed data switching for internal service modules. Maintainability: The E9000 provides unified eSight management interfaces for configuring, monitoring, and managing the chassis, PSUs, fan modules, switch modules, and compute nodes. Case: virtual laboratory of Shanghai Maritime University Customer requirements    Simplicity: IT resources are centrally managed, which improves IT resource O&M efficiency. High efficiency: The E9000 maximizes performance of the existing platform, increasing cost-effectiveness for applications. Agility: The E9000 supports high scalability, which meets requirements on IT resources of scientific researches. Solution    92 The E9000 provides integrated management for hardware and software resources, enabling automatic deployment and highly efficient maintenance. The E9000 supports GPUs and PCIe SSD cards to improve network and graphics processing performance. The system supports cascading of up to eight chassis, which meets requirements for service expansion. Case: HPC for UK XX University Customer requirements • • • Storage: The distributed storage solution is used to allow all compute nodes to share the storage space. Computing: The system supports the next-generation Intel CPUs with the data processing capability of 8 TFLOPS at peak values. Network: The multiple-plane networking is used to isolate the computing, storage, and management networks. Solution • • • 93 The Lustre distributed storage solution is used, and compute nodes and storage nodes are selected for the Lustre networking. The existing platform can be smoothly upgraded to Ivy Bridge, which meets requirements for the architecture and computing performance. The GE, 10GE, and IB networking solutions are provided, and physical planes are isolated, which ensures stable service operating. HUAWEI ENTERPRISE ICT SOLUTIONS A BETTER WAY Copyright©2012 Huawei Technologies Co., Ltd. All Rights Reserved. The information in this document may contain predictive statements including, without limitation, statements regarding the future financial and operating results, future product portfolio, new technology, etc. There are a number of factors that could cause actual results and developments to differ materially from those expressed or implied in the predictive statements. Therefore, such information is provided for reference purpose only and constitutes neither an offer nor an acceptance. Huawei may change the information at any time without notice. Huawei Tecal X6000 High-Density Server Main Slides Content 1 Product Positioning 2 3 4 96 Best Choice for Large-Scale Server Applications Cloud computing Web 2.0 Enterprise informatization X6000 HPC 97  Virtual host  Cloud computing  Distributed computing     Internet searching CDN E-commerce Online games and communities  Enterprise portal  Application middleware  Database  Branches  CRM/ERP/SCM  Cluster rendering  Modeling and simulation  Business intelligence Challenges Facing the System Cloud computing, Web 2.0, Enterprise informatization, and HPC… Compact Higher power consumption More complex management 98 New-Generation, High-Density Servers IBM iDataPlex HP SL6500 DELL C6220 SL250s Gen8 SL230s Gen8 dx360 M4 Cabinet server expandable with multi-node servers High density 4 U multi-node server High density High scalability 99 2 U multi-node server High density Large-capacity storage Huawei High-Density Server: Tecal X6000 Super high density High energy efficiency Simple management and maintenance High performance to 8 CPUs in a 2 U server (160 equivalent to 4  Up CPUs in a cabinet) rack servers  Consumes at least 10% less energy than same-density rack servers  Deployment time one-third less than the earlier version 2 U high-density node server 100 Content 1 2 X6000 Overview 3 4 101 X6000 Appearance  2 U shelf houses 4 half-width nodes or 2 full-width nodes.  The passive backplane combined with redundant PSUs and fan modules eliminate single point failures. Hot-swappable N+1 fan modules 2U PCIe slots Expansion slots for node servers High-density ports (available on all node servers) 1 VGAand 3 USB ports 102 Hot-swappable 1+1 PSUs PCIe slots Management Service network ports for network ports node servers for node servers X6000 Node Server Family XH310 V2 XH320 V2 XH621 V2 New-generation platforms Intel Xeon E3-1200 V2 22nm Sandy Bridge Intel Xeon E5-2400 32nm Sandy Bridge XH311 V2 Intel Xeon E5-2600 32nm Sandy Bridge XH620 XH320 Earlier platforms Foxhollow and Westmere XH310 2011 2012 103 2013 2014 X6000 Node Server Classification Smooth upgrade helps maximize ROI Streamlined computing 2 U, 4 nodes XH310 V2 XH311 V2 2 U, 2 nodes XH621 V2 Dense computing XH320 V2 104 Computing and storage balance High-density, Streamlined Computing with Half-width, Single-CPU Server Nodes 1 CPU 4 UDIMMs     1 x 3.5inch SATA disk   XH310 V2 1 CPU  4 UDIMMs    4 x 2.5-inch SAS disks, SATA disks, or SSDs   XH311 V2  105 1 Intel Xeon E3-1200 V2 CPU 4 DDR3 UDIMMs 1 x 3.5-inch SATA disk (no hot swap) 2 onboard GE ports and 1 PCIe x8 slot Hot-swappable node TPM 1 Intel Xeon E3-1200 V2 CPU 4 DDR3 UDIMMs 4 x 2.5-inch hot-swappable SAS disks, SATA disks, or SSDs; supports RAID 0, 1, 10, 5 , etc. Cache capacity of 512 MB or 1 GB; optional battery or super capacitor 2 onboard GE ports and 2 PCIe slots Hot-swappable node TPM High-density, High-performance Computing with Half-width, Dual-CPU Server Nodes 2 CPUs 12 RDIMMs 4 x 2.5-inch SAS disks, SATA disks, or SSDs  2 Intel Xeon E5-2400 CPUs  12 DDR3 RDIMMs  4 x 2.5-inch hot-swappable SAS disks, SATA disks, or SSDs; supports RAID 0, 1,  10, 5, etc. Cache capacity of 512 MB or 1 GB; optional battery or super capacitor  2 onboard GE ports and 1 or 2 PCIe slots    XH320 V2 106 Hot-swappable node and disks TPM USB port and USB flash card port High-Performance, Dense Computing with fullwidth, Dual-CPU Server Nodes 2 CPUs 8 x 2.5-inch SAS disks, SATA disks, or SSDs     24 RDIMMs     XH621 V2 107 2 Intel Xeon E5-2600 CPUs 24 DDR3 RDIMMs 8 x 2.5-inch hot-swappable SAS disks, SATA disks, or SSDs; supports RAID 0, 1, 10, 5, etc. Cache capacity of 512 MB or 1 GB; optional battery or super capacitor 2 onboard GE ports and 2 or 4 PCIe slots Hot-swappable node and disks TPM USB port and USB flash card port X6000: Broadest Range of High-density Server Nodes Server Nodes Vendor Product Model Height PSU Node Quantity Model CPU Quantity CPU Type DIMM Slot Quantity Disk Expansion Slot Quantity Service Network Port XH310 V2 1 Intel E31200 V2 4 1 × 3.5" 1 2 × GE XH311 V2 1 Intel E31200 V2 4 4 × 2.5" 2 2 × GE XH320 V2 2 Intel E52400 12 4 × 2.5" 1 or 2 2 × GE 2 XH621 V2 2 Intel E52600 24 8 × 2.5" 2 or 4 2 × GE 4 Huawei X6000 2U 2 Dell C6220 2U 2 4 C6220 2 Intel E52600 16 Shared by nodes: 12 × 3.5" or 24 × 2.5" 1 or 2 2 × GE IBM iDataPlex 2U 2 2 dx360 M4 2 Intel E52600 16 1 × 3.5" or 2 × 2.5" or 4 × 1.8" SSDs 2 2 × GE 2 4 SL250s 2 Intel E52600 16 4 × 2.5" + 4 × 2.5 " (or GPU) 2 2 × GE SL230s 2 Intel E52600 16 6 × 2.5" or 2 × 3.5 + 2 × 2.5" (2 × 2.5" disks occupy 1 PCIe slot) 1 2 × GE CX270 S1 2 Intel E52600 16 12 × 3.5" or 24 × 2.5" (shared by nodes) 2 2 × GE Intel E52600 16 6 × 2.5" or 3 × 3.5" 2 2 × GE Intel E52600 8 6 x 2.5" (24 x 2.5" for an entire node server) 1 2 or 4 × GE HP SL6500 4U 2 Fujitsu CX400 2U 2 8 4 CX250 S1 Inspur SA5248L 2U 2 4 SA5248L 108 2 Most energyefficient Most DIMMs and highest scalability Power Consumption Comparison Between the X6000 and Rack Servers Test data on power efficiency between the X6000 and common 1 U rack servers Server configuration: 2 CPU, 12 DIMMs, 2 x 2.5“ SAS HDDs CPU Stress XH320 (X6000 power consumption per node) Rack Server Energy-Saving Wattage (watts) Percentage 0% 90.25 169 78.75 47% 10% 133.5 190 56.5 30% 20% 154.5 207 52.5 25% 30% 173 222 49 22% 40% 192.25 238 45.75 19% 50% 211.75 256 44.25 17% 60% 233.75 273 30.25 14% 70% 250 289 39 13% 80% 268.5 304 35.5 12% 90% 287.5 320 52.5 10% 100% 304.5 337 32.5 10% The X6000 consumes 10% to 20% less power per node compared with identically configured 1 U rack servers. 109 Content 1 2 3 Features 4 110 X6000: Various Nodes and Flexible Scalability • Provides node servers with different configurations based on service types and computing requirements. • Supports flexible shelf-to-cabinet deployment and smooth upgrades for node servers. XH311 V2 XH320 V2 XH310 V2 XH621 V2 X6000 111  Up to 20 X6000 servers in a cabinet  Independent configurations for node servers in an X6000  Compatibility with earlier node servers with smooth upgrades X6000: Stable Architecture and a Reliable System • Hot swap for all FRUs. • Redundant architecture • No single-node system failure • 12 V passive backplane • Carrier-class components and manufacturing • Industry-leading RAID solution Failure mode affecting analysis EMC Standards …Industrial standards… Reliability, maintainability, and availability Black box diagnosis protects OS health CCC, UL, CE, and FCC certified Customer tests confirm that the X6000 offers the highest stability and lowest failure rates. 112 X6000: Highest Energy Efficiency The half-width node uses 10% to 20% less energy than an identically configured 1 U rack server. • Fan module design shares architecture to realize centralized heat dissipation • Optimized heat dissipation achieved by isolating PSUs and node ventilation channels • Dynamic load-balancing lowers frequency • Efficient AC power supply gives a power conversion efficiency of 94% • Centralized 12 V DC power supply • Flexible power options X6000 performs best in the Spec test for energy efficiency 113 X6000: Convenient Management and Maintenance Management network Flat management architecture (same as rack servers) Node 4 Node 3 Node 2 Node 1 Management features    Virtual shelf Virtual shelf Virtual shelf Virtual shelf  Physical shelf  Flat management architecture 114 Intelligent black box monitoring locates faults System fault diagnosis Hot-swappable components facilitate rapid maintenance Proprietary ASIC management chips Zero Touch remote management Content 1 2 3 4 Features Application Scenarios and Success Stories 115 X6000: Application Scenarios Application Features Application Features High scalability Strong integer arithmetic capability High memory capacity High density High reliability Easy management Secure Application Features High scalability Strong integer arithmetic capability High memory capacity High storage capacity High reliability Best high-density application scenarios for full-width, dual-CPU node servers maximize costefficiency Cloud Computing Enterprise informatization Best dense application scenarios for full-width, dual-CPU node servers optimize performance Best high-density deployment scenarios for single-CPU node servers minimizes cost Web 2.0 HPC High scalability Strong integer arithmetic capability Strong floating-point arithmetic capability High memory capacity High density High reliability Secure Application Features Strong integer arithmetic capability Best high-density Strong floating-point deployment scenarios for arithmetic capability half-width, dual-CPU node High memory capacity servers optimize computing High storage capacity performance High density Secure Easy management Secure 116 Huawei Servers Help Tencent Build an Efficient IT System Customer Requirements    QQ mailbox Lower TCO: Over 200,000 servers in use in Tencent, which charges 1 billion RMB for electricity each year. Reducing operation costs and cabinet rents are in demand. Rapid deployment: To address waves of Internet service requirements, Tencent requires rapid delivery of the infrastructure. Stable operation: Servers are regarded as product lines in Tencent, so stable operation of servers is of utmost importance. Batch faults are not allowed for scale deployment of servers. Solution   The 2 U 4-node high-density X6000 servers increase space utilization, and reduce power consumption and operating costs. Various node servers are provided to fit in different classifications of servers. Carrier-class components are highly reliable. 2 CPUs/high memory capacity /2U45V Value • • • 1CPU/low costs/2U45V Lower TCO: Reduces space occupation by 50%, lowers power consumption by 15%, and decreases TCO by 30%. Improve deployment efficiency greatly: Deploying a chassis of 20 server nodes takes only 10 minutes compared with 5 hours in the past. Reduce faults: Solves the problem of batch faults; Huawei servers DB application/ are of the lowest faults according to the statistics by Tencent. high stability 117 Huawei and Tencent Strengthen Cooperation Storage server Customized cabinet server High-capacity RH2285 passes Tencent's TS server tests. 2008 2009 Searching Servers for Large-scale Sales Successful tests on SSD products and S6 package servers greatly increase the performance of S6 package servers, reducing TCO sharply. 118 Customized cabinet servers based on Tencent's requirements for its IDC cabinet servers. 2010 Customized X6000 Huawei provided a fully customized the X6000 for Tencent. 2011 Huawei Servers Help StarHub Build Efficient IaaS Customer Requirements    Flexible cloud service platform: With the development of the Singapore NGNBN project, the enterprises covered by StarHub increase from 800 to 20000, which requires a resilient cloud service platform to support sustainable service development. Rapid deployment: It is required that the vendors can rapidly deliver servers to deploy IT services in the shorted time. Competitiveness: The solution should be advantageous in TCO to enhance operating competitiveness. Solution   Huawei provides laaS oriented to all enterprise users for StarHub and builds services, networks, storage systems, and Web and storage services. The X6000 servers are used to build a distributed cloud computing platform to support million-level node cluster computing. Value • • • Virtualization computing: Provides virtualization computing resources to support a resilient cloud system. Rapid deployment: Deploying a cabinet of 20 servers takes only 10 minutes and deploying hundreds of servers takes only a few days. Lower TCO: Improves space utilization by 50%, reduces power consumption by 15%, and decreases TCO by 30%. 119 HUAWEI ENTERPRISE ICT SOLUTIONS A BETTER WAY Copyright©2012 Huawei Technologies Co., Ltd. All Rights Reserved. The information in this document may contain predictive statements including, without limitation, statements regarding the future financial and operating results, future product portfolio, new technology, etc. There are a number of factors that could cause actual results and developments to differ materially from those expressed or implied in the predictive statements. Therefore, such information is provided for reference purpose only and constitutes neither an offer nor an acceptance. Huawei may change the information at any time without notice. HUAWEI Tecal ES3000 HighPerformance PCIe SSD Card Main Slides Prominent I/O Bottleneck Under Growing Performance Gap Between CPUs and Disks I/O imbalance becomes noticeable as users and applications increase exponentially, and the imbalance development between processors and storage sharpens. Data read/write performance must be improved to ensure stable service operating and enhance user experience. Applications Video Search Storage I/O bottleneck CDN, Cache... High-performance database High I/O performance applications Experience Client System end Storage Storage IOPS About 20 times 1984 19871990 1993   I/O imbalance Expansion About 570 times Processor performance (MHz) 4,000 3,500 3,000 2,500 2,000 1,500 1,000 500 Server 20102012  15,000 r/min  2.8 times Hard disk 5,400 r/min rotational speed 3 TB Capacity 41 times  73 GB PCIe SSD Card Simplifies Storage Paths to Resolve the Storage I/O Bottleneck The PCIe SSD card directly communicates with the CPU over the PCIe bus to shorten storage access paths. It also combines flash high read and write performance to significantly improve storage performance and resolve the storage I/O bottleneck. Memory CH.0 CH.1 CPU Intel Xeon CH.2 CH.3 1. PCIe SSD storage system PCIe x8 PCIe x8 PCIe x8 2. Local hard disk storage 3. FC disk array storage RAID controller system system FC HBA card SAS hard disk FC disk array Excellent Read/Write IOPS and Bandwidth Performance The PCIe SSD storage system provides 600K@4 KB 100% random read IPOS performance and 3000 MB/s read/write bandwidth to meet customers' service requirements for high I/O and bandwidth. 100% random read IOPS @4 KB 700000 600000 500000 Maximum read/write bandwidth (MB/s) 3500 600000 Improves by 24 to 1000 times. 2000 300000 1500 200000 1000 600 26000 500 7000 800 370 150 0 0 SAS mechanical HDD SATA SSD Improves 4 to 20 times 2500 400000 100000 3000 3000 FC disk array PCIe SSD card SAS mechanical HDD Local Hard Disk Storage System SATA SSD FC disk array PCIe SSD card FC Disk Array Storage System PCIe SSD Storage System Maximum capacity of a hard disk 600 GB (SAS HDD) 400 GB (SSD) 7.2 TB (12 SAS HDDs) 2.4 TB 100% random read IOPS of a hard disk 0.6K (@4 KB) 26K (@4 KB) 7K (@4 KB) 600K (@4 KB) Maximum bandwidth of a hard disk 150 MB/s 370 MB/s 800 MB/s 3000 MB/s Average response latency 10–100 ms 0.1–1 ms 1–10 ms 10–100 µs IOPS performance per GB Low Average Low High Improving SQL Server 2012 Query Performance by at Least Four Times Performance query by second Improves 1.5 to 4 times Average query time (ms) 7520 8000 37 7000 6000 5000 4000 3000 2000 40 5477 Imroves 15 to 3000 times 30 20 1704 10 0.159 1000 0.01 0 0 SAS mechanical HDD SATA SSD ES3000 SAS mechanical HDD SATASSD ES3000 Fast Track for SQL Server 2012 Server Configurations SAS RH2288 V2: 2 x E5-2690, 16 x 8 mechanical GB, 12 x 600 GB SAS HDD HDD RH2288 V2: 2 x E5-2690, 16 x 8 SATA SSD GB, 12 x 400 GB SATA SSD ES3000 RH2288 V2: 2 x E5-2690, 16 x 8 GB, 2 x 2.4 TB ES3000 Maximum User Rated User Performance I/O Average Average Query Data Capacity Data Capacity Query by Performance Query Block Size (KB) (TB) (TB) Second Query (MB/s) Time (ms) 8 5.5 436 1704 743 37 7 5 438 5477 2399 0.159 10 8 427 7520 3211 0.01 Improving the Performance of the UFIDA U8 ERP Appliance by More Than 30% Average efficiency improved by 20% Efficiency improvement in concurrent application scenario 30.00% Efficiency improvement in the BI scenario 26.61% 23.17% 25.00% 20.31% 20.00% 19.57% 18.39% 40.00% 16.88% 16.53% 31.71% 30.64% 21.36% 15.62% 20.00% 15.00% 0.00% 10.00% 5.00% 0.00% Efficiency improvement at the end of each month 70.00% 60.00% 50.00% 40.00% 30.00% 20.00% 10.00% 0.00% 63.33% Overall efficiency improved by 37%. 60.19% 49.19% 45.83% 44.98% 43.39% 35.77% 35.24% 33.64% 30.45% 19.22% 16.36% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% Average efficiency improved by 30% Excellent Platform for Exchange Email Servers Excellent platform performance  Supports 500 to 3000 email users. The number of users can be smoothly adjusted. In the Jetstress test, Huawei appliance has much higher performance than similar competitors' Exchange appliance servers. IOPS Comparison with other vendors’ Model Flash granule Capacity MLC 785 GB Form factor 1.2 TB HH-HL Bus interface Read bandwidth 1.5 GB/s (1 MB) 1.5 GB/s (1 MB) 275,000 (512B) 245,000 (4 KB) Read latency Write bandwidth 800,000(5 12B) 230,000(4 KB) Write IOPS Mixed IOPS(W:R = 3:7) Power consumption Operating temperature Air flow (LFM) Huawei ES3000 MLC MLC MLC MLC MLC FH-HL FH-HL HH-HL HH-HL HH-HL Gen 2 x8 Gen 2 x4 Gen 2 x8 Gen 2 x8 3.0 GB/s (1 MB) 1.4 GB/s 2 GB/s 1.5 GB/s (1 MB) 143,000 (512B) 136,000 (4 KB) 540,000 (512 B) 480,000 (4 KB) 1.3 GB/s(1 MB) 2.5 GB/s(1 MB) 800,000(512 B) 250,000(4 KB) 535,000(512B ) 242,000(4 KB) 1100,000(512 B) 490,000(4 KB) - - 25 W 0℃ to 55℃ 300 Intel SSD 910 300 GB, 600 GB, 1.2 TB 550 GB, 1100 GB 1100 GB, 2200 GB 1.6 GB/s (64 KB) 400 GB 800 GB 800 GB HH-HL 2.7 GB/s(64 KB) 1.2 TB 2.4 TB FH-HL Gen 2 x8 Gen 2 x8 Gen 2 x8 1 GB/s 2 GB/s 2.2 GB/s 3.2 GB/s 3.2 GB/s 570,000 (4KB, stable value) 600,000 (4 KB, maximum value) 760,000 (4 KB, stable value) 770,000(4 KB, maximum value) 760,000 (4 KB, stable value) 770,000(4 KB, maximum value) 144K - 578,000 (512B) 175,000 (4KB) 1130,000 (512B) 350,000 (4KB) 90,000 (4KB) 180,000 (4KB) <50 us - 76 us(4 KB) 78us(4KB) 65 us 65 us 0.6 GB/s 2 GB/s 540 MB/s(64 KB) 1 GB/s(64 KB) 0.75 GB/s 1 GB/s 1.2 GB/s 1.8 GB/s 2.8 GB/s 75,000(4 KB) 120,000 (4 KB, stable value) 330,000(4 KB, maximum value) 180,000 (4 KB, stable value) 480,000 (4 KB, maximum value) 240,000 (4 KB, stable value) 630,000 (4 KB, maximum value) 49 us 163,000 250,000(4kB) 160,000(8kB) - - < 50 us - 16 us(512 B) 18 us(512 B) - 55,000(8 KB) - 105,000(4 KB) 217,000(4 KB) - - 260,000 (R/W: 180,000/80,000 ) 400,000 (R/W: 280,000/120, 000) 430,000 (R/W: 300,000/130, 000) 55 W - 16 W - - 8 W to 30 W 12 W to 38 W 20 W to 35 W 25 W to 50 W 25 W to 60 W 0℃ to 55℃ 0℃ to 70℃ 0℃ to 45℃ 0℃ to 55℃ 0℃ to 55℃ 100 200 200 300 15 us - Virident FlashMAX II 480 GB/980 GB 1.3 GB/s(1 MB) Write latency OCZ ZDrive CM84/RM84 2.4 TB 68 us 1.1 GB/s(1 MB) STEC s1120 3.0 TB Gen 2 x4 270,000 (512B) 215,000 (4 KB) Read IOPS ioDrive2 Duo Fusion-IO ioDrive2 38,000(4 KB) 65 us 8 us For more competitiveness analysis: http://3ms.huawei.com/mm/docMaintain/mmMaintain.do?method=showMMDetail&f_id=SV13042059580069 Thanks for watching! Qestions/Answers Harry Lin Sales ActForNet Technologies Inc