Click to add text © 2013 IBM Corporation Follow us Learn more at This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients IBM Power Systems AM71/AS600 Technical Sales Common Skills Unidade 6 – Power Enterprise Servers

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 2 Objetivos da unidade No final deste curso você será capaz de:  Identificar e posicionar os atuais servidores IBM Power Systems Enterprise  Diferenciar os servidores em termos de –Tipo e números do processador –Configuração padrão e máxima de memória –Número e tipo de I/O slots suportados –Armazenamento interno máximo

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 3 POWER POWER Power 775 Power 755 POWER / 760 POWER7+ 710/730 POWER7+ 720/740 Power 795 IBM PureFlex System PowerLinux 7R1 / 7R2 / 7R4 p460 p260+ p24L POWER7 Portfolio Enterprise servers

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 4 Power 760 Suporta até 960 LPARs Up to 48 Cores 4 Socket / 5U 9109-RMD POWER7+ Architecture Up to 4 Sockets 12-core 3.4 GHz 12-core 3.1 GHz DDR3 MemoryUp to 2 TB Capacity on DemandYes for Processors (Permanent only ) SAS SFF Bays Up to 6 HDD or SSD Split Backplane support IO Expansion Slots in CECPCIe x8: 6 Slots ( Hot Swap ) GX++ Slots 1 socket: sockets: 2 Integrated IO Controller SAS ( Dual ) plus SATA Standard RAID 0, 1, & 10 Optional RAID 5 & 6 Integrated Multifunction Card (IMFC) 4 Ethernet (Dual 10 Gb & Dual 1 Gb or Quad 10Gb); 2 USB, 1 serial Media Bays1 Slim-line for DVD 12X PCIe IO DrawersMax 4 (no PCI-X drawers) EXP30 Ultra SSD DrawerMax 2 HDD/SSD-only drawerMax 51 Redundant Power Redundant Cooling Yes 3 Yr Maintenance 24 x 7

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 5 Power 760 Capacity Upgrade on Demand  Mínimo de ativação de 8 cores requerido  Apenas ativações permanentes Sem temporário ou Trial CoD Sem Elastic (On/Off) CoD ou Utility CoD  Sem CoD de memória Planeje a frente para demandas de memória Adicionar memória requer que o sistema seja desligado  Dynamic Processor Sparing está disponível Power 760 0/12-core DCM feature Processor core activation feature 3.1 GHz#EPT5#EPTA 3.4 GHz#EPT6#EPTB % price activation % price DCM Cerca de 70% do preço de lista é de ativações assumindo que 100% dos núcleos estão ativados. CUoD fornece flexibilidade para termos recursos "stand by" disponíveis para serem ativados permanentemente

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 6 Memory Riser Card Details (#EM01)  DDR MHz DIMMs  Até 64 DIMM slots para 750 / 760  DIMMS: 4, 8, 16, or 32 GB (Dois DIMMs por feature)  DIMMs instaladas em pares.  DIMMs de mesmo tamanho em conjunto de 4 DIMM slots (quads in top & bottom).  DIMMs podem ser misturados em diferentes tamanhos no mesmo riser card( top / bottom ) Feature Code DIMM Size Feature GB #EM084 GB8 #EM4B8 GB16 #EM4C16 GB32 #EM4D32 GB64 POWER POWER Feature Code DIMM Size Feature GB #EM084 GB8 #EM4B8 GB16 #EM4C16 GB32 Buffer DIMMs

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 7 POWER / 760 Memory Bandwidth POWER7+ Mem Cntrl Buffer Max Read Bandwidth: GB/sec Max Write Bandwidth: GB/sec Max Combined Bandwidth: GB/sec Buffer Cada Buffer Chip (Read/Write Buffer) suporta quatro DIMMS POWER7+ Mem Cntrl Buffer

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 8 Power 750/760 Visão Frontal 6 SFF DASD/SSD Bays Standard split Backplane 3+3 Optional split Optional 6 (no split) w/ RAID5/6 DVD (tem sua própria controladora SATA ) Fan Op Panel Fan Batteries for Opt RAID5/6 Write Cache

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 9 Power 750/760 Visão traseira GX++ Bus 10 Gb ENet Power Supplies HMC Ports PCIePCIe PCIePCIe PCIePCIe PCIePCIe PCIePCIe PCIePCIe SPCN Ports Serial Port USB Ports 1Gbt ENet GX++ Bus VPD SAS Port

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 10 Blind Swap Cassette (BSC) suporta… Gen4 BSC  O mesmo que o BSC para Power 770 e 780 Diferente do Gen3 BSC nos #5802/ X I/O Drawers  Conexões mais fáceis e mais confiáveis Sem lever para downward de PCIe card e em conexões PCI  Slots PCIe vazios em um processor enclosure “populados" com um BSC vazio quando enviado da IBM Manufacturing  Adaptadores PCIe quando necessário podem colocados pelo cliente em um BSC vazio e inserido no processor enclosure.

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 11 POWER7 750POWER7+ 750POWER Sockets444 Cores32 48 Frequencies3.2 – 3.6 GHz3.5 – 4.0 GHz3.1 – 3.4 GHz Maximum Memory512 GB1 TB2 TB GX slots 1 GX++ & 1 shared GX 2 GX++ PCI slots 2 PCIx & 3 PCIe Gen1 6 PCIe Gen2 MultiFunction Ethernet ports * Four 1Gb or two 10Gb Two 10Gb CNA + Two 10/1 Gb SFF SAS bays6 / 866 Integrated split backplane NoYes LPARs10 per core20 per core Height 4U5U Installation Customer Set-Up IBM installed CoD N / A Processor on Demand Software Tier Small Medium HMC Optional Required POWER / 760 Systems

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 12 Power 750/760 Integrated Multifunction Card Visão traseira POWER7+ 750/760  Quatro portas Ethernet Dois SFP+ (Cobre ou Optical SR) Dois RJ45  Duas portas USB  Uma porta serial  Feature codes: #1768, #1769, #EN10, #EN11  Toda 750/760 precisa de um …. pode ser mudado para diferente feature depois Para substituição é necessário desligar o servidor (não hot plug) Não requer slot PCIe  Usa VIOS para virtualizar portas Ethernet (não há virtualização integrada sem o VIOS)  AIX/Linux pode usar portas diretamente ou usar VIOS  IBM i precisa usar o VIOS IBM i LAN consoles precisam ser “attached” nativamente, e não conectados por VIOS

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 13 Power 750/760 Integrated Multifunction Card Visão traseira POWER7+ 750/760  Quatro portas Ethernet Dois SFP+ (Cobre ou Optical SR) Dois RJ45  Duas portas USB  Uma porta serial  Feature codes: #1768, #1769, #EN10, #EN11  Não requer slot PCIe  Usa VIOS para virtualizar portas Ethernet (não há virtualização integrada sem o VIOS)  AIX/Linux pode usar portas diretamente ou usar VIOS  IBM i precisa usar o VIOS IBM i LAN consoles precisam ser “attached” nativamente, e não conectados por VIOS

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 14 Integrated Multifunction Cards FC #1768 (Copper) FC #1769 (Optical) Dual 10 Gb Optical / 1 Gb Ethernet Dual 10 Gb Copper / 1 Gb Ethernet Dual 10 Gb Optical / 1/10 Gb Ethernet Dual 10 Gb Copper / 1/10 Gb Ethernet FC #EN10 (Copper) FC #EN11 (Optical) SerialUSB 10Gb / 1Gb / 100Mb RJ45 Ethernet CAT-6A cabling SerialUSB 1 Gb / 100Mb RJ45 Ethernet * picture shows two SFP+ slots into which two 10Gb transceivers will be placed (not shown). IBM always ships Multifunction card with two transceivers. No additional feature code is required to order the transceivers. Do not try to change to a different transceiver. 10 Gb Ethernet * 10 Gb Ethernet *

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 15 Integrated Multifunction Card #EN10 / #EN11 Comparado aos #1768 / #1769 Multifunction Card  #EN10/EN11 tem capacidade de portas Ethernet expandidas Portas SFP+ com mais funções CNA (Converged Network Adapter = NIC + FCoE) Pode reduzir o número de adaptadores PCIe necessários Portas RJ45 de maior velocidade 10Gb Menor custo de cabeamento para conexão em switches 10Gb vs SR optical ou Copper twinax Mesmos recursos de porta USB e Serial  Suporta NPIV através de VIOS para FCoE  Suporta AIX, IBM i, Linux, VIOS Releases/versions/TL/TR levels são os mesmos para POWER / 760 levels Para portas Ethernet, AIX/Linux pode suportar nativamente ou usar VIOS; IBM i requer VIOS IBM i nota: For SFP+ ports, NIC supported, but FCoE not tested/supported

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 16 Integrated Multifunction Card Nota de performance #EN10 / #EN11  #EN10/EN11 tem quatro portas Ethernet com capacidade de 10Gb  A maioria dos aplicativos não chegam perto de usar toda a largura de banda de uma porta de 10Gb (Plus, portas adicionais são muitas vezes utilizadas para a redundância / failover )  No entanto - se uma ou mais aplicações de uso intensivo de I/O fortentar conduzir todas as quatro portas de 10Gb no máximo rendimento, ao mesmo tempo, o barramento PCI no cartão multifuncional seria um fator limitante  Max total throughput será cerca de Gb vs 40 Gb

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 17 Integrated Multifunction Card Port Assignment Note #EN10 / #EN11 / #1768 / #1769  Há, logicamente, três recursos distintos : 1.Uma porta serial 2.Conjunto de duas” portas USBs * 3.“Conjunto de quatro” portas Ethernet  Os três recursos acima podem ser independentemente atribuídos para uma ou dois ou três partições.  Os conjuntos não podem ser divididos  Considerações de virtualização Ethernet: O conjunto de quatro portas Ethernet são virtualizados para várias partições atribuindo o conjunto ao VIOS e usando VIOS para virtualizar Caso contrário, o conjunto de quatro portas pode ser dado a qualquer partição AIX ou Linux IBM i não suporta nativamente essas portas Ethernet (deve usar VIOS) * O controlador para as duas portas USB no Multifunction Card também é executa a porta USB no console do operador. Se o cartão multifunções é removido, a terceira porta USB não é utilizável.

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 18 POWER / 760 Diferença de I/O para lembrar  Sem PCI-X slots (diferente da POWER7 750 ou POWER7/POWER7+ 770)  Sem SCSI I/O  Não é possivel migrar antigos PCI-X drawers para 750/760  Necessário dois ou mais sockets preenchidos para qualquer recurso GX++ (diferente da POWER7 750) 1 DCM = 0 GX++ slot utilizável 2-4 DCMs = 2 GX++ slots utilizáveis.

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 19 POWER Capacity on Demand Maint Coverage: 9 x 5 Power 770: 4S / 4U 9117-MMD Processor Packaging 4 Core Sockets 3 Core 3.8 GHz Max Cores: 4.2 GHz Max Cores: 48 L3 CacheOn Chip Redundant Resources:  Power & Cooling  Serve Processor  Redundant Clock  Yes  Yes / Two enclosure minimum Hot Add & Service SupportYes Active Memory MirroringOptional Single Enclosure4 Enclosures Processors4 Sockets16 Sockets DDR3 Memory (Buffered)Up to 1 TBUp to 4 TB SAS / SSD SFF Bays624 Media Bays 1 Slim-line 4 Slim-line SAS / SATA Controller2 / 18 / 4 PCIe Gen2 (Internal)624 GX++ Bus Slots28 Multi-function Card w/ Dual 10 Gbt & Dual 1 Gbt 1 Node 1 = yes Node 2/3/4 = Opt USB (includes Multi-function Card) 312 Max IO DrawersPCIe: 4 PCI-X: 8PCIe: 16 PCI-X: 32

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 20 POWER Capacity on Demand Maint Coverage: 24 x 7 Power 780: 4S / 4U 9179-MHD Processor Packaging 8 Core Sockets 4 Core 3.7 GHz Max: GHz Max: 64 Cores L3 CacheOn Chip Redundant Resources:  Power & Cooling  Serve Processor  Redundant Clock  Yes  Yes / Two Enclosure minimum Hot Add & Service SupportYes Active Memory MirroringStandard Single Enclosure4 Enclosures Processors4 Sockets16 Sockets DDR3 Memory (Buffered)Up to 1 TBUp to 4 TB SAS / SSD SFF Bays624 Media Bays 1 Slim-line 4 Slim-line SAS / SATA Controller2 / 18 / 4 PCIe Gen2 (Internal)624 GX++ Bus Slots28 Multi-function Card w/ Dual 10 Gbt & Dual 1 Gbt 1 Node 1 = yes Node 2/3/4 = Opt USB (includes Multi-function Card) 312 Max IO DrawersPCIe: 4 PCI-X: 8PCIe: 16 PCI-X: 32

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 21 POWER MHD POWER MHB POWER MMA POWER MMD POWER MMA POWER MMB Upgrades suportados em POWER7+ POWER MHC POWER MMC 9406-MMA converted to 9117-MMA

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients /780 Model Upgrades (mesmo Serial Number) POWER “B” Model 780 “B” Model 770 “C” Model 780 “C” Model 770 “D” Model 780 “D” Model POWER7 POWER7+ POWER7 withdrawn

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 23 POWER7+ SCSI Disk “heads up”  Adapatadores de disco SCSI PCI-X NÃO SÃO SUPORTADOS em POWER7+ 770/780 #5782 PCI-X 1.5GB Cache SCSI Adapter  Gavetas de disco SCSI NÃO SÃO SUPORTADOS em POWER7+ 770/780 #5786 EXP24 Disk Drawer Antiga, lenta, pesada, com energia insuficiente  Note SCSI removable media supported (tape, optical, DVD, etc) through SCSI #5736 PCI-X adapter Atente clientes que tentam utilizar antigas tecnologias de disco em seu novo servidor…PODEM SER REJEITADAS

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 24 Diferenças de I/O entre Modelos C (POWER7) e D (POWER7+) Sem diferença na unidade de sistema de I/O … mesmas slots PCIe Gen2, multifunction card, e controladora SAS integrada. Mas atenção:  Os modelos D não suportam discos SCSI Eram suportados modelos C 770/780 consideração de seleção para clientes que planejam utilizar o antigo disco SCSI 3.5 polegadas no novo servidor (provavelmente clientes com IBM i ) Disco SCSI poderiam ser encontrados em #5786 EXP24 I/O drawer e executado pelo adaptador SCSI PCI-X com cache SCSI tape/optical são suportados  Native IBM i I/O é suportado utilizando IBM i 7.1, mas não IBM i 6.1 na POWER7+ Virtual I/O pode ser fornecido a uma partição de IBM i 6.1 através tanto do IBM i 7.1 ou VIOS Note que comunicações de adaptadores #2893/2894 ou adaptadores criptográficos não podem ser virtualizados  A quantidade máxima de drives de disco é maior nos modelos D que nos modelos C… vs 1344 A quantidade máxima de SSD também aumentou, mais não de forma drastica

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 25 Power 795 Entregando extraordinária escalabilidade, performance e disponibilidade  Massivo throughput, performance e escalabilidade com até 256 processadores POWER7, threads, até 16TB de memória e supporte para até partitions  Larga-escala de consolidação de gasto de energia, servidores sub-utilizados  Nivéis sem precedentes de utilização e compartilhamento de recurso com suporte a AIX, IBM i e/ou aplicações Linux  Resiliência de infraestrutura melhorada – Enterprise Power Systems e software são engenharias para entregar maiores níeis de RAS  Permite rápido serviço de entrega – Líder de industria em virtualização e Capacity on Demand para o auxílio de processador e memória proporcionando um cresimento contínuo e sem interrúpções  Upgrades de Power 595 permitindo a clientes implementar POWER7 performance, escalabilidade e eficiência em sua empresa

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 26 POWER FHB Architecture Up to 32 Sockets ( Max 256 Cores) 4 TurboCore / 8 Max Core & 6 Core L2 & L3 CacheOn Chip DDR3 MemoryUp to 16 TB DASD / Bays Remote I/O Drawer ( SAS / SSD ) Book InterconnectPoint to Point Active Memory MirroringStandard GX++ Bus 4 per System Book Max: 32 ( 8 Nodes ) Media Bays Media drawer Maximum PCI-X I/O Drawers 30 Maximum PCIe 12X I/O Drawers 32 LPARs Up to 1000 Redundant Power & Cooling Yes Hot Maintenance Yes Cooling Air Redundant Clock Yes

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 27 4 POWER7 Chips / Até 2TB de Memória 4 Portas GX / 2 Controladoras por Node 32 DIMM Slots por Node 2 TPMD / Node Power 795 Processor / Memory Book Node GX Bus DCA Bulk Power DIMMs P7 TPMD (2) Node Cntrl GX Bus Node Cntrl GX Bus

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 28 Memory Plug Rules  As regras a seguir são para ligar as mmórias na Power 795 Cada POWER7 SCM possuem duas controladoras de memória em cada controladora de memória controla 4 DIMMs Se um processador possui a memória plugada, todos oito (8) DIMMs devem ser plugados A memória sempre serão adicionadas em grupos de oito (8) Cada node precisa no mínimo de oito (8) DIMMs Todos os DIMMs impulsionado por um POWER7 SCM precisam ser do mesmo tamanho A memória é distribuída em grupos de oito (8) DIMMs, round-robin entre todos os nodes, começando com uma menor capacidade de DIMM e trabalhando para maior  Para melhor performance, é recomendado que os 32 DIMMs localizados por node estejam plugados Page 28

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 29 POWER 795 Logical Layout Midplane CEC SN DRAM 8 SN DIMMs SN DRAM SN DRAM 8 SN DIMMs SN DRAM SN DRAM 8 SN DIMMs SN DRAM SN DRAM 8 SN DIMMs SN DRAM P7 GX++ Bus P7 Ethernet Hub FSP GX++ Bus HMC TPMD

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 30 Power Extensa Escalabilidade e Flexibilidade MaxCore GHz TurboCore 4.25 GHz 4.0 GHz  256-core system  32-core books  8-core processors  Modo MaxCore ou TurboCore  192-core system  24-core books  6-core processors  Até 32 12X I/O drawers  Suporte para AIX, i, Linux  Advanced EnergyScale power management  Alta voltagem opcional 480V AC or 520V DC capable input  Power System Pools

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 31 Grande suporte LPAR na Power 795  Power 795 é optimizada para larga escala de consolidação POWER7 aumenta a densidade dos nodes e a capacidade de cores do sistema em 4X Power 795 fornece 2X mais capacidade de memória e 3X mais largura de banda de memória que POWER6  Power 795 necessita de um número mínimo de ligações de inter-nodes para suportar LPAR > 32-cores 4+ books com 3.7 ou 4.0 GHz 3+ books com 4.25 GHz TurboCore  Com os requisitos acima atendidos, Power 795 suporta até 128-way LPARs  LPARs >128-way (até 256-way) são suportadas em Power 795 com processadores de 4GHz Chave fornecida via feature #1256 Necessita de avaliação de pre-sales; requisição via RPQ POWER6POWER7 2 Book3 Book TurboCore POWER7

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 32 Power 795 Memory Capacity per processor book (assuming same size DIMMs used) DIMM size 1 Quad 2 Quad 3 Quad 4 Quad 5 Quad 6 Quad 7 Quad 8 Quad 8 GBn/a64n/a128n/a192n/a GBn/a128n/a256n/a384n/a GBn/a256n/a512n/a768n/a GBn/a512n/a1024n/a1536n/a2048 Feature Code Feature GB EM40 0/32 EM41 0/64 EM42 0/128 EM44 0/256 # Proc books DIMM slots Max TB  32 slots DDR3 DIMM por processor book (8 memory feat codes)  DIMMS: 8GB, 16GB, 32GB, e 64GB  Plugado em “octants” de DIMMs (1 feature code = 4 DIMMs idênticas), por isso ligar dois feature code de cada vez  É possível mixar pares de tamanhos diferentes de DIMM no mesmo processor book  Por processor book: mínimo 2 quad DIMMs (2 da mesma feature de memória)  Por sistema: mínimo de 50% de capacidade de memória ativa ou mínimo de 32GB de memória ativa ( sempre grande)

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 33 PCIe Gen2 para Power 795  2 adaptadores PCIe Gen2 GX++  16 Gb Fiber Channel #EN23  10 Gb FCoE/CNA #EN22  2-portas de alta capacidade de performance Accesso a total largura de banda de GX++ bus (até 20 GB/s) Latência ligeramente maior do que em adaptador #5803/5873 I/O Drawer, mas provavelmente não perceptível a maioria das aplicações de clientes  Inovativo, altamente compacto Combina adaptador GX, cabos GX, PCIe I/O drawer + adaptador PCIe em apenas um novo adaptador 2-portas GX Economiza dinheiro, espaço, energia/refrigeração, manutencção Nov GA 2012:

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 34 Review:  Até 8 Processor books por 795  4 GX++ slots por processor book  Até 32 GX++ slots por 795  GX++ slot possui a GX adapter  Anexo de 1 ou ½ I/O drawer por adapator GX  Até 20 GB/s theoretical bandwidth por GX++ slot I/O Drawer - 24-polegadas  20 slots PCIe Gen1 por gaveta  1 ou 2 adaptadores GX anexados por gaveta Power 795 & PCIe Gen2 Function

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 35 Power 795 & PCIe Gen2 Function  Plug adaptadores GX++ PCIe diretamente no slot GX++ no processor card  Sem cabos, exceto fibra óptica para downstream I/O switch  Max 3 adaptadores GX++ PCIe por processor book  Em qualquer um dos 4 GX slots  Usar um adaptador GX++ PCIe significa que um I/O drawer não pode ser colocado no GX slot. Deve ser um ou outro.  Nenhuma mudança para o mínimo de um #5803 I/O drawer por 795

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 36 GX++ 2-port 10Gb FCoE (CNA) SR Adapter (#EN22)  2 portas - cada uma 10 Gb  Cada porta executa Ethernet NIC (Network Interface Card) e/ou tráfego Fibre Channel  N_Port ID Virtualization (NPIV) através do VIOS  A ligação ao switch é suportada, sem ligação direta ao dispositivo  Nível mínimo de S.O requerido AIX 7.1 com TL AIX 6.1 com TL IBM i ou superior com VIOS Linux RHEL 6.4 VIOS Firmware 7.6 necessária CCIN = 2B74  FCoE (Fibre Channel over Ethernet  CNA (Converged Network Adapter)

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 37 GX++ 2-port 16Gb Fibre Channel Adapter (#EN23)  2 portas - cada 16 Gb Fibre Channel  Velocidade de ligação 4, 8 e 16 Gbps (auto negociation suportada)  N_Port ID Virtualization (NPIV) através de VIOS  A ligação ao switch é suportada, sem ligação direta ao dispositivo  Nível mínimo de S.O requerido AIX 7.1 com TL AIX 6.1 com TL IBM i ou superior com VIOS Linux RHEL 6.4 VIOS Firmware 7.6 necessário CCIN = 2B9B 1 st 16 Gb Fibre Channel for Power Systems

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 38 GX++ PCIe Gen2 Adapter Economics 101 PCIe adapter + PCIe I/O drawer + 12X & UPIC cables + GX adapter #EN22 FCoE = $12,000 Add ’ l maint = zero #EN23 FC = $ 13,000 Add ’ l maint = zero Menos que 1/3 do custo Assumindo disponíveis slots GX e um modesto número de portas de I/O pnecessárias Plus energy, cooling savings Based on USA suggested list prices and are subject to change. Reseller prices may vary. Prices outside USA may vary.  PCIe adapter #5708 FCoE (10Gb 2 port) = $ 5,499 #5735 FC (8GB 2 port) = $ 4,631  PCIe I/O drawer (20 PCIe slots) #5877 = $ 28,500 Mais $214 mensais após garantia  Três – quatro cabos 12X + cabos UPIC ~ $ 3,500  Um #1816 adaptador GX Mínimo de $ 4,000 (normalmente usam dois)  Total FCoE = $ 41,500 + maint FC = $ 40,600 + maint  Custo muito alto, entretandto a gaveta possui mais slots PCIe que podem ser usadas. Assim para um número maior de portas, o custo por porta do adaptador seria melhor

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 39 Quando usar adaptadores GX++ PCIe - Power 795  Use adaptadores GX++ PCIe quando: Precisar de determinada velocidade FC ou FCoE e tiver slots GX disponíveis Necessita 16 GB Fibre Channel  Use #5803/5873 I/O drawer quando: Precisar de mais slots PCIe Mínimo de um #5803 necessários para 795 Necessário adaptadores diferentes de FC or FCoE Níveis de SO/firmware não correspondem ao seu estabelecimento.

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 40 POWER7 Hot Add / Hot Service ComponentHot AddHot Service NodesYes GX AdaptersYes Node ControllersN/AYes System ControllersN/AYes FansYes Power SuppliesYes Ethernet HubsN/AYes IO DrawersYes IO Adapters / DASDYes Media DrawersN/AYes IO Expansion RackYesN/A

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 41 Transição High End Clock Novos Componentes  Light Panel  Nodes  Node Controllers  System Controllers Preserve Power Preserve I/O ( 12X ) POWER6POWER7

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 42 Power 795 Upgrade Components Bulk Power Supply Processor Books (up to 8) CPUs Memory Node Controllers (2) DCA (2) Locking bracket Midplane 12X I/O Drawers Media Drawer Light Panel Bulk Power Controllers (2) System Controllers (2) System Clocks (2) I/O Hub cards Up to 4 per node Network Switch Replaced Retained Frame Cables

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 43 Unit Summary Agora você é capaz de:  Identificar e posicionar os atuais servidores IBM Power Systems Enterprise  Diferenciar os servidores em termos de –Tipo e números do processador –Configuração padrão e máxima de memória –Número e tipo de I/O slots suportados –Armazenamento interno máximo

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 44 This document was developed for IBM offerings in the United States as of the date of publication. IBM may not make these offerings available in other countries, and the information is subject to change without notice. Consult your local IBM business contact for information on the IBM offerings available in your area. Information in this document concerning non-IBM products was obtained from the suppliers of these products or other public sources. Questions on the capabilities of non-IBM products should be addressed to the suppliers of those products. IBM may have patents or pending patent applications covering subject matter in this document. The furnishing of this document does not give you any license to these patents. Send license inquires, in writing, to IBM Director of Licensing, IBM Corporation, New Castle Drive, Armonk, NY USA. All statements regarding IBM future direction and intent are subject to change or withdrawal without notice, and represent goals and objectives only. The information contained in this document has not been submitted to any formal IBM test and is provided "AS IS" with no warranties or guarantees either expressed or implied. All examples cited or described in this document are presented as illustrations of the manner in which some IBM products can be used and the results that may be achieved. Actual environmental costs and performance characteristics will vary depending on individual client configurations and conditions. IBM Global Financing offerings are provided through IBM Credit Corporation in the United States and other IBM subsidiaries and divisions worldwide to qualified commercial and government clients. Rates are based on a client's credit rating, financing terms, offering type, equipment type and options, and may vary by country. Other restrictions may apply. Rates and offerings are subject to change, extension or withdrawal without notice. IBM is not responsible for printing errors in this document that result in pricing or information inaccuracies. All prices shown are IBM's United States suggested list prices and are subject to change without notice; reseller prices may vary. IBM hardware products are manufactured from new parts, or new and serviceable used parts. Regardless, our warranty terms apply. Any performance data contained in this document was determined in a controlled environment. Actual results may vary significantly and are dependent on many factors including system hardware configuration and software design and configuration. Some measurements quoted in this document may have been made on development-level systems. There is no guarantee these measurements will be the same on generally-available systems. Some measurements quoted in this document may have been estimated through extrapolation. Users of this document should verify the applicable data for their specific environment. Special Notices

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 45 IBM, the IBM logo, ibm.com, AIX, AIX (logo), AIX 5L, AIX 6 (logo), AS/400, Active Memory, BladeCenter, Blue Gene, Chiphopper, DB2, DB2 Universal Database, DS4000, DS6000, DS8000, EnergyScale, Enterprise Workload Manager, ESCON, GPFS, HACMP, HACMP/6000, i5/OS, i5/OS (logo), IBM Business Partner (logo), IBM Systems Director Active Energy Manager, IntelliStation, iSeries, LoadLeveler, Lotus, Lotus Notes, Micro- Partitioning, Notes, Operating System/400, OS/400, PartnerLink, PartnerWorld, POWER, Power Architecture, Power Everywhere, Power Family, POWER Hypervisor, Power Systems, Power Systems (logo), Power Systems Software, Power Systems Software (logo), POWER2, POWER3, POWER4, POWER4+, POWER5, POWER5+, POWER6, POWER7, PowerExecutive, PowerHA, PowerPC, PowerVM, PowerVM (logo), pSeries, pureScale, Rational, RISC System/6000, RS/6000, System i, System p, System p5, System Storage, System z, THINK, Tivoli, Tivoli (logo), Tivoli Enterprise Console, WebSphere, Workload Partitions Manager, X-Architecture, xSeries, z/OS and zSeries are trademarks or registered trademarks of International Business Machines Corporation in the United States, other countries, or both. If these and other IBM trademarked terms are marked on their first occurrence in this information with a trademark symbol (® or ™), these symbols indicate U.S. registered or common law trademarks owned by IBM at the time this information was published. Such trademarks may also be registered or common law trademarks in other countries. A current list of IBM trademarks is available on the Web at "Copyright and trademark information" at Adobe, the Adobe logo, PostScript, and the PostScript logo are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States, and/or other countries. AltiVec is a trademark of Freescale Semiconductor, Inc. AMD Opteron is a trademark of Advanced Micro Devices, Inc. InfiniBand, InfiniBand Trade Association and the InfiniBand design marks are trademarks and/or service marks of the InfiniBand Trade Association. Intel, Intel logo, Intel Inside, Intel Inside logo, Intel Centrino, Intel Centrino logo, Celeron, Intel Xeon, Intel SpeedStep, Itanium, and Pentium are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries. IT Infrastructure Library is a registered trademark of the Central Computer and Telecommunications Agency which is now part of the Office of Government Commerce. Java and all Java-based trademarks and logos are trademarks or registered trademarks of Oracle and/or its affiliates. Linear Tape-Open, LTO, the LTO Logo, Ultrium, and the Ultrium logo are trademarks of HP, IBM Corp. and Quantum in the U.S. and other countries. Linux is a registered trademark of Linus Torvalds in the United States, other countries or both. Microsoft, Windows and the Windows logo are registered trademarks of Microsoft Corporation in the United States, other countries or both. NetBench is a registered trademark of Ziff Davis Media in the United States, other countries or both. SPECint, SPECfp, SPECjbb, SPECweb, SPECjAppServer, SPEC OMP, SPECviewperf, SPECapc, SPEChpc, SPECjvm, SPECmail, SPECimap and SPECsfs are trademarks of the Standard Performance Evaluation Corp (SPEC). The Power Architecture and Power.org wordmarks and the Power and Power.org logos and related marks are trademarks and service marks licensed by Power.org. TPC-C and TPC-H are trademarks of the Transaction Performance Processing Council (TPPC). UNIX is a registered trademark of The Open Group in the United States, other countries or both. Other company, product and service names may be trademarks or service marks of others. Special Notices (cont.)

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 46 Notes on Performance Estimates rPerf for AIX rPerf (Relative Performance) is an estimate of commercial processing performance relative to other IBM UNIX systems. It is derived from an IBM analytical model which uses characteristics from IBM internal workloads, TPC and SPEC benchmarks. The rPerf model is not intended to represent any specific public benchmark results and should not be reasonably used in that way. The model simulates some of the system operations such as CPU, cache and memory. However, the model does not simulate disk or network I/O operations. rPerf estimates are calculated based on systems with the latest levels of AIX and other pertinent software at the time of system announcement. Actual performance will vary based on application and configuration specifics. The IBM eServer pSeries 640 is the baseline reference system and has a value of 1.0. Although rPerf may be used to approximate relative IBM UNIX commercial processing performance, actual system performance may vary and is dependent upon many factors including system hardware configuration and software design and configuration. Note that the rPerf methodology used for the POWER6 systems is identical to that used for the POWER5 systems. Variations in incremental system performance may be observed in commercial workloads due to changes in the underlying system architecture. All performance estimates are provided "AS IS" and no warranties or guarantees are expressed or implied by IBM. Buyers should consult other sources of information, including system benchmarks, and application sizing guides to evaluate the performance of a system they are considering buying. For additional information about rPerf, contact your local IBM office or IBM authorized reseller. ======================================================================== CPW for IBM i Commercial Processing Workload (CPW) is a relative measure of performance of processors running the IBM i operating system. Performance in customer environments may vary. The value is based on maximum configurations. More performance information is available in the Performance Capabilities Reference at:

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 47 The IBM benchmarks results shown herein were derived using particular, well configured, development-level and generally-available computer systems. Buyers should consult other sources of information to evaluate the performance of systems they are considering buying and should consider conducting application oriented testing. For additional information about the benchmarks, values and systems tested, contact your local IBM office or IBM authorized reseller or access the Web site of the benchmark consortium or benchmark vendor. IBM benchmark results can be found in the IBM Power Systems Performance Report at All performance measurements were made with systems running the AIX operating system unless otherwise indicated to have used Linux. For new and upgraded systems, AIX Version 4.3, AIX 5 or AIX 6 were used. All other systems used previous versions of AIX. The SPEC CPU2006 and SPEC CPU2000 benchmarks were compiled using IBM's high performance C, C++, and FORTRAN compilers for AIX and Linux. For new and upgraded systems, the latest versions of these compilers were used: XL C for AIX v11.1, XL C/C++ for AIX v11.1, XL FORTRAN for AIX v13.1, XL C/C++ for Linux v11.1, and XL FORTRAN for Linux v13.1. For a definition/explanation of each benchmark and the full list of detailed results, visit the Web site of the benchmark consortium or benchmark vendor. TPChttp:// SPEChttp:// LINPACKhttp:// PTC Creo (formerly Pro/E) GPC VolanoMark STREAMhttp:// SAP Oracle Applicationshttp:// ANSYS FLUENThttp:// TOP500 Supercomputershttp:// Ideas Internationalhttp:// Storage Performance Councilhttp:// Notes on Benchmarks and Values

© 2013 IBM Corporation IBM Power Systems This document is for IBM and IBM Business Partner use only. It is not intended for client distribution or use with clients 48 Notes on HPC Benchmarks and Values The IBM benchmarks results shown herein were derived using particular, well configured, development-level and generally-available computer systems. Buyers should consult other sources of information to evaluate the performance of systems they are considering buying and should consider conducting application oriented testing. For additional information about the benchmarks, values and systems tested, contact your local IBM office or IBM authorized reseller or access the Web site of the benchmark consortium or benchmark vendor. IBM benchmark results can be found in the IBM Power Systems Performance Report at All performance measurements were made with systems running AIX or AIX 5L operating systems unless otherwise indicated to have used Linux. For new and upgraded systems, the latest versions of AIX were used. All other systems used previous versions of AIX. The LINPACK, and Technical Computing benchmarks were compiled using IBM's high performance C, C++, and FORTRAN compilers for AIX and Linux. For new and upgraded systems, the latest versions of these compilers were used: XL C for AIX V11.1, XL C/C++ for AIX V11.1, XL FORTRAN for AIX V13.1, XL C/C++ for Linux V11.1, and XL FORTRAN for Linux V13.1. Linpack HPC (Highly Parallel Computing) used the current versions of the IBM Engineering and Scientific Subroutine Library (ESSL). For Power7 systems, IBM Engineering and Scientific Subroutine Library (ESSL) for AIX Version 5.1 and IBM Engineering and Scientific Subroutine Library (ESSL) for Linux Version 5.1 were used. For a definition/explanation of each benchmark and the full list of detailed results, visit the Web site of the benchmark consortium or benchmark vendor. SPEChttp:// LINPACKhttp:// PTC Creo (formerly Pro/E) GPC STREAMhttp:// TOP500 Supercomputershttp:// AMBERhttp://ambermd.org/ GAMESShttp:// GAUSSIANhttp:// ANSYS FLUENThttp:// ABAQUShttp:// ECLIPSEhttp:// MM5http:// MSC.NASTRANhttp:// STAR-CDhttp:// NAMDhttp:// HMMERhttp://hmmer.janelia.org/