More Related Content Similar to [Chaco] Optimización del área de TI con Servidores POWER y System x – Gabriel Simona Similar to [Chaco] Optimización del área de TI con Servidores POWER y System x – Gabriel Simona (20) [Chaco] Optimización del área de TI con Servidores POWER y System x – Gabriel Simona2. La nueva forma de pensar a IT
Viejos Paradigmas de IT Nueva Concepción
Enfoque en el Servidor Físico Enfoque en la Carga de Trabajo
Recursos de Servidor, Storage y Pooles de Recursos Compartidos
Red Independientes
Escalamiento de Recursos
Escalamiento a Nivel de Cajas Independientes
Integración del Hardware, Manejo Automático de la Cargas de
Aplicaciones, Gestión Librados al Trabajo
Usuario
2 © 2012 IBM Corporation
3. Familia de Sistemas de IBM
IBM System x
IBM System x iDataPlex IBM BladeCenter
IBM System z IBM System Networking
3
IBM Power Systems IBM System Storage © 2012 IBM Corporation
4. Familia de Sistemas de IBM
Facilidad de Tecnologías
uso estándares de la
industria
IBM System x
IBM Power Systems IBM System z IBM System Storage
IBM
System x
iDataPlex
IBM BladeCenter
Eficiencia Confiabilidad
Virtualización
Escalabilidad
Disponibilidad
Diseñado para introducir capacidad enterprise probada de IBM
4 a la línea de productos estándares de la industria © 2012 IBM Corporation
6. Por qué IBM BladeCenter
Cable suelto
Varios mouses y
una caja de algo
Teléfono
ergonómico
Post-it's y clips
Tapita de server
caída en el piso
Monitor y teclado
spare
Agujerito en la
pared
Vaso térmico con
café
Base con ruedas
6 Papelito con password de admin o root © 2012 IBM Corporation
7. Por qué IBM BladeCenter
Diferentes necesidades
Diferentes aplicaciones
Diferentes procesadores
Diferentes herramientas
Network Application Security Application Web Security File WebSphere
Servers Servers Servers Servers Servers Gateway Servers Application
Servers
Muchas necesidades
Muchas aplicaciones
Muchos procesadores
Mismas herramientas
Mismos recursos
7 © 2012 IBM Corporation
8. Por qué IBM BladeCenter
Public
Internet/
Intranet
Clients
Firewalls Routers
(L3 Switches)
Layer 4-7
Switches
Layer 2
Switches
Network Application Security Application Web Security File WebSphere
Servers Servers Servers Servers Servers Gateway Servers Application
Servers
Storage
Fibre
Switches
SAN
8 © 2012 IBM Corporation
9. Por qué IBM BladeCenter
Unificación de multiples herramientas
de administracion de servidores
Public
Internet/
Eliminación de cables SAN Intranet
Clients
Firewalls Routers
Eliminación de cables LAN
Integración en chasis de múltiples
switches externos
Switches KVM eliminados
Reducción de Costos de PDU
SA
Reducción de cables de Poder N
Minimización de Poder, disipación de
calor y uso de espacio físico.
9 © 2012 IBM Corporation
10. Por qué IBM BladeCenter
1. La más amplia variedad de
chasis, blades, storage y
networking compatibles
2. Disponibilidad sólida con
múltiples niveles de redundancia
3. Confiabilidad end-to-end y
alineación con las mejores
prácticas
4. Excelente eficiencia energética
con tecnologías pioneras en
potencia y refrigeración
5. Performance de E/S superior y
switches basados en tecnología
abierta
10 © 2012 IBM Corporation
11. Por qué IBM BladeCenter
Un ecosistema abierto de partners posibilitan la integración perfecta
en el centro de datos que tiene hoy…y el que tendrá mañana
La estrategia de E/S no-proprietaria hace de IBM la única opción
para elegir conectividad líbremente
El primero con innovaciones en todas las tecnologías de red:
Fiber Channel, Ethernet, FCoE, SAS, Infiniband
Virtual Fabric en IBM BladeCenter Crea y mantiene
cualquier velocidad entre
1Gb y 10Gb!
4 Funciones virtuales por puerto de 10Gb Ethernet, HW iSCSI,
o FCoE todo-en-uno
11 © 2012 IBM Corporation
12. Familia de Chasis IBM BladeCenter
IBM BladeCenter E
Máxima eficiencia IBM BladeCenter T
energética, Resistente
máxima densidad
Diseño en 8U
IBM BladeCenter S Diseño en 7U Hasta 8 blades IBM BladeCenter HT
Pequeñas oficinas, Hasta 14 blades IBM BladeCenter H Modelos AC o DC Resistente,
distribución, fácil de Midplane hasta 8Gb Alta performance Cumplimiento NEBS alta performance
configurar Máxima densidad 2004, 2006
Diseño en 9U Diseño en 12U
Diseño en 7U 2002, 2006, 2009 Hasta 14 blades Hasta 12 blades
Hasta 6 blades Midplane hasta 10Gb Modelos AC o DC
110 o 208V Flexibilidad de E/S hasta Cumplimiento NEBS
Storage interno 8 puertos Midplane hasta 10GB
2007 2006, 2010 2007
Comparten el mismo set de blades
Comparten el mismo set de switches y fabrics de E/S estándares
Comparten la misma infraestructura de administración
12 © 2012 IBM Corporation
13. Chasis IBM BladeCenter H
Two bays behind bezel for hot-swap
redundant power supplies with PFA
and three replaceable fans on each
29”
Front of Light Path
Diagnostics Panel
9U
Hot-swap media tray
with optical bay, two
USB ports, and Light
Path Diagnostics
panel
14 bays for
support up to 14
blades
Handles
Slot for service Two bays behind bezel
reference card for hot-swap redundant
power supplies with PFA
and three replaceable
Weight: 90 pounds fans on each
13 Up to 350 pounds (populated) © 2012 IBM Corporation
14. Chasis IBM BladeCenter H
Ventilation
space
Blade
server Upper
midplane
Redundant
switch modules
Lower
midplane
Redundant power and I/O
connectors on front and
rear of each midplane
Blade
server
14 © 2012 IBM Corporation
15. Chasis IBM BladeCenter H
Upper midplane Space occupied by blade server Ventilation spaces
I/O
connector
Power
connector
High-speed
I/O
connector
High-speed
I/O
connector
I/O
connector
Power
connector
Lower midplane
15 © 2012 IBM Corporation
16. Chasis IBM BladeCenter H
Redundant power input High-speed switch module bays Redundant power input
Switch module Hot-swap
bay 1 Advanced
(dedicated Management
ethernet) Module (AMM)
Dedicated bridge Switch module
module slot bay 3 (or bridge
slot)
Switch module
bay 2 Optional hot-swap
(dedicated redundant
ethernet) Advanced
Management
Dedicated Module (AMM)
bridge module
slot Switch module
bay 4 (or bridge
Light Path slot)
Diagnostics
panel
Aggregated
serial connector
Hot-swap redundant blowers with PFA High-speed switch module bays
16 © 2012 IBM Corporation
(directly AC powered)
17. Chasis IBM BladeCenter H
Power Domain A Power Domain B
Left Redundant Pair Power Module 1 Power Module 3 Right Redundant Pair
Standard in BladeCenter H chassis Optional for BladeCenter H chassis
Operate as N+N redundant pair Operates as N+N redundant pair
Load balancing power modules Load balancing power module
Power Module 1 powers blades 1-7, I/O Power Module 3 powers blades 8-14,
modules 1, 2, 3, 4, 7, 8, and AMMs I/O modules 1, 2, 5, 6, 7, 8, and AMMs
Power Module 2 powers blades 1-7, I/O Power Module 4 powers blades 8-14,
modules 1, 2, 3, 4, 9, 10, and AMMs I/O modules 1, 2, 5, 6, 9, 10, and
AMMs
Power Module 2 Power Module 4
IBM BladeCenter H Blower Module IBM BladeCenter H Power Module
Power I/O Module 7 Power
Source I/O Module 8 Source
1 2
I/O Module 1
I/O Module 5
I/O Module 3
AMM 1
Blower Module 1
Directly powered by AC (Blower 1 via Front loading for easier service
I/O Module 2
I/O Module 6
I/O Module 4
Power Source 1, Blower 2 via Power No cable removal for replacement
AMM 2
Source 2) Blower Module 2 Each power module includes a three pack
N+N redundant of fans
When a blower is removed, chassis is Two of three fans needed for operation
designed to prevent air flow issues I/O Module 9
Blower speed is controlled by AMM I/O Module 10
17 © 2012 IBM Corporation
18. Chasis IBM BladeCenter S
¿Cuál solución eligiría para su empresa?
IBM BladeCenter S combina servidores, storages, switches, fuentes de
poder, refrigeración y cables en una solución autocontenida fácilmente
manejable para oficinas pequeñas
18 © 2012 IBM Corporation
19. Chasis IBM BladeCenter S
Hot-swap media tray with optical, two
USB ports, Light Path Diagnostics
panel, and two battery backup bays
Front of Light Path Diagnostics Panel
7U
29”
Weight: 90 pounds
Up to 240 pounds (populated)
Slot for service Two storage 6 blade server
19 reference card module bays bays
© 2012 IBM Corporation
20. Chasis IBM BladeCenter S
Upper midplane Space occupied by blade server Ventilation spaces
I/O
connector
Power
connector
I/O
connector
I/O
connector
I/O
connector
Power
connector
20 Lower midplane © 2012 IBM Corporation
21. Chasis IBM BladeCenter S
Module Bay 3 for Ethernet, FC, or SAS for DSM Hot-swap Advanced
Module Bay 1 for Ethernet Module
(via CFFv or CIOv adapter on blade) Management Module (AMM)
(via integrated ethernet on blade)
Two standard
hot-swap
redundant watt
power supplies
(950W at 110V,
or 1450W at
220V) with PFA
7U
LED panel
Module Bay for
optional Serial
Pass-Through
Module
Two optional hot-swap redundant Four hot-swap Module Bay 2 Module Bay 4
watt power supplies (950W at 110V, redundant cooling for ethernet use for Ethernet, FC, or SAS for DSM
21 or 1450W at 220V) with PFA fans with PFA (via CFFh adapter on blade) (via CFFv or CIOv adapter on blade) © 2012 IBM Corporation
22. Chasis IBM BladeCenter S
IBM BladeCenter S con el Office Acoustical Module
Enablement Kit opcional brinda eficiencia
y el silencio de una conversación a la
pequeña oficina
11U
Lockable wheels
Lockable door Optional console kit
22 © 2012 IBM Corporation
23. Administración de IBM BladeCenter
Status LEDs
Hot-swap
Advanced Serial port (RJ45)
Management
Module
Video DB-15
Ethernet RJ45
Optional USB dual stack
hot-swap
redundant for mouse and
Advanced keyboard
Management
Module
Advance Management Module
23 © 2012 IBM Corporation
24. Networking en IBM BladeCenter
2 x Gb Ethernet
Integrated 2 x 2 x 4Gb Fibre
Gb Ethernet 2 x 8Gb Fibre
2 x SAS
Ethernet Compact I/O “Vertical” (CIOv) Adapter
Ethernet
CIOv
Redundant
Midplane
IBM BladeCenter E
IBM BladeCenter HS22
Ethernet
Redundant
CIOv
Midplane
24 © 2012 IBM Corporation
25. Networking en IBM BladeCenter
2 x Gb Ethernet
2 x 4Gb Fibre
Integrated 2 x 2 x 8Gb Fibre
Gb Ethernet 2 x SAS
Ethernet
Compact I/O “Vertical” (CIOv) Adapter CFFh
Ethernet
CIOv
Redundant
Midplane
IBM BladeCenter HS22 IBM BladeCenter H
Ethernet
Redundant
CIOv
Midplane
CFFh
Compact Form Factor “Horizontal” (CFFh) Adapter
2 x Gb Ethernet and 2 x 8Gb Fibre
2 x 10Gb Ethernet
4 x 10Gb Ethernet
2 x 10Gb Converged
2 x Virtual Fabric
2 x InfiniBand
25 © 2012 IBM Corporation
26. Networking en IBM BladeCenter
Ethernet Fibre Channel Miscellaneous
Layer 2/3 Gb Copper Ethernet Switch 10 Port 8Gb SAN Switch SAS Connectivity Module
Layer 2/3 Gb Fibre Ethernet Switch 20 Port 8Gb SAN Switch BladeCenter S SAS RAID Module
Layer 2-7 Gb Etherent Swtich Enterprise 20 Port 8Gb SAN Switch BladeCenter S Serial Pass-Thru Module
1/10Gb Uplink Ethernet Switch
Cisco Catalyst Switch 3012 Intelligent 8Gb Pass-Thru Module
Cisco Catalyst Switch 3110G 20 Port 8Gb SAN Switch Module
Cisco Catalyst Switch 3110X
Virtual Fabric Extension Module (FCoE)
10 Port 4Gb Fibre Channel Switch
20 Port 4Gb Fibre Channel Switch
Server Connectivity Module
Intelligent Copper Pass-Thru Module
26 © 2012 IBM Corporation
27. Networking en IBM BladeCenter
Ethernet Interconnect
Virtual Fabric 10Gb Switch Module (FCoE) Converged 10GbE Switch Module (FCoE) Multi-Switch Interconnect Module (MSIM)
MSIM permite instalar la mayoría de los
módulos de switch estándares en bahías
de alta velocidad
Nexus 4001I Switch Module (FCoE) 10Gb Ethernet Pass-Thru Module (FCoE)
InfiniBand
MSIM Bay 1 MSIM Bay 2
40Gb InfiniBand Switch Module
27 © 2012 IBM Corporation
28. Virtual Fabric en IBM BladeCenter
1Gb Port
Solución de 1Gb
tradicional
10Gb Port Solución de 10Gb
o CEE/FCoE
Virtual Fabric en IBM BladeCenter
Selección entre
1Gb and 10Gb!!
4 puertos virtuales por puerto físico de 10Gb
28 © 2012 IBM Corporation
29. Virtual Fabric en IBM BladeCenter
10Gb vGroup 1
Virtual Fabric 10Gb
Port
Adapter Port
vGroup 2
10Gb vGroup 3
Virtual Fabric 10G Switch
Port
10Gb
Port
vGroup 4
Slice and dice the Up to four Virtual NIC ports Map vNICs to up to four Ability allocate 100G of
10Gb bandwidth any per 10Gb port Virtual Groups per uplink bandwidth
way you want Bandwidth assigned in chassis for ease of Assign virtual groups
Multiple virtual ports 100Mb increments management bandwidths in increments
and protocols from a Each is presented as an Manage four vGroups of 10G
single physical port individual NIC to the per chassis instead of VMready can migrate
Planned future FCoE operating system 112 vNICs networking characteristics
upgrade Ability to provide isolation Ability to provide with VM Migration
between the vNICs isolation between Management via
Planned future virtual vGroups command line interface,
converged network adapter graphical interface, or
(vCNA) with no separate Open Fabric Manager
HBA needed FCoE ready
29 © 2012 IBM Corporation
30. Servidores IBM BladeCenter
Chasis blade líder de la industria diseñado sin
puntos únicos de falla, amplia conectividad de
red, y ergonomía superior.
BladeCenter
Power Blades x86 Blades
Power and x86
Consolidación de servidores Power Extiende el amplio ecosistema x86
Extiende el potencial de UNIX/Power Aplicaciones Windows/Linux
Ejecución de aplicaciones basadas en AIX Consolidación de servidores x86
Introduce la seguridad habitual de UNIX Explota la capacidad de Windows
Consolidación de servidores Power y x86
Adapta su IT a su negocio, no al revés
Proporciona la mejor combinación de aplicaciones
Power con la robustez de UNIX para bases de datos y cargas comerciales
x86 con Windows/Linux para web
30 © 2012 IBM Corporation
31. Servidores IBM BladeCenter
HS12 HS22 HS22V HX5 HX5 + MAX5 HX5
Single Socket Two Socket Two Socket Two Socket Two Socket Four Socket
Xeon 3000 Series Xeon 5600 Series Xeon 5600 Series Xeon 7500 & 6500 Series Xeon 7500 & 6500 Series Xeon 7500 Series
PS700 PS701 PS703 PS702 PS704 QS22
Single Socket Single Socket Two Socket Two Socket Four Socket Two Socket
31 Power 7 Power 7 Power 7 Power 7 Power 7 PowerXCell
© 2012 IBM Corporation
32. Familia de Servidores IBM x86
Intelligent Cluster iDataPlex Clusters, HPC,
Large symmetrical Virtualization,
multiprocessing Web 2.0
(SMP) & Cloud
Enterprise Class
x3850 X5 dx360 M3
x3690 X5
Scale up / SMP computing
x3755 M3
x3650 M3
BladeCenter
Flagship Class S, E, H, T, HT
x3550 M3
x3400 M3 x3500 M3 HX5
x3630 M3
HS12/22/22V
x3620 M3 LS22/42
JS12//22/23/43
x3200 M3 QS21/22
x3100 M3 HS22
Single Socket x3250 M3 HS12 Dual Socket HS22V Multi Socket
High density
Scale out / distributed computing
32 © 2012 IBM Corporation
33. Servidores IBM x86 Enerprise
Intel Xeon serie E7
6500 y 7500 para
servidores IBM escalables
QPI Scaling
Two BladeCenter HX5 Two System x3850 X5
4 socket 32 DIMM 8U eight socket 128 DIMM
MAX 5 Memory
Scaling
BladeCenter HX5 + MAX5 System x3690 X5 + MAX5 System x3850 X5 + MAX5
2 socket 40 DIMM 3U two socket 64 DIMM 5U four socket 96 DIMM
Base System
BladeCenter HX5 System x3690 X5 System x3850 X5
2 socket 16 DIMM 2U two socket 32 DIMM 4U four socket 64 DIMM
33 © 2012 IBM Corporation
34. Nuevos Microprocesadores Intel
Intel Xeon serie E5-2600 para los nuevos servidores x86 de IBM
Más Núcleos
Más Memoria
Up to
Más Integración 8.0 GT/s
Más Ancho de Banda
Up to
DDR3
1600
= New On E5-2600
34 © 2012 IBM Corporation
35. Nuevos Microprocesadores Intel
Intel® Xeon® processor Relative SPECint*_rate_base2006 Estimates
5600 series 8C 135W E5-2690
1.60 2.9 GHz
1.51 8C 130W E5-2680
6C 130W 2.7 GHz
1.00 3.46 GHz X5690
1.46 8C 115W Low Power
Advanced
E5-2670
2.6 GHz
0.95 6C 95W X5675 8C 70W
3.06 GHz 1.37 8C 115W E5-2665 .85
2.4 GHz 1.8 GHz E5-2650L
6C 95W
0.90 2.80 GHz X5660 1.29 8C 95W 8C 70W
E5-2660 .82
2.2 GHz 1.8 GHz E5-2450L
0.89 6C 95W X5650 1.19 8C 95W E5-2650
2.66 GHz 2.0 GHz 6C 60W
.72 2.0 GHz
E5-2630L
6C 80W 6C 95W E5-2640
1.08 2.5 GHz
0.79 2.53 GHz X5649 6C 60W
.69
Standard
6C 95W 2.0 GHz
6C 80W X5645 1.02
2.3 GHz E5-2630 E5-2430L
0.76 2.40 GHz
4C 80W X5620 0.92
6C 95W E5-2620
0.58 2.40 GHz 2.0 GHz
4C 80W E5-2609
0.61 2.4 GHz
0.42 4C 80W E5607
All SKUs, frequencies and
2.26 GHz
features are
Basic
0.40 4C 80W E5606
2.13 GHz 4C 80W E5-2603 PRELIMINARY and can
0.51 1.8 GHz
change without notice
0.31 4C 80W E5603
1.60 GHz Intel® Xeon® processor
E5-2600 product family
35 Socket-R © 2012 IBM Corporation
36. Servidor IBM BladeCenter HS23
Beneficios Características Claves
• Menores costos de networking • Virtual Fabric de 10GbE integrado
Hasta 30% de ahorro con VF integrado para redes de alta velocidad 30%
Savings w/
• Performance elevada • Incluye las últimas tecnologías de Integrated VF
62% más poder de cómputo cómputo, red y almacenamiento
20% más VMs
10GbE
• Configuración simpile • Despliegue en 0 días con la Networking
Acelera el tiempo de puesta en marcha herramienta IBM FastSetup
• Mayor flexibilidad en networking • Hasta 18 puertos de red Ethernet, 62%
Integra múlitples tecnologías FCoE y iSCSI More Perf
• Protección de la inversión
Agraga más capacidades a la infraestructura Soporta la infraestructura de
• 20%
More VMs
chasis actual
36 © 2012 IBM Corporation
38. Servidor IBM BladeCenter HS23
1GbE Switch Bays
Integrated
Virtual Fabric LOM
Dual 10GbE/1Gb
FCoE/iSCI
CFFh Card High Speed
Switch Bays
CIOv Card Switch Bays
10Gb E & FCoE
40Gb IB 10GbE & FCoE
1GbE / 8Gb FC Combo 40Gb IB, MSIM
1Gb E 1GbE
8Gb FC 8Gb FC
3Gb SAS 3Gb SAS
38 © 2012 IBM Corporation
39. Servidor IBM BladeCenter HS23
IBM FastSetup
Características Soportadas
Reducción de Tiempo
Automatización con plantillas
Actualización de versión
seleccionable
Descubrimiento automático
Operación bare metal
Independencia de OS
Habilidad para actualizar
switches
39 © 2012 IBM Corporation
40. Servidores x86 Individuales IBM
System x3550 M4
Up to 8 cores per CPU
Up to 768GB of memory
10Gb networking
System x3650 M4 Flexible RAID design
General Business System x3500 M4
System x3755 M3
Optimized for HPC
Up to 4 CPUs per 2U
iDataPlex dx360 M4
High Performance
System x3620 M3 Up to 6 cores per CPU
Up to 192GB of memory
Maximum storage capacity
Upgradable networking
System x3630 M3
Value 2-socket System x3400 M3
System x3100 M4
Entry priced
Up to 32GB of memory
System x3250 M4
Entry 1-socket
40 © 2012 IBM Corporation
41. Servidor IBM System x3650 M4
System x3650 M4
Processors Sandy Bridge EP up to 8 cores
#Socket 2
Form factor 2U Rack
Memory Slots 24 slots (UDIMM/RDIMM)
Max Memory Up to 768GB
Media bays Optional DVD and Tape Bay
Disk Drive type SAS/SATA/SSD
HDD bays 16x 2.5” or 6x 3.5” HDDs
RAID RAID on Motherboard
NIC/TPM 4x 1Gb (std.) + 2x 10Gb (slotless
opt.) /TPM
PCIe (x16/x8) 3-6 PCIe ports (2/2, 1/4 or 0/6) or
4 PCI-X or 2 Double Width PCIe
support
w/ Slotless 10 Gb NIC and RAID
Power AC 750W/900W550W, DC 750W
Up to 80 plus Platinum
• USB ports 2 front/4 back/2 internal
Opciones de networking enriquecidas VGA ports 1 front/1 back
• Diseño flexible en RAID
• Fan Design 4x Hot swap redundant fans
Soporte de procesadores Intel Xeon E5-2600
• Optimizado para flexibilidad y performance Light Path Light Path panel in front
• Tecnología IBM eXFlash para grandes IOPS System MGMT IMMv2, dedicated LAN port
41 Warranty 3 years (parts/labor) IBM Corporation
© 2012
42. Servidor IBM System x3650 M4
VGA
Light Path Panel
16- 2.5” HDD/SSD
Slim ODD
Tape
USB
VGA
Light Path Panel
6- 3.5” HDD
Slim ODD
Tape
USB
1 FH/FL
PCI Card 1 FH/HL 2 FH/FL
2 FH/HL PCI Card PCI Card
PCI Card
2x
MGMT VGA COM 10GbE USB PSU
42 GbE x4 x4
© 2012 IBM Corporation
43. Servidor IBM System x3550 M4
System x3550 M4
Processors Sandy Bridge EP up to 8 cores
#Socket 2
Form factor 1U Rack
Memory Slots 24 slots (UDIMM/RDIMM)
Max Memory Up to 768GB
Media bays DVD Bay (Optional w/ 2.5” HDDs)
Disk Drive type SAS/SATA/SSD
HDD bays 8x 2.5” or 3x 3.5” HDDs
RAID Slotless RAID
NIC/TPM 4x 1Gb (std.) + 2x 10Gb (slotless
opt.) /TPM
PCIe (x16/x8) 2 PCIe ports (1/1 or 2/0)
+ Slotless 10 Gb NIC and RAID
Power AC 550W/750W, DC 750W
Up to 80 plus Platinum
• Opciones de networking enriquecidas USB ports 2 front/4 back/2 internal
• Soporte de procesadores Intel Xeon E5-2600 VGA ports 1 front/1 back
• Optimizado para densidad y performance Fan Design 6x Hot swap redundant fans
Light Path Light Path panel in front
System MGMT IMMv2, dedicated LAN port
43 Warranty
© 2012 IBM Corporation
3 years (parts/labor)
44. Servidor IBM System x3550 M4
VGA
2 USB
Operator
2.5” HDD Bay
8x 2.5” HDD/SSD
Panel
ODD
3.5” HDD Bay
VGA 3 USB Operator
Panel
6x 3.5” HDD
Low Profile PCI Card
1GbE x 2 FHHL PCI Card
NMI
1GbE x 2 COM port VGA port
USB x 4 PSUx2
10G x 2
(via mezz card)
44 © 2012 IBM Corporation
45. Servidor IBM System x3500 M4
Una solución de negocio todo-en-uno que se System x3500 M4
puede colocar bajo el escritorio. El x3500 Processors Sandy Bridge EP up to 8 cores
servidor de dos-sockets diseñado para #Socket 2
satisfacer las necesidades más demandantes. Form factor Tower (5U rack option)
Memory Slots 24 slots (UDIMM/RDIMM)
Max Memory Up to 768GB
Media bays Standard DVD-ROM and Tape Bay
Disk Drive type 2.5” SAS/SATA or 3.5” SATA
HDD bays Up to 32x 2.5” or 8x 3.5” HDDs
RAID 6Gb Cache RAID: M5115 or M5125 RAID
0,1,10,5,50 optional 6,60
NIC/TPM 4x 1Gb + 2x 10Gb(opt.) /TPM Std.
PCIe Up to 8 PCI slots
From Proc. 1: 1 PCIe Gen2 x16 (Up to 225W),
4 PCIe Gen2 x8 (2 with Elec x4), 1 PCIe Gen2
x8 (Elec x4)
From Processor 2: 2 PCIe Gen2 x 16 (Up to
225W)
Optional: 1 PCI-X (by interposer card)
Power Redundant 750W/900W, 80 plus
I/O Ports USB: 2 front/4 back/2 internal
1 Serial port, 1 VGA port
Fan Design 3+3 Simple swap redundant fans
Light Path Front Light Path Diagnostic
System Mgmt. IMM v2 with dedicated port
45 © 2012 IBM Corporation
Warranty 3 years (parts/labor)
46. Servidor IBM System x3500 M4
x3500 M4 Base Models with
8 x 2.5”
Side door handles
To help customers to easily
pull the system out of a cabinit
Side door key Lock
One locking mechanisium to
have both the front bezel and
side door cove secured
8 x 2.5" HS
SAS/SATA HDD
Support
Power button x3500 M4 Base Models
Space for additional 24 x with 8 x 3.5”
2.5” HDDs
Standard HH DVD-
ROM
Additional one 5 ¼ inch
bay for tape drives
8 x 3.5" SS/HS
SAS/SATA HDD
Support
46 © 2012 IBM Corporation
47. Tecnología IBM POWER
Power your Planet
+
AIX® - The Future of UNIX
Total Integration with IBM i
Scalable Linux® ready for x86
Consolidation
Virtualization without Limits
Drive higher utilization
Workload-Optimizing Systems Dynamically scale per demand
Intelligent Energy Optimization Resiliency without Downtime
Energy cost reduction Roadmap to continuous
EnergyScale™ technologies availability
High availability systems
& scaling
47 © 2012 IBM Corporation
48. Procesadores IBM POWER
En containers de carga, En grabadoras de En teléfonos
usando controladores DVD Sony Motorola
integrados sellados antirrobo
para seguir la carga
En cámaras digitales
En la Kodak
Microsoft
Xbox 360 –
Chip Power
con 3 cores,
a 3,2 GHz Nintendo Wii Sony PS3,
chip de 9
cores
En lavasecarropas con
acceso Web que en
universidades y secundarios En router CISCO; tan
permitirán que los alumnos poderoso como para que
paguen pasando su tarjeta de la población mundial
identificación. (6400 millones) pueda
mantener una
conversación telefónica
En GPSs, como el En los simultánea usando Voz
Garmin, TomTom, ALK Symmetrix de sobre IP
EMC
En el acelerador de particulas más poderoso del mundo en el laboratorio
de física del CERN, y en muchos otros productos.
48 © 2012 IBM Corporation
49. Procesadores IBM POWER
POWER4 POWER5 POWER6 POWER7
POWER4 POWER4 POWER5 POWER5 Alti Alti
Core Core Core Core Vec
Core Core Vec
Core Core Core Core
P
O
L3
L3
W S
L2
L2 E L2 L2 L2 L2
36MB Ctl R M
1.4MB 1.9MB
L3 4 MB 4 MB L3 P
L3 L3
Ctrl L2 L2 Ctrl
G F
L3 Cache
X A
Distributed Enhanced B
Switch Distributed Switch R
I
B
L3 Fabric Bus U L2 L2 L2 L2 C
Mem S
Cntrl
Ctl Controller
Memory
Memory
Core Core Core Core
Cntrl
Cntrl
L3
32MB
GX Bus Cntrl
GX GX Memory Interface
Bus
Mem Ctl Bus
GX+ Bridge
Memory
Memory+ Memory+
Memory Memory+ Memory+ + +
2001 2004 2007 2010
49 © 2012 IBM Corporation
50. Procesadores IBM POWER
POWER7 POWER8™
POWER6 ™
45 nm
®
65 nm
POWER5™
130 nm
POWER4™
180 nm
Dual Core
Dual Core Multi Core
Enhanced Scaling
High Frequencies On-Chip eDRAM
Dual Core SMT
Virtualization + Power Optimized Cores
Chip Multi Processing Memory Subsystem +
Distributed Switch + Mem Subsystem ++
Distributed Switch Core Parallelism +
Altivec Concept Phase
Shared L2 Instruction Retry
SMT++
FP Performance + Reliability +
Dynamic LPARs (32) Memory bandwidth +
Dyn Energy Mgmt
SMT + VSM & VSX (AltiVec)
Virtualization
Protection Keys Protection Keys+
50
2001 2004 2007 2010 © 2012 IBM Corporation
51. Servidores IBM Power Systems
Enterprise Servers Power 795
Power 780
Power 770
Power 750
Express Servers
Power 720/740
Power 775
Power 710/730 High Performance
Computing
Blades Power 755
PS 700, 701, 702, 703, 704
51 © 2012 IBM Corporation
52. Servidores IBM Power Systems
1 Socket 2 Socket
Power 710 Express
Power 730 Express
Power 720 Express Power 740 Express
1 to 4 Socket Blades 4 Socket
Power 750 Express
BladeCenter PS700, PS701, PS702,
PS703, PS704 Express blades
52 © 2012 IBM Corporation
53. Servidores IBM Power Systems
Major Component or PS700 PS701 PS702 PS703 PS704
Function
Processor 1 x P7 (4 Core)=4 1 x P7 (8 Core)=8 2 x P7 (8 Core)=16 2 x P7 (8 Core)=16 4 x P7 (8 Core)=32
Cores Cores Cores Cores Cores
SCM 3.0 GHz SCM 3.0 GHz SCM 3.0 GHz SCM 2.4 GHz SCM 2.4 GHz
L3 4 MB per core 4 MB per core 4 MB per core 4 MB per core 4 MB per core
Memory Channel 4 4 8 8 16
Memory 8 DIMMs 8 DIMMs 16 DIMMs 16 DIMMs 32 DIMMs
4 GB, 8 GB @ 1066 4 GB, 8 GB @ 4 GB, 8 GB @ 4 GB, 8 GB @ 4 GB, 8 GB @ 1066
MHz 64 GB max 1066 MHz 128 GB 1066 MHz 256 GB 1066 MHz 128 GB MHz 256 GB max
max max max
I/O Hub 1 P5IOC2 I/O 1 P5IOC2 I/O 2 P5IOC2 I/O 1 P7IOC I/O 2 P7IOC I/O
PCIe Gen 1 PCIe Gen 1 PCIe Gen 1 PCIe Gen 2 PCIe Gen 2
Embedded SAS Controller Yes Yes Yes Yes Yes
2.5” SAS Drive HDD option 0-2 0-1 0-2 0-1 0-2
SATA 1.8” SDD option 0 0 0 0-2 0-4
RAID functions RAID 0,10 Raid 0 Raid 0,10 RAID 0,10 RAID 0,10,5,6
Integrated 1GB Ethernet ports 2 2 4 2 4
(P5IOC2 HEAs) (P5IOC2 HEAs) (2 x P5IOC HEAs (BCM5709S) (2 x BCM5709S)
)
1Xe (PCIe) 1 1 2 1 2
High Speed Expansion card 1 1 2 1 2
PCIX No No No No No
FSP1 Service Processor Yes Yes Yes Yes Yes
Graphics No No No No No
USB Ports 2 2 4 2 4
Smart Card (VPD Info)
53 Yes Yes Yes (base) Yes Yes (base) Corporation
© 2012 IBM
54. Servidores IBM Power Systems
Power 710 Power 720 Power 730 Power 740 Power 750
Footprint, packaging 2U rack 4U rack, tower 2U rack 4U rack, tower 4U rack
Number of 1 1 2 1 or 2 1 to 4
processor sockets
Number of cores 4, 6, 8 4, 6, 8 8, 12, 16 4, 6, 8, 12, 16 4, 6, 8, 12, 16, 18,
24, 32
GHz clock 3.0, 3.7, 3.55 3.0 3.0, 3.7, 3.55 3.3, 3.7, 3.55 3.2, 3.6, 3.7
Max GB memory 64GB 64 (4-core) 128 256 512GB
128 (6/8-core)
Max disk storage in 1.8TB 2.4TB 1.8TB 2.4TB 2.4TB
system unit
PCI slots in system PCIe: 4 PCIe: 4+4LP PCIe: 4 PCIe: 4+4LP 5 (3PCie, 2PCI-X)
unit
LPARs 80 80 160 160 320
12X I/O Drawers No 4-core No No Yes Yes
6/8-core Yes
Disk-only I/O 4-core No 4-core No Yes Yes Yes
drawers (#5886) 6/8-core Yes 6/8-core Yes
Power requirements 100-240VAC 100-240VAC 200-240VAC 200-240VAC 200-240VAC
Warranty 3 year 3 year 3 year 3 year 1 year
Distributed Small to mid- Mid-size DB
Infrastructure application Infrastructure size DB server, server, application
Primary Use and application server or all in consolidation application consolidation
server one business consolidation server
solution server
Dense form Flexible, Density, high Memory Performance,
Key differentiators factor, 1-socket reliable and performance capacity and scalability, energy
54
performance secure and energy configurability efficiency andCorporation
© 2012 IBM hot
efficient swap PCI
55. Servidores IBM Power Systems
Una vez más Power System prueba ser el servidor más poderoso en SAP SD 2-tier
126,063
#1
P ower 795
Overall
with D B2 ® SAP SD Users
120,000
#1 100,000
16-socket 80,000
#1
60,000
#1 8-socket
40,000
4-socket
20,000
0
Power 750 HP DL980G7 HP Integrity SD64B Power 780 Sun M9000 Sun X4470 Power 795 Power 795 SAP SD
POWER Xeon Xeon POWER SPARC Xeon; SD-Parallel POWER POWER Users
4/32/128 8/64/128 64/128/256 8/64/256 64/256/512 4 servers @ 4/32/64 16/128/512 32/256/1024
# 2010004 # 2010040 # 2006089 # 2010013 # 2008042-1 #2010039 # 2010042 # 2010046
55 © 2012 IBM Corporation
56. Servidores IBM Power Systems
IBM continúa extendiendo su liderazgo en UNIX entregando más innovación
50%
45%
UNIX® Server Rolling Four Quarter Average Revenue Share
40%
35%
30%
25%
20%
HP Sun/Oracle IBM
15%
Q 0
Q 0
Q 0
Q 1
Q 1
Q 1
Q 1
Q 2
Q 2
Q 2
Q 3
Q 3
Q 3
Q 3
Q 4
Q 4
Q 4
Q 4
Q 5
Q 5
Q 5
Q 5
Q 6
Q 6
Q 6
Q 6
Q 7
Q 7
Q 7
Q 7
Q 8
Q 8
Q 8
Q 8
Q 9
Q 9
Q 9
Q 0
Q 0
Q 0
Q 0
Q 1
1
Q 2
Q 9
20
30
10
30
40
10
30
40
20
30
40
10
20
40
10
20
40
20
40
20
40
10
20
40
20
40
21
31
11
21
40
20
20
10
30
30
10
30
10
30
30
10
30
11
41
Q
56 Source: IDC Quarterly Server Tracker Q211 release, August 2011 © 2012 IBM Corporation
57. Virtualización con IBM Power Systems
PowerVM nunca ha tenido una sola vulnerabilidad reportada
119
120
100
“Making sure our website
Number of reported
80
can’t get hacked into is a
vulnerabilities
61
key issue. With IBM, we
security
of reported
60
vulnerabilities
have been able to keep it
40
tightly locked up and
22
20
prevent unauthorized
2 1 0 access.”
0
VMWare Xen KVM Sun LDoms Hyper-V PowerVM
Vmware Xen KVM Sun Hyper-V PowerVM
LDoms — Dr. Chris Yates, CIO
Source: National Vulnerability Database, http://nvd.nist.gov/ Tennis Australia
57 © 2012 IBM Corporation
58. Virtualización con IBM Power Systems
1967 1974 1988 2001 2004 2007 2010
Active
IBM invents First IBM POWER Partition Memory
Hypervisor machines delivers LPARs
Hypervisor Mobility Sharing
that would with LPARs on
become VM on on
Physical the on on
on the POWER4
Partitioning mainframe POWER5 POWER6
mainframe POWER7
PowerVM™ Builds on Over 40 Years
of IBM Innovation
Extreme scalability and robustness
Fine-grained dynamic sharing
of processors, memory, and I/O
Virtual or direct resources
Integrated firmware hypervisor
Virtual I/O Server
Hardware-enforced isolation
Integrates LPARs and WPARs
Lx86 cross-platform virtualization
Capacity on Demand
Live Partition Mobility
58 © 2012 IBM Corporation
59. Virtualización con IBM Power Systems
Arquitectura de virtualización con IBM PowerVM
VIOS VIOS Unassigned
on demand
resources
Shared Processor Pool
POWER
Hypervisor
Virtual Networks
Virtual Storage Firmware
Virtual Processors
HMC
Processors
Service Memory
Processor
Expansion Slots
Local Devices and Storage
Networks and Network Storage
59 © 2012 IBM Corporation
60. Virtualización con IBM Power Systems
Particiones Lógicas de IBM (LPAR)
Virtual
¿Qué es?
I/O Firmware-based hypervisor derived from
Server
mainframes
Virtualized operating system instances
0.5 cores 8
4 cores 2
4 cores 1 core
within a single chassis
Operating system can be AIX, IBM i, or
2GB 16GB
8GB 4GB
8GB 2GB
Linux
I/O devices can be directly attached to the
LPAR or virtualized through Virtual I/O
PowerVM™ Hypervisor Server
Storage
Storage LPAR can add and remove CPU, memory,
and I/O resources without rebooting
Ethernet
LPARs are managed through a Hardware
Management Console (HMC)
60 © 2012 IBM Corporation
61. Virtualización con IBM Power Systems
PowerVM: Virtual I/O server (VIOS)
Virtual
¿Qué es?
I/O
Server
Each partition still needs a boot disk and Ethernet
network connection, but now they can be virtual
instead of physical
4GB 2GB 1GB 4GB
0.5 cores 4 cores
4 cores Allows partitions to share Fibre Channel, disk and
4GB 4GB Shared Processor Pool Ethernet network adapters, with max of 254
partitions (P5 or P6) and 1,000 partitions (P7)
Hypervisor
Installed as a special purpose AIX based LPAR,
which uses AIX LVM and attaches to traditional
Storage
Storage storage subsystems
Ethernet Inter-partition communication (client-server model)
provided via Hypervisor
Provides hosting facilities for virtualized resources
for clients and has a restricted shell with unique
virtualization command set
61 © 2012 IBM Corporation
62. Virtualización con IBM Power Systems
PowerVM: Live Partition Mobility (LPM)
¿Qué es?
VIOS VIOS
Relocate an entire LPAR between
physical chassis
Requires POWER6™ or better
LPARs continue to run and provide
4GB 4GB 4GB 4GB 4GB services to clients, who are
192.9.200.1 completely unaware of the
migration
PowerVM™ PowerVM™
Final suspension and resumption
Hypervisor Hypervisor of LPAR is guaranteed to be less
than 2 seconds
Storage
Storage
Ethernet
62 © 2012 IBM Corporation
63. Virtualización con IBM Power Systems
Active Memory Expansion
What the
LPAR Sees
¿Qué es?
On-the fly compression of an LPAR’s
LPAR’s Actual Uncompressed
Memory
physical memory gives an LPAR the
Pool
illusion of having more memory
Requires POWER7™ or better
30 GB
Uncompressed
Pool Effectiveness depends on the
20 GB
Compressed compressibility of the LPAR’s memory
Compress Pool space
Compressed Decompress
Pool Compressed pool size changes
dynamically with the LPAR’s load
Pages from uncompressed pool will be
PowerVM™ Hypervisor paged out to paging (swap) device
63 Swap © 2012 IBM Corporation
65. “Generating Higher Value at IBM” includes selected references to certain non-GAAP financial measures that are made to facilitate a comparative
view of the company's ongoing operational performance. For information about the company's financial results related to (i) free cash flow
excluding Global Financing Receivables and (ii) operating (non-GAAP) earnings, which are in each case non-GAAP measures, see the company's
Form 8-K submitted to the SEC on January 18, 2011(Attachment II-Non-GAAP Supplementary Materials).