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Santiago06 Noviembre 2018
El Poder de la Convergencia:Portafolio de infraestructura convergente e hiperconvergente
de Dell EMC
Benjamín Rodríguez C.MDC Territory Manager, Dell EMC
4-
En Chile…. Sentido de Urgencia
5-
Transformación de IT
Orchestration
Virtualization
Servers, storage & network
Applications
IaaS / PaaS
Infraestructura
Modernice su
Infraestructura
Automatice
La entrega de
serviciosTransforme
su operación
• Modernizar
• Automatizar
• Transformar
6-
6%
45% 43%
6%
Stage 1 - Legacy Stage 2 - Emerging Stage 3 - Evolving Stage 4 - Transformed
Adopción de
tecnología de centro de
datos moderno
Adopción de procesos
de TI modernos
Concentración en la
alineación entre el
negocio y TI
Patrocinado por Dell EMC e Intel, abril de 2018 Estudio de madurez de la transformación de la TI realizado a 4,000 tomadores de decisiones de TI
81 % está de acuerdo en que si no adopta la
TRANSFORMACIÓN DE LA TI, sus empresas ya no
serán COMPETITIVAS en el mercado
(aumento del 10 % respecto de 2017)
7-
Organizaciones transformadas…
“El 98 % de las empresas transformadas usa infraestructura convergente
o hiperconvergente, y el 86 % informa que utiliza ambas”1.
8 vecesmás probabilidades de
competir en costos con
la nube pública
1 Informe de investigación con información valiosa de ESG: The Role of Converged and Hyperconverged Infrastructure in IT Transformation
10 vecesmás probabilidades de
implementar aplicacionesantes de lo programado
2 vecesmás probabilidades de
superar las metasde ingresos
8-
La promesa de la transformación de la TI
La CI y la HCI pueden hacerla realidad
Actualizaciones tecnológicas menos costosas y migraciones de datos menos riesgosas
Eficiencias operacionales en la administración de sistemas aislados de almacenamiento y aplicaciones
Aceleración de la ruta hacia la nube híbrida
Operaciones de monitoreo, mantenimiento y soporte más sencillas y rentables
Cronogramas de instalación e implementación más cortos
Prevención de cuellos de botella, puntos problemáticos y falta de escalabilidad
9-
Elementos fundamentales de un centro de datos moderno
Definido por software
Escalamiento horizontal
Tecnología todo flash
ConfiabilidadInteligencia
Infraestructura convergente
Infraestructura hiperconvergente
MÁS RÁPIDO | MÁS SIMPLE | MENOS RIESGO
Aplicaciones tradicionales y nativas de la nube
#1
Habilitación para la nube
Servidores
Almacenamiento
Redes
0 0 00
0 0 000
001
111
11
1
1Protección de datos
Los mejores
componentes
en su clase
10-
Modernización con los sistemas de CI y HCI
Ofrezca beneficios coherentes y valor para el cliente en todos los tamaños y todas las cargas de trabajo
RACKS
DISPOSITIVOS
BLOQUES
Un solo soporte
de punto a punto
Administración
simplificada
Garantía absoluta
del ciclo de vida
Totalmente probado
y preconfigurado
Experiencia
lista para usar
Con tecnología de los procesadores escalables
Intel® Xeon®
11-
Liderazgo de Dell EMC en el sector
N.° En infraestructura
hiperconvergente
y
convergente
Hablemos de HCI
12-
Arquitectura Tradicional vs Hiperconvergente
VXRAIL CONCEPTS AND ARCHITECTURE
10 © 2016 VCE COMPANY, LLC. ALL RIGHTS RESERVED.
management. This requires an infrastructure solution with an extremely high level of efficiency and serviceability,
such as hyper-converged infrastructure.
HYPER-CONVERGED INFRASTRUCTURE
Hyper-converged infrastructure (HCI) is the next level of converged infrastructure. HCI is a new type of CI with a
software-centric architecture based on smaller, industry-standard building-block servers that can be scaled. HCI
has a software-defined architecture with everything virtualized. Compute, storage, and networking functions are
decoupled from the underlying infrastructure and run on a common set of physical resources that are based on
industry-standard components. Hyper-converged systems do not include separate enterprise storage arrays.
Instead, they adopt industry-standard server platforms with local direct-attached storage (DAS), which is
virtualized using software-defined storage technology. (See Figure 2 below.) By integrating these technologies,
HCI systems are managed as a single system through a common toolset.
The ideal HCI solution integrates these building-block servers with a familiar, simple management software for
reliability and serviceability. This enables efficient and safe use of commodity-off-the-shelf (COTS) hardware.
Simple management software allows a common operational model, which drives efficiency and enables workload
mobility. Other benefits of HCI include a lower total cost of operation as well as flexible scalability—nodes, which
provide both CPU and storage, can easily be added to meet business demands. Unlike CI, the technologies in HCI
are so integrated that they cannot be broken down into separate components for independent use. HCI offers a
seamless framework of integrated, virtualized, scalable nodes with built-in management.
Figure 2: CI and HCI
HCI carries forward the benefits of CI, including a single shared resource pool, and takes them even further. By
reinventing the underlying data architecture, HCI includes full data services. Complete integration and innovation at
the software layer allows for radically simple end-to-end data management. Deploying new infrastructure, which
could take up to a week in the build-your-own model, can be up and running in under 30 minutes, because HCI
offers such high levels of task automation. Ideally, HCI is fully integrated, preconfigured, and tested. This provides
a simple, cost effective, non-disruptive scalable solution with centralized management functionality, rich data
services, and a single source of support.
HCI enables faster, better, and simpler management of consolidated workloads, virtual desktops, business-critical
applications, and remote office infrastructure.
HCI solutions have distinct features including scalability, simplicity, and data services.
Scalability. Hyper-converged infrastructures are designed to scale out by adding nodes, which provides a
predictable “pay-as-you-grow” approach. Adding nodes rather than separately adding CPUs or storage capacity, VXRAIL CONCEPTS AND ARCHITECTURE
10 © 2016 VCE COMPANY, LLC. ALL RIGHTS RESERVED.
management. This requires an infrastructure solution with an extremely high level of efficiency and serviceability,
such as hyper-converged infrastructure.
HYPER-CONVERGED INFRASTRUCTURE
Hyper-converged infrastructure (HCI) is the next level of converged infrastructure. HCI is a new type of CI with a
software-centric architecture based on smaller, industry-standard building-block servers that can be scaled. HCI
has a software-defined architecture with everything virtualized. Compute, storage, and networking functions are
decoupled from the underlying infrastructure and run on a common set of physical resources that are based on
industry-standard components. Hyper-converged systems do not include separate enterprise storage arrays.
Instead, they adopt industry-standard server platforms with local direct-attached storage (DAS), which is
virtualized using software-defined storage technology. (See Figure 2 below.) By integrating these technologies,
HCI systems are managed as a single system through a common toolset.
The ideal HCI solution integrates these building-block servers with a familiar, simple management software for
reliability and serviceability. This enables efficient and safe use of commodity-off-the-shelf (COTS) hardware.
Simple management software allows a common operational model, which drives efficiency and enables workload
mobility. Other benefits of HCI include a lower total cost of operation as well as flexible scalability—nodes, which
provide both CPU and storage, can easily be added to meet business demands. Unlike CI, the technologies in HCI
are so integrated that they cannot be broken down into separate components for independent use. HCI offers a
seamless framework of integrated, virtualized, scalable nodes with built-in management.
Figure 2: CI and HCI
HCI carries forward the benefits of CI, including a single shared resource pool, and takes them even further. By
reinventing the underlying data architecture, HCI includes full data services. Complete integration and innovation at
the software layer allows for radically simple end-to-end data management. Deploying new infrastructure, which
could take up to a week in the build-your-own model, can be up and running in under 30 minutes, because HCI
offers such high levels of task automation. Ideally, HCI is fully integrated, preconfigured, and tested. This provides
a simple, cost effective, non-disruptive scalable solution with centralized management functionality, rich data
services, and a single source of support.
HCI enables faster, better, and simpler management of consolidated workloads, virtual desktops, business-critical
applications, and remote office infrastructure.
HCI solutions have distinct features including scalability, simplicity, and data services.
Scalability. Hyper-converged infrastructures are designed to scale out by adding nodes, which provides a
predictable “pay-as-you-grow” approach. Adding nodes rather than separately adding CPUs or storage capacity,
VXRAIL CONCEPTS AND ARCHITECTURE
10 © 2016 VCE COMPANY, LLC. ALL RIGHTS RESERVED.
management. This requires an infrastructure solution with an extremely high level of efficiency and serviceability,
such as hyper-converged infrastructure.
HYPER-CONVERGED INFRASTRUCTURE
Hyper-converged infrastructure (HCI) is the next level of converged infrastructure. HCI is a new type of CI with a
software-centric architecture based on smaller, industry-standard building-block servers that can be scaled. HCI
has a software-defined architecture with everything virtualized. Compute, storage, and networking functions are
decoupled from the underlying infrastructure and run on a common set of physical resources that are based on
industry-standard components. Hyper-converged systems do not include separate enterprise storage arrays.
Instead, they adopt industry-standard server platforms with local direct-attached storage (DAS), which is
virtualized using software-defined storage technology. (See Figure 2 below.) By integrating these technologies,
HCI systems are managed as a single system through a common toolset.
The ideal HCI solution integrates these building-block servers with a familiar, simple management software for
reliability and serviceability. This enables efficient and safe use of commodity-off-the-shelf (COTS) hardware.
Simple management software allows a common operational model, which drives efficiency and enables workload
mobility. Other benefits of HCI include a lower total cost of operation as well as flexible scalability—nodes, which
provide both CPU and storage, can easily be added to meet business demands. Unlike CI, the technologies in HCI
are so integrated that they cannot be broken down into separate components for independent use. HCI offers a
seamless framework of integrated, virtualized, scalable nodes with built-in management.
Figure 2: CI and HCI
HCI carries forward the benefits of CI, including a single shared resource pool, and takes them even further. By
reinventing the underlying data architecture, HCI includes full data services. Complete integration and innovation at
the software layer allows for radically simple end-to-end data management. Deploying new infrastructure, which
could take up to a week in the build-your-own model, can be up and running in under 30 minutes, because HCI
offers such high levels of task automation. Ideally, HCI is fully integrated, preconfigured, and tested. This provides
a simple, cost effective, non-disruptive scalable solution with centralized management functionality, rich data
services, and a single source of support.
HCI enables faster, better, and simpler management of consolidated workloads, virtual desktops, business-critical
applications, and remote office infrastructure.
HCI solutions have distinct features including scalability, simplicity, and data services.
Scalability. Hyper-converged infrastructures are designed to scale out by adding nodes, which provides a
predictable “pay-as-you-grow” approach. Adding nodes rather than separately adding CPUs or storage capacity,
ETH
VXRAIL CONCEPTS AND ARCHITECTURE
10 © 2016 VCE COMPANY, LLC. ALL RIGHTS RESERVED.
management. This requires an infrastructure solution with an extremely high level of efficiency and serviceability,
such as hyper-converged infrastructure.
HYPER-CONVERGED INFRASTRUCTURE
Hyper-converged infrastructure (HCI) is the next level of converged infrastructure. HCI is a new type of CI with a
software-centric architecture based on smaller, industry-standard building-block servers that can be scaled. HCI
has a software-defined architecture with everything virtualized. Compute, storage, and networking functions are
decoupled from the underlying infrastructure and run on a common set of physical resources that are based on
industry-standard components. Hyper-converged systems do not include separate enterprise storage arrays.
Instead, they adopt industry-standard server platforms with local direct-attached storage (DAS), which is
virtualized using software-defined storage technology. (See Figure 2 below.) By integrating these technologies,
HCI systems are managed as a single system through a common toolset.
The ideal HCI solution integrates these building-block servers with a familiar, simple management software for
reliability and serviceability. This enables efficient and safe use of commodity-off-the-shelf (COTS) hardware.
Simple management software allows a common operational model, which drives efficiency and enables workload
mobility. Other benefits of HCI include a lower total cost of operation as well as flexible scalability—nodes, which
provide both CPU and storage, can easily be added to meet business demands. Unlike CI, the technologies in HCI
are so integrated that they cannot be broken down into separate components for independent use. HCI offers a
seamless framework of integrated, virtualized, scalable nodes with built-in management.
Figure 2: CI and HCI
HCI carries forward the benefits of CI, including a single shared resource pool, and takes them even further. By
reinventing the underlying data architecture, HCI includes full data services. Complete integration and innovation at
the software layer allows for radically simple end-to-end data management. Deploying new infrastructure, which
could take up to a week in the build-your-own model, can be up and running in under 30 minutes, because HCI
offers such high levels of task automation. Ideally, HCI is fully integrated, preconfigured, and tested. This provides
a simple, cost effective, non-disruptive scalable solution with centralized management functionality, rich data
services, and a single source of support.
HCI enables faster, better, and simpler management of consolidated workloads, virtual desktops, business-critical
applications, and remote office infrastructure.
HCI solutions have distinct features including scalability, simplicity, and data services.
Scalability. Hyper-converged infrastructures are designed to scale out by adding nodes, which provides a
predictable “pay-as-you-grow” approach. Adding nodes rather than separately adding CPUs or storage capacity,
VXRAIL CONCEPTS AND ARCHITECTURE
10 © 2016 VCE COMPANY, LLC. ALL RIGHTS RESERVED.
management. This requires an infrastructure solution with an extremely high level of efficiency and serviceability,
such as hyper-converged infrastructure.
HYPER-CONVERGED INFRASTRUCTURE
Hyper-converged infrastructure (HCI) is the next level of converged infrastructure. HCI is a new type of CI with a
software-centric architecture based on smaller, industry-standard building-block servers that can be scaled. HCI
has a software-defined architecture with everything virtualized. Compute, storage, and networking functions are
decoupled from the underlying infrastructure and run on a common set of physical resources that are based on
industry-standard components. Hyper-converged systems do not include separate enterprise storage arrays.
Instead, they adopt industry-standard server platforms with local direct-attached storage (DAS), which is
virtualized using software-defined storage technology. (See Figure 2 below.) By integrating these technologies,
HCI systems are managed as a single system through a common toolset.
The ideal HCI solution integrates these building-block servers with a familiar, simple management software for
reliability and serviceability. This enables efficient and safe use of commodity-off-the-shelf (COTS) hardware.
Simple management software allows a common operational model, which drives efficiency and enables workload
mobility. Other benefits of HCI include a lower total cost of operation as well as flexible scalability—nodes, which
provide both CPU and storage, can easily be added to meet business demands. Unlike CI, the technologies in HCI
are so integrated that they cannot be broken down into separate components for independent use. HCI offers a
seamless framework of integrated, virtualized, scalable nodes with built-in management.
Figure 2: CI and HCI
HCI carries forward the benefits of CI, including a single shared resource pool, and takes them even further. By
reinventing the underlying data architecture, HCI includes full data services. Complete integration and innovation at
the software layer allows for radically simple end-to-end data management. Deploying new infrastructure, which
could take up to a week in the build-your-own model, can be up and running in under 30 minutes, because HCI
offers such high levels of task automation. Ideally, HCI is fully integrated, preconfigured, and tested. This provides
a simple, cost effective, non-disruptive scalable solution with centralized management functionality, rich data
services, and a single source of support.
HCI enables faster, better, and simpler management of consolidated workloads, virtual desktops, business-critical
applications, and remote office infrastructure.
HCI solutions have distinct features including scalability, simplicity, and data services.
Scalability. Hyper-converged infrastructures are designed to scale out by adding nodes, which provides a
predictable “pay-as-you-grow” approach. Adding nodes rather than separately adding CPUs or storage capacity,
Arquitectura Tradicional
Sca
leU
p
Giga E
VXRAIL CONCEPTS AND ARCHITECTURE
10 © 2016 VCE COMPANY, LLC. ALL RIGHTS RESERVED.
management. This requires an infrastructure solution with an extremely high level of efficiency and serviceability,
such as hyper-converged infrastructure.
HYPER-CONVERGED INFRASTRUCTURE
Hyper-converged infrastructure (HCI) is the next level of converged infrastructure. HCI is a new type of CI with a
software-centric architecture based on smaller, industry-standard building-block servers that can be scaled. HCI
has a software-defined architecture with everything virtualized. Compute, storage, and networking functions are
decoupled from the underlying infrastructure and run on a common set of physical resources that are based on
industry-standard components. Hyper-converged systems do not include separate enterprise storage arrays.
Instead, they adopt industry-standard server platforms with local direct-attached storage (DAS), which is
virtualized using software-defined storage technology. (See Figure 2 below.) By integrating these technologies,
HCI systems are managed as a single system through a common toolset.
The ideal HCI solution integrates these building-block servers with a familiar, simple management software for
reliability and serviceability. This enables efficient and safe use of commodity-off-the-shelf (COTS) hardware.
Simple management software allows a common operational model, which drives efficiency and enables workload
mobility. Other benefits of HCI include a lower total cost of operation as well as flexible scalability—nodes, which
provide both CPU and storage, can easily be added to meet business demands. Unlike CI, the technologies in HCI
are so integrated that they cannot be broken down into separate components for independent use. HCI offers a
seamless framework of integrated, virtualized, scalable nodes with built-in management.
Figure 2: CI and HCI
HCI carries forward the benefits of CI, including a single shared resource pool, and takes them even further. By
reinventing the underlying data architecture, HCI includes full data services. Complete integration and innovation at
the software layer allows for radically simple end-to-end data management. Deploying new infrastructure, which
could take up to a week in the build-your-own model, can be up and running in under 30 minutes, because HCI
offers such high levels of task automation. Ideally, HCI is fully integrated, preconfigured, and tested. This provides
a simple, cost effective, non-disruptive scalable solution with centralized management functionality, rich data
services, and a single source of support.
HCI enables faster, better, and simpler management of consolidated workloads, virtual desktops, business-critical
applications, and remote office infrastructure.
HCI solutions have distinct features including scalability, simplicity, and data services.
Scalability. Hyper-converged infrastructures are designed to scale out by adding nodes, which provides a
predictable “pay-as-you-grow” approach. Adding nodes rather than separately adding CPUs or storage capacity,
Hyper Converged Nodes
VXRAIL CONCEPTS AND ARCHITECTURE
10 © 2016 VCE COMPANY, LLC. ALL RIGHTS RESERVED.
management. This requires an infrastructure solution with an extremely high level of efficiency and serviceability,
such as hyper-converged infrastructure.
HYPER-CONVERGED INFRASTRUCTURE
Hyper-converged infrastructure (HCI) is the next level of converged infrastructure. HCI is a new type of CI with a
software-centric architecture based on smaller, industry-standard building-block servers that can be scaled. HCI
has a software-defined architecture with everything virtualized. Compute, storage, and networking functions are
decoupled from the underlying infrastructure and run on a common set of physical resources that are based on
industry-standard components. Hyper-converged systems do not include separate enterprise storage arrays.
Instead, they adopt industry-standard server platforms with local direct-attached storage (DAS), which is
virtualized using software-defined storage technology. (See Figure 2 below.) By integrating these technologies,
HCI systems are managed as a single system through a common toolset.
The ideal HCI solution integrates these building-block servers with a familiar, simple management software for
reliability and serviceability. This enables efficient and safe use of commodity-off-the-shelf (COTS) hardware.
Simple management software allows a common operational model, which drives efficiency and enables workload
mobility. Other benefits of HCI include a lower total cost of operation as well as flexible scalability—nodes, which
provide both CPU and storage, can easily be added to meet business demands. Unlike CI, the technologies in HCI
are so integrated that they cannot be broken down into separate components for independent use. HCI offers a
seamless framework of integrated, virtualized, scalable nodes with built-in management.
Figure 2: CI and HCI
HCI carries forward the benefits of CI, including a single shared resource pool, and takes them even further. By
reinventing the underlying data architecture, HCI includes full data services. Complete integration and innovation at
the software layer allows for radically simple end-to-end data management. Deploying new infrastructure, which
could take up to a week in the build-your-own model, can be up and running in under 30 minutes, because HCI
offers such high levels of task automation. Ideally, HCI is fully integrated, preconfigured, and tested. This provides
a simple, cost effective, non-disruptive scalable solution with centralized management functionality, rich data
services, and a single source of support.
HCI enables faster, better, and simpler management of consolidated workloads, virtual desktops, business-critical
applications, and remote office infrastructure.
HCI solutions have distinct features including scalability, simplicity, and data services.
Scalability. Hyper-converged infrastructures are designed to scale out by adding nodes, which provides a
predictable “pay-as-you-grow” approach. Adding nodes rather than separately adding CPUs or storage capacity,
Arquitectura Hiperconvergente
Scale UP & Out
Menos capas
Escalabilidad: Up &Out
Storage
Compute
I ::::::::::: I Network
Storage
Compute
Storage
Compute
Storage
Compute
Disponibilidad -Redundancia
Menor Capex yOpex
Matriz Compatibilidad de Software
I ::::::::::: I
13-
2017 fue un gran año para la HCI
1. Informe sobre las tendencias de la infraestructura hiperconvergente de ESG, julio de 20172. IDC Q4’17 System Tracker, abril de 20183. Topline Research, agosto de 2017
Adopción del cliente1
El uso de la HCI ha aumentado a más del doble desde 2015
2 veces
Crecimiento del mercado2
US$3,780 millones en los últimos 12 meses | 30 % del mercado
global de sistemas convergentes
64 %
Uso de la HCI para la infraestructura primaria3
La mayoría de las implementaciones se encuentran en el centro
de datos principal
47 %
Implementación de cargas de trabajo mixtas3
Incluye aplicaciones de misión crítica y aplicaciones nuevas
y modernas
45 %
14-
Hazlo realidad: Portafolio de HCI de Dell EMCcon tecnología de los procesadores escalables Intel® Xeon®
Definición por software | Alta automatización | Compatibilidad con la mayoría de las cargas de trabajo
Dispositivo
Ready Node
MicrosoftHypervisores mixtos
Nodos preparados
para vSAN
Para los procesos existentes de
administración del ciclo de vida con
VMware vSANMicrosoft
Storage Spaces Direct
Ready Node
Para Microsoft Hyper-V en Storage Spaces Direct
VxFlex Ready Node
Para la flexibilidad de hypervisor con VxFlex OS
VMware
VxRail
Dispositivo listo para usar con
simplificación del ciclo de vida completo
La forma más fácil y rápida
de implementar un SDDC
de VMware
VxRack SDDC VxRack FLEX
Cuando el rendimiento y la
escalabilidad son la máxima
prioridad
Nube para
Microsoft Azure Stack
VxRack AS
HCI especialmente
diseñada para Microsoft
Azure Stack
Serie XC
Cuando las opciones de hipervisor son
un requisito
A escala de rack
Serie XC
Cuando Microsoft Hyper-V es un requisito
15-
ACELERACIÓN DE LA
TRANSFORMACIÓN
INTEGRACIÓN
TRANSPARENTE
SERVICIOS COMPLETAMENTE
CARGADOS
COMPLETAMENTE
CONFIGURABLE
UNA SOLA FUENTE DE SOPORTE
DEL CICLO DE VIDA DE PUNTO
A PUNTO
UNA
73 % 46 % 619 %
Costos menores
de las operaciones2
ROI de 5 años1Más rápido de
implementar1
1 IDC, octubre de 20172 Silverton Consulting, julio de 2017
Acelere la transformación de la TI con Dell EMC VxRailCon tecnología de los procesadores escalables Intel® Xeon®
16-
Velocidad de adopción de la nube
Ma
du
rez d
e la
nu
be
Modernización del centro de datos Nube privada Nube pública
HCI
Diseño de SDDC validado
Nube híbrida
Plataforma de SDDC integrada
BYO
VMware Cloud en AWS
Proveedores de nube de
VMware
Aceleración de la transformación de la TI en una infraestructura Multi-Cloud
17-
Liderazgo de Dell EMC en el sector
N.°En infraestructura hiperconvergente
y
convergente
Hablemos de CI
18-
Hazlo realidad: Dell EMC VxBlock 1000
El único sistema de Convergente todo en uno del sectorOpción de tecnología sin precedentes | Administración simplificada del ciclo de vida | Arquitectura perenne
Dell EMC Isilon Gen 6Dell EMC
VMAX
Dell EMC Unity
Servidores bladeCisco UCS
Servidores en rack Cisco UCSDell EMC
XtremIO X2
Switches LAN Cisco Nexus
Switches SAN Cisco MDS
La gama más amplia de arreglos de
almacenamiento líderes del mercado con
tecnología de los procesadores escalables
Intel® Xeon®
Servicios de datos optimizados para
todas las clases de cargas de trabajo
y objetivos de precio/rendimiento
Más de 1,000
configuraciones
de servidores de
procesamiento
Opciones de CPU y memoria
para satisfacer todos los
objetivos de precio/rendimiento
de las aplicaciones
Switches LAN y SAN
líderes del mercado
Alta escalabilidad de recursos
con rendimiento predecible
La suite más amplia de
soluciones de protección
de datos integradas
Protección para las
aplicaciones y los datos críticos
de producción y del sistema
Dell EMC PowerMax
Data Protection Suite
Administración convergente,
generación de informes
y coordinaciónSimplifica las operaciones diarias
para la transformación de la TI
19-
VxBlock System 1000
VxBlock 1000: Una nueva generación de CI
Agilidad del negocioCombinación adecuada de recursos y servicios de datos para las
necesidades de las aplicaciones en evolución
Eficiencia del centro de datosPool de recursos compartido para maximizar la utilización, eliminar
la capacidad anclada y aumentar el ROI
Simplicidad operacionalUna experiencia de sistema diseñada con garantía del ciclo de vida permite
la innovaciónCon tecnología de los
procesadores escalables
Intel® Xeon®
20-
Puntos clave para recordar
Las infraestructuras convergentes (CI) e hiperconvergentes (HCI) representan la forma más rápida y sencilla de modernizar el centro de datos1
La convergencia seguirá siendo un catalizador de la transformación. ¡No se quede atrás!3
La CI y la HCI ofrecen la agilidad, la escalabilidad y la simplicidad del negocio necesarias para mantenerse competitivo2
¿TIENE ALGUNA PREGUNTA?
22-