Presentación de Carlos Spera.

1. Data Center
BYOD & VDI
Carlos Spera
BDM – Data Center
Logicalis Southern Cone

2. ¿De qué se trata BYOD?
Aplicaciones
Dispositivos con personales y
Redes y acceso
gran laborales que
publicas y privadas
procesamiento, facilitan la
de buena calidad
livianos y agiles comunicación y
operación
Soluciones para móviles
1

3. Desafíos y expectativas
CIO
• Productividad de los empleados
• Ventajas competitivas a través de nuevas tecnologías
• TCO
IT / Desktop Manager
• Control Managment y Seguridad
• Velocidad y versatilidad en nuevos deployments
Usuario
• Experiencia en su plataforma nativa
• UE en cualquier lugar, momento y dispositivo
• Espera misma calidad dentro y fuera de la red
2

4. ¿Por qué incorporar dispositivos a la red?
Drivers top para incorporar políticas de BYOD
1. Atraer y retener talentos a través
de nuevas formas de trabajo y
aplicaciones personales aplicadas
al trabajo diario (flexibilidad
laboral)
2. Aumentar la productividad como
objetivo estratégico e
incorporando movilidad al espacio
de trabajo
3. Reducir a futuro el TCO en PC y
otros dispositivos sumado a bajos
costos en management y fácil on
boarding de nuevos empleados
Fuente: Citrix
3

5. Tendencias Móviles
Fue el crecimiento de venta de Smartphones respecto de
2010, además, fue el primer año en que se vendieron más
65% unidades que PC en el mundo
De las empresas consultadas admiten
que alguno de sus empleados usan por
92% lo menos un dispositivo móvil para
realizar tareas laborales
De los trabajadores de esas empresas
28% usan por lo menos un dispositivo móvil
para realizar tareas laborales
4

6. Arquitectura de soporte de dispositivos
Dispositivos
Políticas Seguridad
Device Managment
RRHH Conectividad
Firewall Wireless Wired QOS
Legal
Data Center
Políticas de ISE
Aplicaciones IT Infra Virtualización
soporte
5

7. Plataforma de Seguridad
Políticas
Lo que
no debe Identificar
faltar
Mobile
Management
6

8. Etapas de desarrollo según la visión de la compañía
Restringir /
Permitir Incentivar Transformar
Controlar
Ambiente con alto nivel Acceso Servicios diferenciados Gerenciamiento
de control ilimitado, servicios y seguridad completo y
básicos Colaboracion
▪ Solo dispositivos ▪ Varios métodos de
corporativos ▪ Acceso a múltiples acceso ▪ Múltiples dispositivos
▪ Restricción de acceso a dispositivos ▪ Escritorio virtualizado por usuario
aplicaciones ▪ Internet y aplicaciones ▪ Servicios corporativos ▪ Escenarios de
▪ Bajo nivel de personales con aplicaciones de colaboración de
colaboración ▪ Acceso corporativo y negocio presencia, video y
Guest documentos
7

9. VDI Conceptos…
8

10. Beneficios de mover el escritorio al DC
9

11. Virtualización de aplicaciones
10

12. ¿Cuáles son las tendencias tecnológicas?
 VDI – (Desktop/Aplicaciones) (PCoip vs ICA ?)
 Server virtualization.
 Server mobility (inter & intra DCs).
 Segurizacion de Virtual Servers Farm (Trafico Este-Oeste)
 Aceleracion y optimizacion de aplicaciones.
 Soluciones de deduplicacion de informacion
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 11

13. Cisco Nexus
Data Center Switching

14. Cisco Nexus 5500 Series Switches
Breakthrough Innovation
Multi-protocol
 Ethernet (1/10 GbE) + Storage (FC, FCoE, iSCSI, NAS)
Multi-Layer and Highly Scalable
 48 & 96 port models in 1RU & 2RU
 FEX-link - Over 900 100 M/1 GbE & 600 10 GbE ports
 FabricPath & Layer 2 /Layer 3
Multi-purpose
 Traditional Ethernet, virtualized and unified pods
 Massively scalable server access or mid- market
aggregation
Industry’s Highest Density &
Performance for Fixed Switches

15. NX-OS: Designed for the Data Center
IOS
Catalyst 6500
CatOS
Nexus 7000/5000/1000V
NX-OS
SAN-OS
MDS 9000
Business and Technology Working as One

16. Scalability
Increased FEX, MAC,
VLAN, Multicast
scalability Versatility
Layer 3 Routing
or Layer 2 Cisco
FabricPath ready
Performance
Highest density 10G
switch with wire-speed
performance and low Flexibility
latency
Unified Ports gives
users the flexibility to
customize different
personalities for each
port
Cisco Nexus 5548UP / 5596UP

17. Unified Ports
Dynamic and Efficient Port Allocation
Availability
 16-port Expansion Unified Port
Module on the Nexus
5548, 5548-UP and
5596-UP
 All Ports on the Nexus
5548-UP and 5596-UP
Native Lossless Ethernet –
Benefits FC FCoE, iSCSI, NAS
 Simplify switch Use-cases
purchase - remove
 Flexible LAN & storage
ports ratio guess work
convergence based on
 Increase design business needs
flexibility
 Service can be adjusted
 Remove specific based on the demand for
protocol bandwidth specific traffic
bottlenecks

18. Nexus 5500 GEM Expansion Modules
16 ports
1/10 GE
8 ports
1/10 GE
+
8 ports
1/2/4/8 G FC
16 ports
Unified
1/10 GE or 1/2/4/8 G
FC

19. Introducing Layer 3 Capabilities
Enabling new Nexus 5500 deployments
N55-D160L3
• Daughter-card for Nexus 5548P & N5548-
• In-rack upgradeable for deployed units
• Enables Layer 3 on all 48 10GE ports
• 160Gbps (240Mpps) of Layer 3 processing
• Additional 100W power consumption
N55-M160L3
• Expansion module for Nexus 5596P
• No front-panel ports
• Enables Layer 3 on all ports of 5596P
• 160Gbps (240Mpps) of Layer 3 processing
• Expandable to 480Gbps of processing*
• Functions as 48 port Linerate router*
• Not compatible with 5548P
• Additional 100W power consumption per
module
* Enabled in future with software upgrade

20. Cisco Nexus 5500 Platform
Layer 3 Routing Capabilities
Unicast Routing: Connected, Static, RIPv2, EIGRP,
OSPF, BGP, FHRPs, 8K Routes, 8K Adjacencies
Multicast Routing: PIM-SM, IGMP v2/3, MSDP, 2K
IGMP Groups
Interfaces: L3 Routed interfaces and Sub-Interfaces
on N5500 ports, SVI routing for all other interfaces
Security & Segmentation: VRF-Lite, Routed ACLs,
Unicast RPF (uRPF)
QoS: Modular QoS CLI, Deficit Weighted Round
Robin (DWRR), Ingress Policing*

21. Data Center Access Layer Options
Top of Rack (ToR)
• Typically 1-RU servers
• 1-2 GE LOMs
• Mostly 1, sometimes 2 ToR switches
• Copper cabling stays within rack
• Low copper density in ToR
• Higher chance of East-West traffic hitting
aggregation layer
• Drives higher STP logical port count for
aggregation layer
• Denser server count
Middle of Row (MoR) (or End of Row)
• May be 1-RU or multi-RU servers
• Multiple GE or 10GE NICs
• Horizontal copper cabling for servers
• High copper cable density in MoR
• Larger portion of East-West traffic stays
in access
• Larger subnets  less address waste
• Keeps agg. STP logical port count low
(more EtherChannels, fewer trunk ports)
• Lower # of network devices to manage
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 20

22. Cisco Nexus 2000 Series
Platform Overview
N2248TP N2232PP
48 Port 100/1000M Host 32 Port 1/10G FCoE Host
Interfaces Interfaces
4 x 10G Uplinks 8 x 10G Uplinks
FET-10G
Cost Effective Fabric Extender
Transceiver
N2224TP
24 Port 100/1000M Host
Interfaces
2 x 10G Uplinks
N2232TM
32 Port 1/10GBASE-T Host
Interfaces
N2148T 8 x 10G Uplinks (Module)
48 Port 1000M Host
Interfaces
4 x 10G Uplinks

23. Cisco Nexus 2000 Fabric Extender (FEX)
Model Nexus 2232PP- Nexus 2232TM-
Nexus 2148T Nexus 2224TP Nexus 2248TP
10G 10G
Product Shipping Yes (Q1CY09) Yes (Q3CY10) Yes (Q2CY10) Yes (Q2CY10) Roadmap (Q2CY11)
Form Factor 1 RU 1 RU 1 RU 1 RU 1 RU
Uplink Ports 4 x 10GbE SFP+ 2 x 10GbE SFP+ 4 x 10GbE SFP+ 8 x 10GbE SFP+ 8 x 10GbE SFP+
Uplink Transceivers Copper CX-1 (passive): 1m, 3m, 5m. Copper CX1 (active): 7m, 10m
Supported Optical: FET (Nexus 2200 platforms), SR, LR
Host Facing Ports 48 x 1GbE RJ45 24 x 100/1000Base-T 48 x 100/1000Base-T 32 x SFP/SFP+ (1/10G) 32 x 1/10GBase-T RJ45
(note: 1000BaseT only) RJ45 RJ45
FCoE N/A N/A N/A Yes No
Dimensions 1.72 x 17.3 x 20.0 in 1.72 x 17.3 x 17.7in 1.72 x 17.3 x 17.7in 1.72 x 17.3 x 17.7 in 1.72 x 17.3 x 17.7 in
Operational Power 165W 80-95W 95-110W 225-270W 350-415W (10GT 100m)
215-260W(1GT)
Supports FET No Yes Yes Yes Yes
Multiple PortChannel Not Supported Yes Yes Yes Yes
member ports on a
FEX
Scalability 1152 GbE Ports per N5K 576 GbE Ports per N5K 1152GbE Ports per N5K 768 10GE Ports /N5K 768 1/10GbT Ports per
768GbE Ports per N7K 1536 GbE Ports per N7K 1024 10GE Ports /N5K N5K
Number of FEX 24 FEX per N5500 24 FEX per N5500 24 FEX per N5500 24 FEX per N5500 24 FEX per N5500
32 FEX per N7K (Delhi) 32 FEX per N7K 32 FEX per N7K (Delhi)

24. © 2010 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 23

25. Cisco UCS
Unified Computing System

26. Cisco Unified Computing System Product Portfolio
Cisco UCS Blade Cisco UCS Rack UCS Manager
Servers Servers  Single Management Domain
 Best-of-Breed innovations  Industry leading performance  Dynamic provisioning of
 Exceptional scalability  Choice of UCS form factor server, storage and network
 Hardware State Abstraction  “Stateless” computing with
(Service profiles) service profiles
6100 and 6200 Series Virtual Adapters 2100 and 2200 Series
Fabric Interconnects  Consolidates multiple NICs Fabric Extenders
 High performance scalability and HBAs  Data center network
 Low latency multi-purpose  VM-FEX : VM Aware convergence
Ethernet-based Fabric Networking  Simplified Connectivity
 Data center network  Pass Through Switching &  Exceptional Bandwidth
convergence. Hypervisor Bypass

27. UCS Ecosystem
Enterpris
Applications
e
Vertical
Markets
Database &
Middleware
Management
Virtualization
Operating
System
s
Storage
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 26

28. System Components
• Fabric Interconnect
Up to 96 unified ports: Ports can be
configured as either Ethernet or Native FC
SAN LAN MGMT SAN Ports
G G S S G G • UCS Manager
Fabric Fabric
A
Interconnect
A
Interconnect Embedded device manager for family of UCS
G G G G G G components
UCS
Manager
Chassis
Compute Chassis
Fabric Extender C
R I
Compute Chassis
C Fabric Extender
I R • Chassis
Up to 8 half width blades or 4 full width
blades
M
Adapter B
P
Adapter B
P
Adapter
• Fabric Extender
Up to 160Gbs Flexible bandwidth allocation
X X X X X X
x86 Computer x86 Computer
• I/O Adapter(s)
Virtualized adapter for single OS and
hypervisor systems
Compute Node Compute Node
(Half slot) (Full slot)
• Compute: Blade or Rack Mount Server

29. UCS Components
SAN LAN MGMT SAN
G
Fabric
G S S
Fabric
G G  Cisco UCS
A A
Interconnect Interconnect
G G G G G G UCS Manager
UCS
Manager Interconnect
Chassis
Compute Chassis
Compute Chassis
Fabric Extender C
R I C Fabric Extender
I R Fabric Extender
Chassis
Compute Node(s)
M
Adapter B
P
Adapter B
P
Adapter
IO Adapter(s)
X X X X X X
x86 Computer x86 Computer
Compute Node Compute Node
(Half slot) (Full slot)

30. Unified Computing System Manager
 Embedded device manager for family of UCS components
 Enables stateless computing via Service Profiles
 Efficient scale: Same effort for 1 to 1000s blades
 APIs for integration with new and existing data center infrastructure

31. Stateless Computing – Service Profile
•RAID settings
•Disk scrub actions
•Number of vHBAs
•HBA WWN assignments
•FC Boot Parameters
•HBA firmware
•FC Fabric assignments for HBAs
•QoS settings
•Border port assignment per vNIC
•NIC Transmit/Receive Rate SAN
Limiting
•VLAN assignments for NICs
•VLAN tagging config for NICs
•Number of vNICs
•PXE settings LAN
•NIC firmware
•Advanced feature settings
•Remote KVM IP settings
•Call Home behavior
•Remote KVM firmware
Server UUID
•Serial over LAN settings
•Boot order
•IPMI settings
•BIOS scrub actions
•BIOS firmware
•BIOS Settings

32. Programmable Infrastructure
 Comprehensive XML API, standards-based interfaces
 Bi-Directional access to physical & logical internals
Self Serve portals
Management Tools
Auditing Tools
Direct UCS CLI UCS GUI 3rd Party Customer
XML API
System Status
Physical Inventory
Logical Inventory
• Broad 3rd party integration support
• Faster custom integration for customer use cases
• Consistent data and views across ALL interfaces

33. UCS Components
SAN LAN MGMT SAN
G
Fabric
G S S
Fabric
G G  Cisco UCS
A A
Interconnect Interconnect
G G G G G G UCS Manager
UCS
Manager Interconnect
Chassis
Compute Chassis
Compute Chassis
Fabric Extender C
R I C Fabric Extender
I R Fabric Extender
Chassis
Compute Node(s)
M
Adapter B
P
Adapter B
P
Adapter
IO Adapter(s)
X X X X X X
x86 Computer x86 Computer
Compute Node Compute Node
(Half slot) (Full slot)

34. Cisco UCS Fabric Interconnects
Cisco UCS 6100 and 6200 Series Fabric Interconnects: Generation Comparison
Feature Cisco UCS™ 6100 Cisco UCS 6200
Series Series
Flash memory 16-GB eUSB 32-GB iSATA
DRAM 4-GB DDR3 16-GB DDR3
Processor Single-core Celeron 1.66 GHz Dual-core Jasper Forest 1.66
GHz
Number of ports per unified port controller (UPC) 4 8
Number of virtual interfaces (VIFs) per UPC 128; port fixed 4096 programmable
Flexibility
Buffering per port 480 KB 640 KB
VLANs 1000 1000 (4000 future)
Active SPAN sessions 2 4 (with dedicated buffer)
Performance Latency 3.2 microseconds 2 microseconds
MAC address table 16,000 16,000 (32,000 future)
Data Center Bridging (DCB) forwarding Future Future
Layer 3 switching No Future
IGMP entries 1000 4000 (future)
PortChannels 16 48 (96 in 6296)
Cisco® FabricPath No Future

35. UCS Components
SAN LAN MGMT SAN
G G S S G G
Fabric
A
Interconnect
Fabric
A
Interconnect
 Cisco UCS
G G G G G G
UCS Manager
UCS Manager
Chassis
Compute Chassis
Compute Chassis
Interconnect
Fabric Extender
R I C C Fabric Extender
I R
Fabric Extender
Chassis
Compute Node(s)
M P P
Adapter Adapter Adapter
B B
IO Adapter(s)
X X X X X X
x86 Computer x86 Computer
Compute Node Compute Node
(Half slot) (Full slot)

36. Cisco UCS 2100 Series and 2200 Fabric Extenders
2104/2204, and 2208 Fabric Extender
 Connects UCS blade chassis to the Fabric Interconnect
 Four or eight 10 Gigabit Ethernet, FCoE capable, SFP+ ports
 Up to 2 Fabric Extenders per chassis for redundancy and up to 160 Gbps of
bandwidth per chassis
 Hardware based support for Cisco VN-Link technology
 Fully managed by UCS Manager through Fabric Interconnect

37. Ejemplo reduccion de cables
LAN SAN A SAN B LAN SAN A SAN B
8 4
2
2
Nearly twice
the Cables
16 Servers Enet FC Total 16 Servers Enet FC Total
Adapters 20 20 40 Adapters 20 0 20
Switches 2 2 4 Switches 2 0 2
Cables 40 40 80 Cables 40 0 40
Mgmt Pts 2 2 4 Mgmt Pts 2 0 2
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 36

38. Wire once - Throughput
1st Generation 2nd Generation
40 Gig
80 Gig
per fabric
Per fabric
2104XP 2208XP

39. Cabling Comparison (System in Production)
UCS
Legacy - HP
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 38

40. UCS Components
SAN LAN MGMT SAN
G G S S G G

Fabric Fabric
A
Interconnect
A
Interconnect Cisco UCS
G G G G G G
UCS Manager UCS Manager
Chassis
Fabric Extender
R I
Compute Chassis
C
Compute Chassis
C Fabric Extender
I R
Interconnect
Fabric Extender
Chassis
M P P
Compute Node(s)
Adapter B Adapter B Adapter
IO Adapter(s)
X X X X X X
x86 Computer x86 Computer
Compute Node Compute Node
(Half slot) (Full slot)

41. UCS 5108 Blade Chassis
Chassis
 Up to 8 half slot blades
 Up to 4 full slot blades
 4x power supplies, N+N grid redundant
 8x fans included
 2x UCS 2104/2204 or 2208 Fabric Extenders
 All items hot-pluggable

42. UCS Components
SAN LAN MGMT SAN
G G
Fabric
A
S S
Fabric
A
G G
 Cisco UCS
Interconnect Interconnect
G G G
UCS Manager
G G G
UCS Manager
Chassis
Compute Chassis
Compute Chassis
Interconnect
Fabric Extender
R I C C Fabric Extender
I R
Fabric Extender
Chassis
M
Adapter B
P
Adapter B
P
Adapter
Compute Node(s)
IO Adapter(s)
X X X X X X
x86 Computer x86 Computer
Compute Node Compute Node
(Half slot) (Full slot)

45. Resumen de ventajas de Cisco UCS
Single Point of Management
Unified Fabric
Expanded Memory Virtualized Adapters Service Profiles

46. Logicalis integrador de Data Center
Infraestructura Data Center IT Data Center
Networking

47. ¡Muchas Gracias!
@carlosspera