2010. október 19. rab gergely -...
TRANSCRIPT
22 April 2010
Worldwide market share data for calendar Q4 2009*
HP - LEADERSHIP ACROSS THE PORTFOLIO
*Sources (for details see Notes page):* Some data is as of other time periods based on data availability, see Notes for details. In general data is based on IDC CY09 Worldwide Quarterly Tracker Data (Server, PC, Workstations, Hardcopy Peripherals, Disk Storage, Switches, Services) and IDC CY08/09 Software and Services Data
MARKET SHARE POSITION
Blade Servers1 52.4% #1
x86 based Servers1 39.3% #1
Unix + Linux + Windows Servers1 34.2% #1
Branded Tape Drives9 43.6% #1
External Disk Storage Systems 16.3% #1
Open SAN Systems5 19.8% #1
Automated Software Quality1,6 41.1% #1
Distributed System Management Software1,7 15.4% #1
IT Asset Management Software1,6 21.2% #1
IT Services1.4,7,9 5.8% #2
Outsourcing1,7,9 7.9% #2
Support and Training1.7,9 7.0% #2
Ethernet Switches 5.0% #2
4
“HP Completes 3Com Acquisition, Creates New Networking Powerhouse”
Gartner, 27 April 2010
Gartner Recommends:
“HP networking should be considered for every network refresh situation in all midsize and large organizations”
“… the new HP networking organization represents a major force in enterprise networking”
Source: Gartner market share based on Q4 „09 port shipment data
Cisco49.5%
HP37.5%
Others13%
Leadership from Edge to the Data Center Core
DATA CENTER
CORE
EDGE
SECURITY
MANAGEMENT
Virtual Connect
SMB Wireless Campus
Edge Firewall
Network Node Manager
Operations Center
Operations Automation & Orchestration
Campus Core
Data Center CoreEdge End of Row
Core Routing Aggregation Enterprise Core
Edge Routing Enterprise
Data Center Threat Management Intrusion Prevention
Intelligent Management Center
6 Footer Goes Here
Web Managed Switches
HP V19x0HP V1810HP V1700
Unmanaged Switches
HP V14x0HP V2124HP V408
WLAN/WAN
HP V1xx Wireless Routers
Modular Switches
HP A12500HP A9500HP A7500
Top of Rack Switches
HP A5810HP A5820HP A6600
Server Blade Switch
HP A6120
Fixed Port Switches
HP A5800HP A5500HP A5120HP A36x0HP A3100HP Intellijack
Routers
HP A8800HP A6600HP A-MSR 50HP A-MSR 30HP A-MSR 20HP A7000
WLAN
HP A-WX5004 ControllerHP A-WA2xxx Access PointsHP A3000 Wireless SwitchesHP A9000 Access PointsHP A8760 Access PointHP A7760 Access Point
Management
IMCNNMiNA
Modular Switches
HP E8200HP E5400HP E4200
Fixed Port Switches
HP E5500GHP E4800GHP E3500GHP E2910GHP E4500GHP E25x0GHP E4200GHP E5500HP E3500HP E4500HP E2610HP E4210HP E2810HP E25x0
WLAN
HP E-MSM7xx ControllersHP E-MSM4xx Access PointsHP E-MSM3xx Access PointsHP E-M110 Access PointHP E-MSM317 Access Point
Unified Communications
HP UC ApplicationsHP VCX Connect PlatformHP VCX Enterprise PlatformHP VCX GatewaysHP 3x00 IP Phones
Security & Management
PCM/PCM+IDMNIMTMS zl Module
IPS
HP S5100NHP S2500NHP S1400NHP S660NHP S330HP S110HP S10HP Core Controller
Management
SMSHP SMS Controller
End-to-end solution portfolio
ADVANCED ESSENTIAL VALUE SECURITY
Advanced: For customers with large/complex deployments seeking advanced, full featured networking technology to drive competitive advantage with lower cost of ownership.
Essential: For customers seeking essential proven technology that‟s affordable and easy to use while providing scalability for future needs.
Value: For value-conscious customers seeking reliable and easy-to-use connectivity solutions.
Security: For companies that require world-class network Security solutions to proactively stop threats and deliver business continuity
Note: “x” in a product series name indicates multiple series numbers are available
7
OtherVendor
HPN
HP– CHANGING THE RULES OF NETWORKING
7
Modern Architecture
Operational Efficiency
Energy Efficiency
Capital Cost
• Fundamental and Sustainable Cost advantage
• Not just short term discounts
8
– Enterprise LAN (Global), 2010MAGIC QUADRANT:
HP Positioned in Gartner‟s
Leaders Quadrant
The Gartner Magic Quadrant is copyrighted June 2010 by Gartner, Inc., and is reused with permission. The Magic Quadrant is a graphical representation of a marketplace at and for a specific time period. It depicts Gartner‟s analysis of how certain vendors measure against criteria for that marketplace, as defined by Gartner. Gartner does not endorse any vendor, product or service depicted in the Magic Quadrant, and does not advise technology users to select only those vendors placed in the “Leaders” quadrant. The Magic Quadrant is intended solely as a research tool, and is not meant to be a specific guide to action. Gartner disclaims all warranties, express or implied, with respect to this research, including any warranties of merchantability or fitness for a particular purpose.
The Magic Quadrant graphic was published by Gartner, Inc., as part of a larger research note and should be evaluated in the context of the entire report. The Gartner report is available upon request from HP Networking.
Figure 1. Magic Quadrant for Enterprise LAN (Global)
Source: Gartner (June 2010)
©2010 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice
99
Source: Gartner (April 2009)
Source: Frost & Sullivan (April 2010)
HP TippingPoint: Industry-Leading Security
• Leader in Gartner 2009 IPS MQ
– Leader in Vulnerability
Discoveries in Frost &
Sullivan 2009 Report
10
Superior technology deployed around the world
Media, Internet Software
Telecom Health Care Government Education
Financial ServicesTransportation and Logistics
Manufacturing Oil and Gas Retail Hospitality
TORINO
©2010 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice
11
The New Rules of Networking…
Simplified network designs that are
twice as secure
Up to 2x better Performance for
greater flexibility
Open and up to 65%
lower cost of ownership
Advanced Fabric
for the
Converged Infrastructure
12
Business / IT initiatives
The network underpins all of these
major data center transformation efforts …
It must evolve and keep pace
Users, Customers
Virtualization
SOA/Web, Video apps
Cloud computing
Security & BC/DR
Mobility
13
Today‟s network architecture can‟t keep pace
LAN switching
Branch routing
Wireless
DC routing
DC switchingData traffic
Voice traffic
Converged fabric
Unified comms & collaboration
Cloud computing
Storage
Server virtualization
Video traffic
Desktop virtualization
Supply: Network upgrades
De
ma
nd
: N
etw
ork
se
rvic
es
Network
architecture
gap
14
HP Converged Infrastructure
A blueprint for the data center
Delivers a new level of simplicity, integration, and automation to accelerate outcomes that matter:
The result:• Faster Time to Revenue
• Lower Costs of acquisition and implementation
• Flexibly respond to business changes
• Lower RisksBuilt on industry
standards and choice
Delivering the data center of the future
15
HP FlexFabric
High Performance network for a converged infrastructure
Deliver “networking as a
service” to the HP Converged
Infrastructure
Accelerate deployment of
applications services
The result:• Accelerate Outcomes
• Flexibly respond to business changes
• Lower Risks
• Reduce costs of acquisition and
implementation
HP FlexFabric
HP Converged Infrastructure
16
Network convergence – role in I/O virtualization
What is a converged network?
• A single network capable of transmitting both Ethernet and storage traffic
What is required to converge Fibre Channel?
• Encapsulate FC frames into Ethernet Frames
– Fibre Channel over Ethernet (FCoE)
• Enhance Ethernet to ensure reliability in congested networks
– Converged Enhanced Ethernet (CEE)a.k.a. “lossless” Ethernet
17
CEE – Detailed description
17
Ethernet
DCB
• Data Center Bridging (DCB)
− Set of new/enhanced protocols that support multiple traffic classes over any standard IEEE 802 network
− Support lossy and lossless traffic classes
− Part of the IEEE 802.1 set of standards (LAN Bridging/Switching)
− Amendments to IEEE 802.1Q, Virtual Bridged Local Area Networks
o 802.1Qbb – Priority-based Flow Control (PFC)
o 802.1Qaz – Enhanced Transmission Selection (ETS)DCB Capability Exchange Protocol (DCBX)
o 802.1Qau – Congestion Notification (QCN)
DCB
+
Converged Enhanced
Ethernet (CEE)
• Converged Enhanced Ethernet (CEE)
− CEE is new Ethernet infrastructure that implements DCB
− The term “CEE” was coined by an ad hoc industry group that put together the original proposals for DCB to the IEEE
− There are hardware and software changes required for CEE, so legacy Ethernet gear is not designed for converged traffic
18
Industry path to convergence
2010 2011 20122009
Enabled
Networks
1 hop Multi-hop2 hop
Enclosure
& Top-of-rack
Top-of-rack enclosure aggregation
End-of-row rack aggregation
End-to-end
CEE/FCoE
CEE
FCoEFinal Ratified Spec Spec
Final Ratified Spec Spec
Final Ratified Spec Spec
Next Gen
ProductsCongestion management
CEE configuration protocol
INCITS T11.3 FC-BB-5
IEEE 802.1Qau
(QCN) & Qbb
(PFC)
IEEE 802.1Qaz
(ETS and DCBX)
19
What Are The Key Components Of An End-to-end, Converged Network?
Converged Network Adapter (CNA)
Converge traffic at the server
Replaces NICs, HBAs
Switches & Interconnects
Converge traffic over CEE. Split to connect to legacy
networks or connect to new FCoE switches and targets
Replace traditional Ethernet and FC switches
Target Storage
Natively connects to FCoE/CEE networks
Replace traditional FC storage
20
What is HP doing about FCoE and CEE?HP will deliver the converged edge
– Converging the fabric further with FCoE and iSCSI
– Even fewer interconnects to buy
– Even fewer interconnects to power
– Low power and lower costs CNA’s cards for backward compatibility
LOM
ChangeCostEnergyTime
21©2010 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice
Data center Switching Portfolio Overview
22
HP DATA CENTER SWITCH PORTFOLIO
Top of Rack / AccessA5820
• Top of Rack - Large Buffer and Cut Through Options, IRF, 10G, OAA, IPv6, FCOE Support
Data Center AggregationA9500
• Up to 48 10G/576G non-blocking
• OAA Application Modules (inc. multi-core)
• IRF, IPv6
Data Center CoreA12500
• 6.6/13.3 Tbps, up to 128 10G/864G non-blocking, high-density 10G, IRF, IPv6
• 40G/100G capability and FCOE support
23
HP A12500: 6.6 TBPS – 2.2 BPPS - TODAY.
– 128 10GE Line Rate L2, L3 IPv4, L3 IPv6,
MPLS
– Performance validated by Spirent with
Test Center using RFC2544
• 64 bytes packets
– Unicast/Multicast
– Typical Latency <10us
• Associated to small Jitter
– Combined to lower power consumption
• ~80W per 10GE line rate
23
24
HP DATA CENTER NETWORKS – CORE SOLUTION
A12500 - BEST IN CLASS PERFORMANCE (1) – VALIDATED BY SPIRENT
Layer 2 128*10GE full mesh test (*) Layer 3 IPv4 128*10GE full mesh test (*)
(* using RFC2544 as reference)
Layer 3 IPv6 128*10GE full mesh test (*) Layer 3 MPLS 128*10GE full mesh test (*)
25
HP A12500 “CLOS” ARCHITECTURE WITH LOAD BALANCING ALGORITHM FOR FABRIC DISTRIBUTION: TRUE NON BLOCKING
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
Line card Line cardSwitching network
IN_1 => OUT_1
IN_3 => OUT_4
IN_5 => OUT_2
IN_7 => OUT_3
1/3
Intelligent Scheduling -> fully Non Blocking Architecture
26
HP A9500
– The HP A9500 is a state-of-the-art Enterprise
Core Modular family
– Supports up to 192 ports 10 Gigabit and
576 ports Gigabit (fiber or copper)
– Future-proofed (40G/100G, FCoE, PoE+)
– Supports IRF/RRPP
– Common Comware OS and IMC
– High Performance OAA Modules
– Extensive High Availability and Security
– Extensive Layer 2 and Layer 3 features
– Low power consumption
27
HP A9500PLATFORM SUMMARY
Feature S9505E S9508E-V S9512E
Bandwidth (Mpps) 357.1 571.4 857.1
Fabric Slots 2 2 2
I/O Slots 5 8 12
Bandwidth per slot (Gbps) 120 120 120
Max 10G NB 20 32 48
Max 10G 4:1 80 128 192
Max Gig NB 240 384 576
28
HP A7500
28
– Perfect for the Small Data Center, Campus
Distribution and Access Layers
– Fully Distributed Forwarding Architecture
– Integrated PoE/PoE+ Power
– Scalable Performance and Features
– High Availability, including IRF™ and RRPP
– Comware V5
• Native IPv6 and MPLS support
– Applications Integration
– Voice and Wireless Convergence
– Optimized for Enterprise Applications
29
HP A7500PLATFORM SUMMARY
Feature A7502 A7503-S A7503 A7506 7506-V S7510E
I/O slots 2 2+1 3 6 6 10
Backplane (Gbps) 400 600 1,000 1,600 1,600 2,400
Switching Capacity (Gbps)
192 288 480 768 768 1,536
Forwarding (Mpps) 143 178 274 488 488 714
Fabric Redundancy YES NO YES YES YES YES
Max 10 Gig ports 16 16 28 52 52 84
Max Gig ports 96 120 168 312 312 504
30
HP A5820X / A5800 SERIES “FLEX-CHASSIS” Unprecedented modular resiliency and flexible service
delivery in a fixed form factor at a disruptive price point
Enables enterprises to rapidly and cost effectively provision
new connectivity and services at any layer of the network
with "No Compromise" performance and functionality
– Features:
• Flex-Chassis – modular resiliency in flexible platform
– Hot swappable I/O, power supplies and fans
• S5820X – up to 24 port 10Gig per unit / 216 per stack
• S5800 – up to 80 port 1Gig per unit / 720 per stack
• PoE models available, including field upgradable versions
• Highly Resilient (IRF, RRPP)
• High performance OSN application modules
Building or Department Enterprise Core, High Density
Aggregation and Access or Data Center Top-of-Rack Switch
31
HP A5820 / A5800PLATFORM SUMMARY
Feature A5820-24XG-SFP+
A5820-14XG-SFP+
A5800-24G / A5800-24G-PWR
A5800-48G / A5800-48G-PWR
A5800-24G-SFP
A5800-48G with 2 Slots
10Gig SFP+ 24 14 4 4 4 -
10/1000/1000BT 4 4 24 48 4 48
1Gig SFP - - - - 24 1
Ethernet Expansion Slots
- 2 1 1 1 2
OAA Slot - 1 - - - 1
Power Supplies 1 or 2300 Watt
1 or 2 300Watt
Fixed w/RPS Support
Fixed w/RPS Support
1 or 2 150Watt
1 or 2 300Watt or 750 Watt PoE
PoE Support - - Yes – PWR Model
Yes – PWR Model
- Yes – PoE Module Required
32
Advantage of IRF technology
High reliability, reduce single point failure effect.
High performance,
distributed L2/L3 protocol processing.
High management configuration, works like a
Fabric
One time software upgrade inside the stacked
group.
Hot swappable
IRF(Intelligent Resilient Framework)
=
H3C SWITCH 5820X AND 5800 FAMILY
ADVANCED STACKING FOR RESILIENT CONNECTIONS (IRF)
33
HORIZONTAL STACKING WITH FLEX CHASSIS TECHNOLOGYNO SINGLE POINT OF FAILURE FOR YOUR SERVERS CONNECTIVITY
EASIER TO DEPLOY & MANAGE
IRF links = 40 Gbps * 2 = 160 Gbps FD
Aggregation
Static/Dynamic (802.3ad)
34
SIMPLIFYING DESIGN & OPERATIONSRESILIENT VIRTUAL SWITCH FABRIC WITH H3C IRF – N physical devices seen as one logical device
• N devices sharing the same “topology” information
• Protocols see on single hop -> simplified design
– Active/Active Model for L2 & L3
• No STP/RSTP/MSTP/VRRP
• All links active at all times
• “Pre TRILL” implementation
– Ultra Fast Failover
• 20 times faster than RSTP/MSTP
– Geographically Distributed
• Limited by Ethernet/Fiber optical budget (10GE: 70kms)
– One single IP/configuration file for management
• Simplified Operations – OPEX reduction
– Consistent approach across product portfolio
• S12500, 9500E, 7500E, S5800, S5820x, etc
+
=
Physical SW 1
LOGICAL SWITCH
Physical SW 2
35
RESILIENT VIRTUAL SWITCHING FABRIC: ARCHITECTURE SIMPLIFICATION
IP address Peer
9 segments,42@IP
addresses (including
Loop back interface)
Any link failure will
cause topology change
Dynamic
Routing AreaMulti-routing Area
Large Number of
Devices
Complex Routing
Design
Inconsistent in
and out path
Only 2 segments,11 IP address
(including Loop back
Interface)
Link failure will not
cause topology
change
Simple Routing Area
Few logical nodes,
point to point routing
neighbor
Single logical link
between Layers
Simplified
Forwarding Path
BEFORE AFTER
36
Changing the Rules of Networking
Before IRF
STP / RSTP / MSTP
VRRP
Active / Standby
Trunking / LACP in point to point mode
Failover time incompatible with business critical applications
Different failover technologies for different layers
Different technologies for different protocols / phased approach for different protocols
After IRF
No STP / RSTP / MSTP Required
No VRRP Required
Active / Active (L2 / L3)
Distributed Trunking / LACP in Point to Multipoint
<50ms Failover Times
Consistent approach for every layer
Consistent approach for every protocol
- Unicast / Mcast / IPv4 / IPv6, etc…
Network simplicity
37
IRF COMPETITION & COMPARISON
37
HP IRF Cisco VSS Cisco vPC Juniper VC
Maturity >10 years (XRN) Recent Recent Recent
Management One IP per IRF
domain
One IP, limited to
2 boxes (6500
only)
Each Chassis still
managed
separately
One IP for up to 10
devices
Recovery Time <50ms (Most time
way less!)
~300ms (per
Network World)
~TBD Sub second
Implementation CONSISTENT
across the product
line
6500 only with
specific HW (1440
Sup).
Not compatible
with N7000 (vPC)
Nexus 7K Only Available on the
edge (EX4200),
roadmap for core
(EX8216)
Protocol Support IPv4, IPv6, MPLS Phased approach
with limitations
Only Layer 2,
HSRP/VRRP Still
Required for L3
Phased approach
with limitations
Additional Cost None – Included in
ComWare
VSS Specific
Supervisors and
VSS License
Required
Base, Enterprise
and Advanced
Licenses required
Advanced License
Required
38
MANAGEMENT AND OPERATIONAL CONSISTENCY –
COMWARE ™
All H3C switching, routing
and security platforms
leverage a common,
unified modular OS –
Comware™:
•OPEX Savings
–Train technical staff once
to manage entire portfolio• High Reliability
–State-of-the-Art Unified Code Base
• Faster Time-to-Market
–Engineering efficiencies allow us to rapidly bring new and custom
features to market with better initial and ongoing stability
• Modular Architecture
–Easy to enhance and extend feature set without wholesale
changes
Level 3 CMMI Certified
39
Cat 2960 – 3750E
IOS-SG / Stackwise /
FlexStack
CAT 4500
VSS/NoneIOS-SX,
CAT-OS
ISR ASR
IOS-
mainlineIOS-XE
Product
Protocols /
Management
OS, Releases
IPSASA 55xx
LinuxPIX-OS
7.x
FWSM
PIX-OS
6.x
Edge Access Aggregation/Core Security/Wireless Campus Router
A5800/A5500/
A5120/A3xxx A9500/A7500 A6600/MSR
Comware v5 Comware v5 Comware v5
Product
Protocols /
Management
OS, Releases
WLAN/TP
Comware v5/TOS
IRF & IMC
STP, RSTP, Rapid-PVST, VSS, vPC , RPR, VSS, Stackwise (Plus) , FlexStack…
Cisco Works, Access Switch Mgt, 6500 Mgt, Security Mgt, WLAN Mgt
HPN Simplifies the Campus LAN
CAT 6500
40
VLAN
20
VLAN
30
VLAN
40VLAN
10
VLAN
10-40
VLAN
110 - 140
VLAN
10-40
VLAN
110 - 140
Core
HP NETWORKING/TIPPING POINT – INTEGRATED SOLUTION
A5820X-28C
Top of Rack Switch
TippingPoint
IPS
VLAN Translation
TippingPoint
IPS
S9505E
Virtual Switch
S9512ES / 12500E
Virtual Switch
• Simplified, Secure and Highly Resilient Networks
• Scalable High Performance IPS Protection
• Cost Effective Secure Fabric
• Reduced Management Overhead
• Multiple Active Paths provide Higher Performance
• End to End Virtualization
• Demonstrated HA
TippingPoint
IPS Blade
OR
TippingPoint
IPS Blade
41
TIPPINGPOINT SECURE VIRTUALIZATION FRAMEWORK
FULL PHYSICAL & VIRTUAL SEGMENTATION
1. Isolate Physical Hosts
• IPS Platform & VLAN Translation
2. Isolate Virtual Hosts through offload to IPS appliance
• vController & IPS Platform
• Offload inspection to high performance IPS Platform appliance
3. Isolate Physical and Virtual Hosts natively from within the VM
• vIPS
• Inspection scales with DC expansion
Shared
Tape
Shared
Storage
Virtual DC
Hosts
ERP
DB
CRM
HR Apps
ERP
DB CRMHR Apps
VDIWeb Apps
Virtual Machines
IPS Platform
Physical DC
1. IPS VLAN TranslationIsolates Physical Servers
IPS Platform
Hypervisor-VM Safe Kernel
vIPS
3. vIPS Isolates VMs and Hosts
Core
2. vContoller & IPSIsolate VMs and Hosts
vController
42
GREEN IT: POWER EFFICIENCY ADVANTAGE
S7506EIndustry
Average
Product 10G NB KW W/10G
HPN A12508 64 5.1 79.7
HPN A12518 128 10.3 80.5
Juniper 8208 64 6 93.8
Force10 E1200 56 5.7 101.8
Force10 E600 28 3.2 114.3
Foundry RX32 128 16.7 130.5
Cisco Nexus 7018 128 18 140.6
Foundry RX16 64 11.3 176.6
Cisco Nexus 7010 64 12 187.5
• HPN’s S5500-EI, A5820, S7506E, and A12508 all have earned Miercom’s Green Certification
– Up to 40% more efficient than comparable models based on Industry Average
– Up to 24% annual cost saving depending on model
“The HPN S7506E switch
reduces costs and minimizes
environmental impact through
many energy-saving attributes”
Rob Smithers, CEO Miercom
423Com Confidential
43
INTELLIGENT MANAGEMENT CENTER (IMC)
– What ?: IMC is a Fully integrated management platform that not only delivers full FCAPS functionality, but through its Service Orientated Architecture (SOA) & modular design enables highly integrated modules to deliver new functionality to control resources, services and users
– Why?: The IMC provides a single common platform for which 3Com/H3C can rapidly introduce new technologies and products
– Positioning: The various platform offerings and modules allow IMC to be sold to ANY and ALL customers from the SMB to the Service Provider
– Benefits:
• Lower TCO
• Business Continuity
• Defense in Depth management and enforcement
43
44
44
IMC– RESOURCE, SERVICE AND USER INTEGRATION
Resource
User
S
Service
Home
Overview of network, user and service information
Integrated management of network resource, fault and performance information
User
Unified management of user access and user security
Process-based service flow management
ServiceNetwork
45
IMC - SINGLE PANE MANAGEMENT FOR THE ENTIRE NETWORK
– Supports HP and 3rd party devices
• Includes comprehensive support for Cisco devices
– Fully integrated, comprehensive Management platform
• Based on a Resources, Services and Users model
• Delivers full FCAPS solution
• Designed to support ITIL initiatives
– Rich Enterprise class functionality
• Data Centre Orchestration
• User Access Management (UAM) & Endpoint Admission
Defence (EAD)
• MPLS, VPLS, MPLS VPN & Wireless Management
– Client Server & Service Orientated Architecture (SOA)
• Enables highly integrated modules to deliver new
functionality
46
COMPREHENSIVE MANAGEMENT OF CISCO DEVICES– IMC provides comprehensive management of Cisco devices
• Discovery & Topology
• Monitoring & Performance Management
• Data Center Orchestration
• Events & Traps
• Configuration Backup & Restore
− Configuration comparison
− Base-lining and change notification
• Bulk Configuration
– Single management solution for mixed HP & Cisco networks
• Simplifies Cisco / HP interworking & transitions
• Support for >2000 3rd party devices
• New device can be added in <1 week
47
H3C DC ORCHESTRATIONVMWARE INTEGRATION - HIGH LEVEL OVERVIEW
VMware
ESX/vSphere
(Virtual Machines)
IMC
Data Center
Module
VMware
Management
vCenter
VMware
vCenter
APIs
(VI APIs)