In this webinar, Chandra Pandey, VP of Platform Solutions, and Joel Daly, Director of Solutions Marketing, will discuss how BTI™ Intelligent Packet Optical Solutions enable massive scalability with ultra low latency, accelerate service delivery with high availability while reducing capital and operational costs.
Webinar: Learn How To Deploy High-Scale, Low-Latency Cost-Efficient Solutions For Data Center and Cloud Connect Applications
1. Data Center and Cloud Connect Applications
Deploying High-Scale, Low-Latency
Cost-Efficient Solutions
Chandra Pandey | VP of Platform Solutions
Joel Daly | Director of Solutions Marketing
2. A Game-Changing And Permanent Shift
Communication devices
Mobility
Over-the-top applications
Internet video
Cloud communications
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3. The Right Choice To Support Shift
Nano Seconds
Single Platform
High Performance
Compact, Low Power
Reliable, Predictable
1 to 800 Gbps
25-50% Saving
CapEX and OpEX
Pay As you Grow
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4. Topics
Business Requirements
Market Drivers
Finding the Right Solution
Case Study
Audience Q&A
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5. Business Requirement
Low latency interconnect for high performance computing
10G to enable virtual m/c, SAN, NAS across DC
Business continuity and disaster recovery
DC expansion/consolidation for better applications
performances
Load balancing across DC
Power and cooling efficiency
Virtualization
Data storage and replication
Global collaborative services
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6. Market Drivers
Lower cost will drive the higher level of virtualization
Clouds migration for cost efficiency
Virtualization, virtualization, virtualization
Green, green, green
Cloud/DC HW spend growth
– $94B in 2011
– Growing to $147B in 2016
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7. Benefits and Challenges
Model A
Choosing the right model
– Ultra-low latency across DC for
SAN/NAS/HPC = higher performance for
all the applications
– Facilitates VMotion beyond data center
(long distance “live” migration)
– Shared SAN across data centers
Choosing the wrong model
– Poor applications performance
– More resources, poor utilization
– Increase cost
Model B
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9. Current approach
Add multiples ports on Routers and add additional wavelength
across the DC if team was able to isolate the issues is related to
DCI
– Most of the time its hard to isolate the issue to DCI and first point of
attack is let’s add additional servers, memory, storage etc.
DC Interconnect without ultra low latency does not improves the
performance much
– Servers/VMs still spend significant amount of cycles 50% waiting
for IO transactions to complete or retry after time-out
DC Interconnect with ultra low latency not only improves the
performance of the IO transaction significantly but also improve
the overall transaction rate significantly so less numbers of VM
resources needed reducing both CapEx and OpEx
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10. Current Approach
Router, Muxponders, Transponders, ROADM
Router Site A
Optical Transport
Centralized NMS
Site B
Optical Transport
Site C
Router
ROADM Optical Transport
Router
RING
GE/FC
GE/FC-x Port Muxponders
GigE/10GE
10GE Router Port Transponders
xD ROADM
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11. Right Solution
Ultra Low Latency across the DC i.e. no significant latency
addition beyond the fiber delay
– Better performance achieved from all the DC infrastructure low
CAPEX for HPC/SAN and lower OPEX power due to load sharing
and better utilization less number of servers, LAN ports needed
Packet Optical solutions to minimize the numbers of wavelength
and routers ports “Significant Saving”
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12. Integrated Packet Optical DCI
Packet Engine + ROADM
Site A
Intelligent
Packet Optical
Platform
Centralized NMS
Site B Site C
ROADM
RING
Packet Engine
10/40/100GE Packet Engine +
FC-x, OC-x, OTN-x xD ROADM
ROADM or
SD/HD-SDI Ports Transponder P-t-P
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13. Intelligent Packet Optical based DCI
Minimize the services edge routers ports
Multipoint to multipoint connectivity Common Management
Statistical multiplexing
No STP i.e. all links are active!
Sub-50ms protection (Integrated OAM)
True data center extension Integrated Packet Optical
Provide a highly flexible and highly
available data center
Live migration non-disruptive
Continuous data availability
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14. Cloud Connect and Data Center Interconnect
BTI proNX Suite
Data Center 1 Data Center 2
Reference
Architecture
10 Ge
1 Ge
2x/4x FC
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15. Statistical Multiplexing gain
74xGE 15x10GE 74xGE 15x10GE
4:1 statistical multiplexing
75% reduction in WDM optics
25% reduction in overall cost
GE
Packet Engine
Muxponders
10GE Packet Engine
Transponders
xD ROADM xD ROADM
224 Gbps 56 Gbps
23 wavelengths 6 wavelengths
(4:1 stat mux gain)
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16. Intelligent Packet Optical Transport DCI (Redundancy + HA)
Sub-50ms protection
– Unprotected
– Client
cross-card LAG
– Line
1:1 optical protection
Active/standby or active/active
Integrated OAM (Y.1731)
– End-end service visibility
– Service performance (availability, latency, jitter, packet loss)
– Troubleshooting tools (loopback, link trace)
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17. Cloud Connect Solution
BTI proNX Suite
Data Center
Cloud Connect
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18. VMotion across DCI/Cloud
Data Center 1 Data Center 2
Routed Traffic
Continuity During
VMotion
10 Ge
1 Ge
2x/4x FC
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19. LAN Extension across Data Center
BTI proNX Suite
Data Center 1 Data Center 2
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20. Low Latency Native SAN Extension
Native Fiber Channel / Storage Extension
BTI proNX Suite
Data Center 1 Data Center 2
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22. Operational Simplicity for DCI solution
1 - Select Ports
2 – Confirm Ports
3 – Progress indication
4 – Status
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24. Case Study
Customer Type: Leading Global Web2.0 / Cloud Computing Company
Application: Very High Capacity 10G Optical Transport
System Configuration: Point to Point. 10GE. 80Ch DWDM.
BTI Competitive
Compact High Density Solution, Low Latency, Cost Effective
Advantages:
Sample Nodal System Configuration
West Span North Span East Span
7200 7200 7200
SCP | MSI | CCM SCP | MSI | CCM SCP | MSI | CCM
1 2 1 2 1 2
3 4 3 4 3 4
5 6 5 6 5 6
7 8 7 8 7 8
9 10 9 10 9 10
11 12 11 12 11 12
13 14 13 14 13 14
15 16 15 16 15 16
17 18 17 18 17 18
19 20 19 20 19 20
7200 7200 7200
CCM CCM CCM
1 2 1 2 1 2
3 4 3 4 3 4
5 6 5 6 5 6
7 8 7 8 7 8
9 10 9 10 9 10
11 12 11 12 11 12
13 14 13 14 13 14
15 16 15 16 15 16
17 18 17 18 17 18
7200
19 20
CCM
7200
19 20
CCM
7200
19 20
CCM
800G System per Span
1 2 1 2 1 2
3 4 3 4 3 4
Each system consists of up to 40 units of 10G Dual
5 6 5 6 5 6
7 8 7 8 7 8
9 10 9 10 9 10
11 12 11 12 11 12
13 14 13 14 13 14
15
17
19
16
18
20
15
17
19
16
18
20
15
17
19
16
18
20
TPRs resulting in 800G of transport capacity.
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25. Summary – Choosing The Right Model
Intelligent Packet Optical Platform based DCI solution
– 25%-50% CAPEX/OPEX saving due to higher utilization of HPC/SAN and lower
power dissipation and better operational efficiency
Simplified operation
– Bulk provisioning & monitoring (Low OPEX)
Scale as you grow
– 10G to 800G with one system at optimum cost using Virtual Chassis innovation
Standard Interfaces (GigE/10GE, HD/SD-SDI, FC-x/FICON, OC-x, STM-x)
– Single Platform for multiple protocols simplified operation and limited FRU
Ultra Low Latency
– Industry-leading latency in nano-seconds (LAN/SAN extension to share the
resources across the data center for load sharing)
– Compact low power, purpose build for DCI (GREEN)
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