8. Where Can we Demonstrate Business Value The value of SPACE MATRIX lies primarily in delivering key applications • We will continually demonstrate the value that the infrastructure brings to those key applications • We will be able to successfully deliver the applications that are running on your required network Deliver Utility performance Provide Better control Promote Business agility Provide Greater productivity Support Technological Complexity

10. Messaging Services Enterprise Exchange/Outlook Email Enterprise Collaboration tools Active Directory, DNS Desktop Mass Desktop Refresh Projects Network Printer Consolidation and Refresh Enterprise Desktop Management Systems Help Desk Enterprise Help Desk in House Field Based agents and technicians for Level 3 Enterprise Help Desk System Enterprise Security Operations Center Computer Security Incident Response Center Secure Internet Gateway Security Network Transformation Reliable, High Performance, Enterprise-Wide IT Infrastructure CVE : Collaborative Virtual Enterprise “ People – Processes – Technology ” New HP Blade Server and the Data Center Consolidation and refresh of servers Migration of servers to the data center Servers Certification Ready WAN – VPN Links , Exchange Servers , Active Directory, Security Migration

16. Datacenter Workplace Security Network Strategy, Planning & Value Realization Solution Design & Development Operating Manage Business Case Conduct On - Going Operations - Develop & Approve Business Case Control Change & Manage Program Progress Process People Technology Define Customer Goals & Expectations Define High - Level Requirements & Assess Capabilities Develop Business - Driven Strategy, Define Operating Model & Infrastructure Services Develop Performance Baseline & Targets Develop Performance Reporting Develop Communications Plan Manage Stakeholders Review Strategy, Operating Model, & Service Catalogue Analyze Current Management, Project, & Operations Processes Understand Organization & Role Impact Identify & Decompose Management, Project & Operations Processes Design Management, Project & Operations Processes Validate Management, Project & Operations Processes Develop Detailed Infrastructure & Operations Procedures Develop Infrastructure Standards Confirm Process Designs & Assess Current Performance Perform Detailed Organization Impact & Training Needs Analysis Design Roles, Organization, Performance Goals, Training & Performance Support Needs Build Roles, Organization, Performance Goals, Training & Performance Support Needs Staff New Organization Deploy Pilot Training Launch Communications Conduct Training Pilot Organization & Perform Production Simulation Analyze Target Business Process Models & Current Application Blueprint Develop Application & Infrastructure Inventories Conduct Detailed Performance Baseline Develop Infrastructure Strategy & Detailed Business Case Design Infrastructure & Operations Architecture Build Infrastructure & Operations Architecture Test Infrastructure & Operations Architecture Migrate, Re - Platform, & Decommission Applications Deploy Infrastructure & Operations Architecture

17. Acceptance on support service Define Escalation Matrix Incident Management Procedure Support

19. Regulatory requirements and impact on IT Disaster recovery planning is non-negotiable Ability to deploy new services is critical to remain competitive Power and cooling constraints are very real issues Changing Business Needs, Acquisitions and integration of Data centers Sprawling IT infrastructure is increasingly hard to manage Under-utilized, inefficient systems are limiting growth

23. Distribution Layer Core Layer Gateway Layer Core Switch Web Optimisation Layer 3 Redundancy Layer 3 Redundancy Data Centre Customer Office WAN Link Optimise Server Farm Storage Storage Disaster Recovery Site Performance Optimisation Router Firewall Firewall EMS Console eMail Security Authentication QOS Firewall Firewall Access Switch

28. RACKS AREA POWER COOLING

29. SERVER LOADS Year Total Number of Racks Power requirement @ 3kW / Rack Power requirement in kVA Cooling equipment AC tones. Power requirement in kVA TOTAL POWER WITH AC LOAD [Cumulative] [Cumulative] [Cumulative] [Cumulative] [Cumulative] [Cumulative] 2009 16 48.00 60.00 30.00 55.00 115.00 2010 24 72.00 90.00 30.00 55.00 145.00 2011 48 144.00 180.00 60.00 110.00 290.00 UPS SIZING FOR SERVER LOADS Year Total Number of Racks Power requirement @ 3kW / Rack Power requirement in kVA Capacity required @ 80% loading Recommanded UPS Final with N+1 Configuration [Cumulative] [Cumulative] [Cumulative] [Cumulative] [Cumulative] [Cumulative] 2009 16 48.00 60.00 75.00 1 x 80kVA 2 x 80kVA 2010 24 72.00 90.00 112.50 2 x 80kVA 3 x 80kVA 2011 48 144.00 180.00 225.00 3 x 80kVA 4 x 80kVA

33. Cool air in, warm air out All servers today are designed for front to back airflow “ Cooling Efficiency Directly Impacts Server Performance “

38. The CRAC Unit ( PAC) can be based on Direct Expansion (DX ) where the air circulating to and from the Data Center is cooled directly by the refrigerant There may be some mixing of hot and cold air in this Design

39. The CRAC Unit ( PAC) can be a Chilled water system where the air circulating to and from the Data Center is cooled by the chilled water generated at a central or dedicated chiller ( Water is cooled by refrigerant ) There may be some mixing of hot and cold air in this Design

42. ELIMINATION OF HOT AIR MIXING WITH COLD BY PROVIDING CONTAINMENT OF THE COLD AISLE Cold Air is delivered Under floor Cold air entering the Cold Aisle is Contained , to avoid even minimal mixing with hot air

44. ELIMINATION OF BYPASS AND MIXING OF HOT AND COLD AIR IMPROVE COOLING EFFICIENCIES

49. Piped special cooling fluid can be delivered to the racks from a central cooling system Preliminary

50. The pipes then deliver the cooling fluid to cooling units mounted on specific racks where the load is high This solution generally is offered for rack densities upto 10 kw

51. Room Solution for rack densities up to 26 kW per rack

54. Upto 30 kw per single rack and 15 kw in dual rack configuration can be cooled by in rack cooling Cooling Unit Server Rack –30 kw Cooling Unit Server Rack 15kw Server Rack 15kw Internal details of the in rack cooling heat exchanger coupled to a server rack

55. Uptime Institute Standards / Definitions Uptime Institute; Gartner, by Michael A. Bell APPENDICES Tier 1: Single path for power and cooling distribution, no redundant components – less than 28.8 hours of downtime/year Tier 4: Multiple active power and cooling distribution paths, redundant components, fault-tolerant – less than 0.4 hour of downtime/year Tier 3: Multiple power and cooling distribution paths, but only one path active, redundant components, concurrently maintainable – less than 1.6 hours of downtime/year Tier 2: Single path for power and cooling distribution, redundant components – less than 22.0 hours of downtime/year

56. Tier I Tier II Uptime Institute; Gartner, by Michael A. Bell Susceptible to disruptions from both planned and unplanned activity. May not have UPS or generator. If UPS/generator present single module system with multiple points of failure. Annual shut down required for maintenance. Single path for power and cooling distribution, no redundant components. Slightly less susceptible to disruption from planned and unplanned activities. Has UPS and generator, but capacity is “need plus one” (N+1). N+1 has single distribution path. Critical power path and other infrastructure systems require shut down for maintenance. Single path for power and cooling distribution, redundant components.

58. Uptime Institute Standards / Definitions Uptime Institute; Gartner, by Michael A. Bell APPENDICES

59. TIER I SCHEMATIC LOAD TIER II SCHEMATIC LOAD TIER III SCHEMATIC LOAD TIER IV SCHEMATIC LOAD

66. Gartner, Michael A. Bell Adequate site for “at grade” development (e.g. parking, water storage, fuel storage, transformer yard or substation, generators) Easy highway access for deliveries and end- user access for maintenance Minimal risk vibration (railroad tracks, motor vehicle traffic, manufacturing or construction noise) Larger column bays (30 feet by 50 feet preferred) Minimum 14 feet from structural slab to lowest structural member Efficient floor plates (rectangular, square, side core preferable; elevator and service core on side rather than central to building) Single story preferred Minimal fenestration (i.e. few if any windows preferred for security reasons) Good roof: level roof without skylights Truck- level loading docks for equipment delivery For multiple- story building, ensure adequate riser capacity for primary/emergency power, HVAC (heating, ventilating, and air conditioning), diverse fiber entries and other vertical services (water, gas, communication cabling)

67. Gartner, Michael A. Bell 100 pounds per square foot live-load capacity minimum 250 pounds per square foot live-load capacity for battery backup and uninterrupted power supply equipment Rooftop area adequate for cooling systems Adequate fuel oil storage capacity ( i.e., 24 to 72 hour operational cycle for backup diesel generators) Utility power at reasonable cost Adequate site area for transformers or substation if required Site location for backup generators Perimeter roof drainage desirable Redundant domestic-water service and fire service Availability of fiber-optic service to the building from the twp separate service providers

73. Investment Summary Sl No Description Prices (USD) Prices (INR) 1 LAN Switching / Routing ( Cisco ) 2 Application optimization (RDW) 3 Servers (HP) 4 Storage (EMC) 5 Symantec Netbackup 6 KVM Infrastructure 7 Advance Console Server 8 Intelligent Power Distribution Units 9 Centralised device Management (Avocent) 10 Intelligent Network Cabling 11 Racks 12 NOC Display Solutions and Monitoring 13 Engineering Services • POWER • COOLING • PROTECTION • SECURITY • ALARM NOTIFICATION • ENVIRONMENTAL BUILD OUT Total Onetime installation Cost Grand Total