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HPCC SERVER
1 6
( 1 MASTER NODE + 5 SLAVE)
1
2 Monitor
OS & CLUSTER SOFTWARE (Windows & Linux
3 1
option)
4 Gigabit Managed Switch 1
5 KVM Switch & console 1
6 42 U RACK 2
7 CAT6 CABLE 10
Specification:
Sl No. 1 HPCC SERVER ( 1 MASTER NODE + 5 SLAVE)
2* INTEL XEON QUADCORE X5504 2.0 GHZ NEHELAM PROCESSOR
2*4GB DDR3 Memory with support upto 96 GB through 12 registered/un-buffered DDR3 DIMMs
Intel 5520 Chipset
3 x 147 GB SAS 2.5" HDD
6 port onboard SATA port & additional SAS controller for SAS HDD support
2 U Rack Mounted
Dual gigabit Ethernet controllers
1*PCI , Total 5 PCI –E slots, 1 serial port , 5* USB2.0, VGA, RJ45
Multimedia Keyboard
USB Optical Scroll Mouse
SATA DVD-RW
Redundant Power Supply
IPMI 2.0 standard compliant BMC controller
Supports IPMI2.0
Support for Microsoft Windows 2008 ,RHEL 5.2
Monitor :
Sl. No.2
19”/21” Wide TFT Monitor ( same make as that of server)
OS & CLUSTER SOFTWARE :
Option I : Windows HPC SERVER 2008 AND HPC SOFTWARE. Onsite HPCC Implementation +
3 year support for cluster
Sl. No.3
Option II : Redhat Enterprise Linux with clustering .HPCC Cluster suite S/W web
managed(GUI) with Onsite HPCC Implementation + 3 year support for cluster.
1
Gigabit Managed Switch :
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24 port Gigabit managed switch
KVM Switch & Console :
1U Rack mountable 16-Port remote access KVM switch – monitor and control up to 16 computers
from a single KVM console; Hot pluggable , Multiplatform support – Windows, Linux, Mac, and Sun;
Dual Interface – supports PS/2 or USB keyboard; video quality – up to 2048 x 1536; DDC2B for the
local console; up to 1600 x 1200 @60Hz / 24 bit color depth for remote sessions ; Up to 32
concurrent logins, Multilanguage web UI support featuring a tree-structured local and remote OSD,
Sl. No.5 Auto Scan feature, Backup and restore configuration and user account settings, Event logging,
Multibrowser support (IE, Mozilla, Firefox, Safari, Opera, Netscape), Two level password security,
External (Remote) authentication support: RADIUS, LDAP, LDAPS, MS Active Directory, Support for
IP/Mac Filter
1U rack mountable 17” console , Additional feature:- Extenal Monitor, Keyboard and Mouse (PS2,
USB ports); Lcd module rotates up to 115 degrees.; Windows 2000 (or higher), Linux and Free BSD
support
42 U RACK :
19” 42U (600 X 1000) Alum rack with front perforated door, Rear perforated steel door one pair of
Sl. No.6
lockable perforated side panels, 4 fans housing unit with 4 fans, Vertical power manager (12 soc),
Equipment tray, Keyboard tray, Castor wheels
Cat6 cable :
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3 m cat 6 cable for server connectivity
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DATABASE, APPLICATION, BACKUP &
8 4
ANTIVIRUS SERVER
Specification:
Intel Xeon MP Quad core 7420 Processor CPU ( scalable upto 4) with 2.13 GHz, 8MB L3 Cache, 1066MHz FSB 4P
32 GB Memory, FBDIMM DDR2 667 MHz ECC Memory with 256 GB higher Memory Upgradability
Intel 7300 Chipset, New generation chipset for High-End Enterprise servers
3 x 300 GB SAS 2.5" HDD
8 Port SAS controller with support for RAID 5 . SAS ACTIVATION KEY (W/0 BBU)
4U Rack Unit with front & rear cooling fans
Quad gigabit Ethernet Connections with IOAT Support
ATI ES1000* PCI Graphics Controller, 1600x1200 Maximum Resolution
4* PCI Express X8, 3* PCI-Express X4 slots
One serial ports, 5* USB2.0, VGA, RJ45
Multimedia Keyboard
USB Optical Scroll Mouse
19’’/ 21” Wide LCD monitor with maximum resolution 1440 x 900 @ 75 Hz, Brightness: 300cd/m^2, Contrast Ratio: 1000:1, Viewing Angle
(h/v): 170/160, H. freq: 81KHz, V. freq: 75Hz , Pixel Pitch: 0.28 mm ,Response time-5 ms
2
Slim-line DVD-Writer
Redundant 1+1 Hot swappable Power Supply
Software support: Intel system management software 2.0 (or higher), Microsoft system center essential(SCE) 2007, Intel Deployment
Assistantv1.4,Remote Management: Remote management module with KVM and media connectivity over IP with deducted LAN management
port
Supports Virtualization technology, Intel IOAT, IPMI2.0
Support for Microsoft Windows 2008 Server Enterprise Edition (32 and 64 bit) ,Red Hat 5.0 (or higher) 32 & 64 bit
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9 LTO3 Tape drive 1
10 LTO 3 media (400/800Gb) 10
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11 External Storage -4TB 1
12 HBA CARD 3
13 FC CABLE 6
14 SAN SWITCH 1
15 Backup Software 1
Specification:
SAN Storage Quantity :01
Feature Required Product Specifications
Rack Mount The Proposed SAN Array must be rack mounted
The Proposed SAN Array should be configured with Dual
Controllers for redundancy. 2 X 4GB/s or higher FC port &
Controller
2X1GbPS ISCSI on 2 controllers which should be
upgradable to 8GbPS FC & 10 GbPS ISCSI.
The Proposed SAN Array should be configured with minimum
12X4Gb FC 4X1Gb ISCSI
Front End & Back End
Connectivity and 2 X 4 Gbps or higher backend Dual controllers.
The Proposed SAN Array should be configured with at least
6GB cache across dual controllers. The same should be
scalable in future to 32 GB Cache across dual controllers
through a “Non-Disruptive” controller upgrade. Cache should
be mirrored between the Active- Active controllers on separate
PCI-Express Inter controller paths, and should not use disk
data path to achieve the same. The inter controller paths
should be redundant (at least 2 paths) to prevent disruption if
Cache one path fails and the interconnect technology should be on a
3
4Gbps backbone.
4 TB Usable Disk space using FC Disks (vendor should be
more specific like type of HDD, type of RAID, Global HS
etc) it should be written like this " The storage should be
configured with 4TB useable space using (type of HDD like
300 GB/450GB FC or 1TB SATA) net of RAID (like RAID 5
Required Disk Usable 4+1 or RAID 0/1). the usable capacity should be carved out
Space after all RAID penalties & necessary Global hot Spares
Scalability Proposed SAN Storage should ne scalable upto 120 Drives
The storage array should support hardware based RAID 0,
RAID 0+1,
1+0, 1, 5 and 6 levels.
Windows Server 2003 or latest , Sun Solaris, HP-UX, IBM-AIX,
OS Support
Linux and Novell NetWare
SAN Switch Quantity :01
Feature Required Product Specification
Ports 8 port fiber channel SAN Switch (4 Gbps or higher)
Auto sensing,zoning,1 U rack size, Intregrated Ethernet &
Other Features
serial port for communication
HBA
Feature Required Product Specification
HBA CARD - Quantity 03 Fibre Channel HBA Card 4GBPS
FC Cables - Quantity 6 Optical Fibre multimode 5 M LC LC Cables
Backup Software Quantity 01
From
Symantec/EMC/HP/CA
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16 Enterprise Management Software 1
Specification:
Network Management System
The proposed NMS solution should monitor fault, availability and performance of network devices servers & databases across the network.
Network Fault Management:
- The Proposed Network Fault Management consoles must provide web based topology map view from a single central console.The system
should provide discovery & inventory of heterogeneous physical network devices like Layer-2 & Layer-3 switches, Routers and other IP
devices and do mapping of LAN & WAN connectivity with granular visibility up to individual ports level.
- The discovery should be able to identify and model router redundancy using vendor–specific protocols (like VRRP and HSRP support for
Cisco devices) so that alarms generated from these virtual addresses are automatically excluded.
- The proposed network fault management system should provide support for SNMPv3-based discovery and management out-of-box.
- The system must provide user-configurable discovery control to manage the frequency and scope network discovery, configured using a
graphical user interface.
- The proposed system must support multiple types of discovery like IP range discovery – including built-in support for IPv6 ,Import data -
from pre-formatted files (IPs, ranges, strings or ports),Seed router based discovery – Using route tables and SNMP MIBs,Trap-Based
Discovery – whenever new devices are added with capability to exclude specific devices based on IP addresses / IP Address range
4
- The proposed solution must use advanced root-cause analysis techniques Out of the box like Inductive Modelling Technology and policy-
based condition correlation technology for comprehensive analysis of network faults.
- The system must deduces the root cause of the problem and in topology it should visually pinpoint single impacting device (in red color),
as well as other impacted devices (in gray color).
- The tool should provide sufficient reports pertaining to asset inventory, alarms & availability reports as well as Port Availability reports
showing idle time for ports and in use time.
- Proposed fault management web based console must provide tabs like topology, alarm, interfaces, root cause tab in single GUI.It should
provide explorer & search tabs.
- Proposed fault management should provide user login restrictions and should provide access and priveledge tabs to provide user right
assignments.
- Proposed Network Fault Management web console must provide interface configuration table & CDP tables along with chasis view.
- Proposed Network Fault Management must provide global collections where devices at the time of discovery can be mapped to a
particular global collection .Further by providing security string access to each global collection separate graphical views can be created.
- Proposed Fault management must provide VLAN Spotlight views i.e when clicked on particular VLAN it gets highlighted in the topology
map.
- The discovery should be able to identify and model router redundancy using vendor–specific protocols (like VRRP and HSRP support for
Cisco devices) so that alarms generated from these virtual addresses are automatically excluded.
- Prposed fault management should display connecting link between two devices and port labels in same web gui once clicked on a
particular link.If there are multiple links between two devices all the multiple links between two devices and their connected port labels
must be visible in same web GUI
- The proposed fault management system should integrate with the performance management system using a synchronized discovery and
single sign-on for operators / administrators between them to enable unified Administration and ease of workflow
- The proposed NMS should provide unified workflow between the fault and performance management systems including bi-directional
and context-sensitive navigation, such as
o Navigate from the Topology View to At-a-Glance or Trend Reports for any asset
o Navigate from the Alarm View to At-a-Glance, Trend or Alarm Detail Reports
- The proposed solution should provide Southbound Gateway interface, TL1 interface for integration with third party tools as well as
provide XML /DTD toolkits to import topology data from external database.
- The proposed tool should provide Microsoft SCOM connectors out of the box as well as Nortel MDM Integration Gateway.
- The proposed network fault management system should provide support for SNMPv3-based discovery and management out-of-box.
- The system should provide capability to measure & report on response time for common TCP/IP applications using test on routers:
HTTP, HTTPS, DNS, FTP, SMTP, SNMP,POP3.ICMP, Jitter
Network Performance Management System
The proposed Perfromance Management System must provide performance management across key parts of the infrastructure.The proposed
performance management system must integrate network & server & Database performance reporting information and alarms in a single console
&single repository database and provide a unified reporting interface for network, server & database components. The current performance state
of the entire network and system infrastructure shall be visible in an integrated console.
The proposed Network Performance Management System must provide the following features:
- The extended Network Performance Management consoles must provide a consistent report generation interface from a single central
console.This central console will also provide all required network performance reports (including latency, threshold violations, packet
errors, availability, bandwidth utilization etc.) for the network infrastructure
- The proposed system shall identify over-and under-utilized links and assist in maximizing the utilization of current resources.The
proposed system shall provide Performance of Network devices like CPU, memory & buffers etc, LAN and WAN interfaces and network
segments.
- The proposed system must have a Cognos-based report authoring tool built-in which will enable complete customization flexibility of
performance reports for network devices and monitored servers.
- The tool should provide a live trend diagram displaying the various resource utilization levels of various critical devices and links in the
managed infrastructure.
- The tool should provide a live exceptions list displaying the various health and threshold exceptions that are occurring in the managed
infrastructure.
- The system must provide At-A-Glance , Trend Reports , Top N Reports , What-If Reports , Service Level Reports , Health Reports out-of-
the-box as part of the base performance monitoring product
- The proposed system should be able to auto-calculate resource utilization baselines for the entire managed systems and networks and
allow user to set corresponding upper and lower threshold limits.The proposed system should use intelligent alarm de-duplication
algorithms like Deviation from Normal and Time over Threshold to learn the behavior of the network infrastructure components over a
period of time.
5
- Baseline setting should be as follows out-of-the-box: For a daily Health report, the baseline should be 6 weeks (42 days) by default.For a
weekly Health report, the baseline should be 13 weeks by default (for a weekly MyHealth report, it should be 6 weeks).For a monthly
Health report, the baseline should be 12 months by default.
The Proposed Performance Management must provide following charts for Health Reports:
- Availability Chart ,Availability Chart (CIO Summary Report) Average Health Index Chart ,Average Network Volume and Call
Volume Charts, Avg. Response Chart Bandwidth Utilization Chart, Element Variable Report Element Volume vs Baseline
Chart, Exceptions Detail Report ,Exceptions Detail Table ,Exceptions Summary Report, Failed Attempts Chart ,Health Index
Change Leaders Chart ,Health Index Leaders Chart , Jitter Chart ,Latency Chart , Network Interface Utilization Chart Network
Volume Chart, Paging Rate Chart ,Partition Utilization Chart etc.
- The Monitoring tool should support database performance agents for performance reporting of standard RDBMs like Oracle, MS-SQL,
Sybase and DB2.
- The Performance Monitoring tool should provide you the ability to easily collect and report specific information, including information
not limiting to : Buffer cache hit ratio, Locks and Global Locks,Table spaces, User stats, Database Transaction Info,latch contentions.
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17 Layer 2 Switch 1
18 Layer 3 switch 2
19 Router 1
20 Firewall 2
Layer 2 Switch Specification:
S.No. Specifications
1
7 Ethernet 10/100/1000 ports and (min.)1dual-purpose uplinks (dual-purpose uplink port has one
10/100/1000 Ethernet port and 1 SFP-( LX )based Gigabit Ethernet port,1 port active)
Support for redundant Power supply
Forwarding bandwidth 32 Gbps (min.)
32 MB flash memory (min.)
64 MB DRAM (min.)
Configurable up to 8000 MAC addresses
Configurable maximum transmission unit (MTU) of up to 9000 bytes .Ethernet frame size of 9018
bytes (Jumbo frames).
DHCP autoconfiguration of multiple switches through a boot server eases switch deployment.
Autonegotiating on all ports automatically selects half- or full-duplex transmission mode to optimize
bandwidth
Shall be able to support private VLANs or equivalent feature.
IEEE 802.1w rapid reconfiguration of spanning tree
IEEE 802.1s multiple VLAN instances of spanning tree
IEEE 802.1Q VLAN encapsulation
IEEE 802.1x
IEEE 802.1AB (LLDP)
IEEE 802.3ad
IEEE 802.3ah (100BASE-X single/multimode fiber)
IEEE 802.3x
1000BASE-T ports
IEEE 802.3
IEEE 802.3u
IEEE 802.3ab
6
IEEE 802.3z 1000BASE-X specification
2 QoS support
Rate Limiting based on source/destination/MAC, L4 TCP/UDP
3 Manageability
(a) Built in Web based management support
(b) Built in Console port
(c) SNMP v1,v2,v3
(d) Should support auto-sensing and auto-negotiation on each non-GBIC port.
(e) Network Timing Protocol (NTP)/SNTP.
(f) Configration replacement and roll back functionality
4 Security Features Supported
(a) Private VLAN or equivalent feature
(b) TACACS+ and RADIUS
(c) MAC-based port-level security prevents unauthorized stations from accessing the switch.
Environmental Reduction of Hazardous Substances (ROHS)
SNMPv1, v2c, and v3 and Telnet interface support to deliver comprehensive in-band management,
and a CLI-based management console to provide detailed out-of-band management.
Advanced quality of service (QoS), and resiliency to deliver intelligent services for the network edge
Dual-purpose uplinks for Gigabit Ethernet uplink flexibility, allowing use of either a copper or a fiber
uplink; each dual-purpose uplink port has one 10/100/1000 Ethernet port and one Small Form-
Factor Pluggable (SFP)-based Gigabit Ethernet port, with one port active at a time
Network control and bandwidth optimization using advanced QoS, granular rate limiting,ACLs, and
multicast services
Network security through a wide range of authentication methods and MAC addresses.
Easy network configuration, upgrades, and troubleshooting.
Auto configuration for specialized applications using Auto Smart ports/Equivalent
VLAN trunks can be created from any port using standards-based 802.1q tagging.Up to 255 VLANs
(min.) per switch .
IGMPv3 snooping for IPv4 provide fast client joins and leaves of multicast streams and limits
bandwidth-intensive video traffic to only the requestors.
Remote SPAN (RSPAN)/Mirroring to allows administrators to remotely monitor ports in a Layer 2
switch network from any other switch in the same network.
For enhanced traffic management, monitoring, and analysis, the Embedded Remote
Monitoring (RMON) software agent supports four RMON groups (history, statistics, alarms,and
events).
Layer 2 trace route eases troubleshooting by identifying the physical path that a packet takes from
source to destination.
All RMON groups are supported through a SPAN port, which permits traffic monitoring of a single
port, or a group of ports, from a single network analyzer or RMON probe.
Domain Name System (DNS) provides IP address resolution with user-defined device names.
Trivial File Transfer Protocol (TFTP) reduces the cost of administering software upgrades by
downloading from a centralized location.
Network Timing Protocol (NTP)/SNTP provides an accurate and consistent timestamp to all intranet
switches.
Multifunction LEDs per port for port status; half-duplex and full-duplex mode; and 10BASE-
T,100BASE-TX, and 1000BASE-T indication as well as switch-level status LEDs for system,and
redundant power supply to be provided as comprehensive and convenient visual management
5 Connectors and Cabling
RJ-45 connectors, 2-pair Category 3, 4, or 5/6 unshielded twisted-pair (UTP) cabling
7
100BASE-TX ports: RJ-45 connectors, 2-pair Category 5/6 UTP cabling
1000BASE-T ports: RJ-45 connectors, 4-pair Category 5'6 UTP cabling
1000BASE-T SFP-based ports: RJ-45 connectors, 4-pair Category 5/6 UTP cabling
1000BASE-SX, -LX/LH, -ZX, -BX and SFP-based ports: LC fiber connectors (single/multimode fiber)
Layer 3 switch Specification -
Feature Description
Ease of Use and Deployment ● Autoconfiguration of new stack units eliminates reconfiguration.
● Dynamic Host Configuration Protocol (DHCP)
server eases switch deployment.
● Automatic QoS (AutoQoS)
● Autosensing on each non-SFP port detects the speed of the attached device and automatically
configures the port for 10-, 100-, or 1000-Mbps operation, easing switch deployment in mixed 10, 100,
and 1000BASE-T environments.
● Autonegotiating on all ports automatically selects half- or full-duplex transmission mode to optimize
bandwidth.
● Dynamic Trunking Protocol (DTP)
● Port Aggregation Protocol (PAgP)
Gigabit EtherChannel groups to link to another switch, router, or server.
● Link Aggregation Control Protocol (LACP)
● DHCP Relay
● IEEE 802.3z-compliant 1000BASE-SX, 1000BASE-LX/LH, 1000BASE-ZX, 1000BASE-T, and CWDM
● Automatic media-dependent interface crossover (MDIX)
Availability and Scalability
Superior Redundancy for Fault
Backup ● 1:N master redundancy
● STP
● IEEE 802.1w Rapid Spanning Tree Protocol (RSTP)
● Per-VLAN Rapid Spanning Tree (PVRST+)
● Unidirectional Link Detection Protocol (UDLD) and Aggressive UDLD
● Switch-port autorecovery (errdisable)
● Equal-cost routing for load balancing and redundancy.
● Bandwidth aggregation up to 16 Gbps through 10 Gigabit EtherChannel technology, 8 Gbps through
Gigabit EtherChannel technology, and up to 800 Mbps through Fast EtherChannel technology
● Upgradable to 10 GigE Network
High-Performance IP Routing
● static, Routing Information Protocol Version 1 [RIPv1], RIPv2 and RIPng
● IPv6 routing (OSPFv6 and EIGRPv6) support
● Open Shortest Path First [OSPF], Interior Gateway Routing
Protocol [IGRP], Enhanced IGRP [EIGRP], Border Gateway Protocol Version 4 [BGPv4, IS-ISv4]
● Policy-based routing (PBR)
8
● HSRP enabled and should support up to 32 HSRP links
● Inter-VLAN IP routing for full Layer 3 routing between 2 or more VLANs.
● Protocol Independent Multicast (PIM) , including PIM sparse mode
(PIM-SM), PIM dense mode (PIM-DM), and PIM sparse-dense mode.
● Routing should be possible across the stack.
● Should support 128 switch virtual interfaces (SVIs) upto Maximum of 1000
Integrated IOS Software
Features for Bandwidth Optimization ● Per-port broadcast, multicast, and unicast storm control
● IEEE 802.1d Spanning Tree Protocol support for redundant backbone
● PVST+ for Layer 2 load sharing on redundant links configurable in a redundant design.
● IEEE 802.1s Multiple Spanning Tree Protocol Support
●Support for Local Proxy Address Resolution Protocol (ARP)
● Support for 802.1 Q VLAN Trunking Protocol (VTP)
● Support for Internet Group Management Protocol (IGMP) snooping
● Support for Multicast VLAN Registration (MVR)
● support Up to 48 EtherChannel groups per stack.
QoS and Control
Advanced QoS ● Should support 802.1p class of service (CoS) and differentiated services code point (DSCP)
● Should Support Shaped Round Robin (SRR)
● Should Support Weighted Tail Drop (WTD)
Network Security
Networkwide Security Features ● IEEE 802.1x assigned with Voice/VLAN/PortSecurity/ACL
● Port-based ACLs for Layer 2 interfaces
● Secure Shell (SSH) Protocol, Kerberos, and Simple Network Management Protocol Version 3 (SNMPv3)
● Private VLAN Edge
● Dynamic ARP Inspection
● DHCP Snooping
● IP source guard
● Bidirectional data support on the Switched Port Analyzer (SPAN) port
● TACACS+ and RADIUS authentication
● MAC address notification
● Bridge protocol data unit (BPDU) guard
● Spanning Tree Root Guard (STRG)
● IGMP filtering
● Should Support 1000 access control entries (ACEs).
Manageability
Superior Manageability ● VLAN trunks can be created from any port, using either standards-based 802.1Q tagging or the Cisco
Inter-Switch Link (ISL) VLAN architecture.
● Up to 1005 VLANs per switch or stack and up to 128 spanning-tree instances per switch should be
supported.
● 4000 VLAN IDs must be supported.
9
● Voice VLAN should be supported
● IGMP snooping must be supported
● Remote Switch Port Analyzer (RSPAN) must support.
● Embedded Remote Monitoring (RMON) software agent must support at least 4 RMON groups
(history, statistics, alarms, and events).
● Domain Name System (DNS) should provide IP-address resolution with user-defined
device names.
● Trivial File Transfer Protocol (TFTP) must support.
●Support for Network Timing Protocol (NTP)
● Multifunction LEDs per port for port status; half-duplex and full-duplex mode; and 10BASE-T,
100BASE-TX, and 1000BASE-T indication as well as switch-level status LEDs for system, redundant-
power supply, and bandwidth utilization provide a comprehensive and convenient visual management
system.
● SPAN should work across all the ports in a stack.
Easy Web Support ● Web-browser setup utility allows one-click initialization for IP addresses and passwords.
● Should support SNMPv1, v2c, and v3 and Telnet interface.
Performance ● 30-Gbps switching fabric
● Stack-forwarding rate of 38.7 mpps for 64-byte packets
● 128 MB DRAM and 32 MB Flash memory
● Configurable up to 12,000 MAC addresses
● Configurable up to 20,000 unicast routes
● Configurable up to 1000 IGMP groups and multicast routes
● Configurable maximum transmission unit (MTU) of up to 9000 bytes, with a maximum
Ethernet frame size of 9018 bytes (jumbo frames) for bridging on Gigabit Ethernet ports, and
up to 1546 bytes for bridging and routing on Fast Ethernet ports
Connectors and Cabling ● 10BASE-T ports: RJ-45 connectors, 2-pair Category 3 (Cat-3), 4, or 5 unshielded twisted-pair
(UTP) cabling
● 100BASE-TX ports: RJ-45 connectors, 2-pair Cat-5 UTP cabling
● 100BASE-FX ports: MT-RJ connectors, 50/125 or 62.5/125 micron multimode fiber
● 1000BASE-T ports: RJ-45 connectors, 2-pair Cat-5 UTP cabling
● 1000BASE-T SFP-based ports: RJ-45 connectors, 2-pair Cat-5 UTP cabling
● 1000BASE-SX, -LX/LH, -ZX, and CWDM SFP-based ports: LC fiber connectors (single-
mode, or multimode fiber)
● 10GBASE-ER XENPAK-based port (single-mode)
● 10GBASE-LR XENPAK-based port (single-mode)
● Cisco StackWise stacking ports: copper-based Cisco StackWise cabling that is also
compatible with the StackWise Plus technology in the Cisco Catalyst 3750-E Series
Switches.
● Management console port: RJ-45-to-DB9 cable for PC connections
Indicators ● Per-port status LEDs: link integrity, disabled, activity, speed, and full-duplex indications
● System-status LEDs: system, RPS, and bandwidth-utilization indications
10
Dimensions(H x W x D) ● 2.59 x 17.5 x 11.6 in. (6.6 x 44.5 x 29.5 cm)
Weight ● 12.5 lb (5.7 kg)
Environmental Ranges ● Operating temperature: 32 to 113ºF (0 to 45ºC)
● Storage temperature: -13 to 158ºF (-25 to 70ºC)
● Operating relative humidity: 10 to 85% (noncondensing)
● Operating altitude: up to 10,000 ft (3049 m)
● Storage altitude: up to 15,000 ft (4573 m)
Acoustic Noise ● International Organization for Standardization (ISO) 7779: bystander position operating to an
ambient temperature of 30ºC
Mean Time Between Failure (MTBF) ● 188,574 hours
AC Input Voltage and Frequency ● 100-240VAC, 1.5-2.3A, 50-60 Hz
DC Input Voltages ● +12V at 17A
Router Specification -
Router (02 LAN / 08 x 02 Mbps WAN Ports; 100 Kpps)
General Requirements
1. The Router shall be designed for continuous operation. The bidder shall furnish
the MTBF (Mean Time Between Failure) and MTRR (Mean Time to Restore)
predicted and observed values along with calculations by the manufacturer.
2. In case of full system failure, Router shall maintain a trace area in the NVRAM /
FLASH which would be used for analysis / diagnosis of the problem.
3. Router shall have built in power-on diagnostics system to detect hardware
failures.
4. Router shall have suitable Visual Indicators for diagnostics and healthy /
unhealthy status of Ports & modules.
5. The design of Router shall not allow plugging of a module in the wrong slot or
upside down.
Hardware details:
6. Router shall have modular configuration.
7. Router shall have 02 No. 10/100 Base Tx LAN Ports as per IEEE 802.3u
specification. The Fast Ethernet ports shall support full duplex capabilities.
8. Router shall have 08 No. WAN ports supporting V.35 interface natively or
through an appropriate converter. These ports shall be operable up to speed of 02
Mbps.
9. Router shall support aggregate packet forwarding rate greater than or equal to
1,00,000 packets per second for a packet length of 64 bytes.
10. The Router shall have enough CPU capacity and Memory so as to efficiently meet
all the functionalities laid down in the specifications. The bidder should specify
the offered CPU and memory model.
11. Router shall support 19” rack mountings.
12. Router shall support Upgrade of Software through Flash Memory.
13. Router shall support on-line software reconfiguration to implement changes
without rebooting.
14. Routers shall be capable of working with 170 – 240 Volts AC nominal at
frequency 50 +/- 2 Hz.
15. Router shall support a console port with RS-232 Interface for configuration and
diagnostic purposes.
11
Software Details
16. The router shall support following protocols:
i) TCP/IP with support for IP ver. 4
ii) Support for IP Ver 6 in future.
iii) ARP, RARP, ICMP, DHCP, TFTP and DNS
iv) Network address translation (NAT) and Port Address Translation (PAT)
as per RFC 3022
v) Network Time Protocol (NTP) Version 3 based on RFC 1305.
vi) Support for both TCP and UDP at layer 4
vii) Sub networking
viii) Classless Inter Domain Routing (CIDR)
ix) Variable Length Subnet Masking (VLSM)
x) IEEE 802.1Q based VLAN tagging
xi) VRRP as per RFC 3768
17. The router shall support following WAN protocols:
i) PPP as per RFC 1661
ii) Multi-link PPP as per RFC 1717
iii) HDLC
iv) Frame Relay
18. The router shall support static as well as dynamic routing with support for
following IP routing protocols:
i) RIP Version 2
ii) OSPF Version 2 as per RFC 1583
iii) BGP Version 4 as per RFC 1771
19. The Router shall support following IP Routing features:
i) Bidirectional Forwarding Detection (BFD) for Static and OSPF Routing.
ii) Option to define a Router as Designated Router (DR) in OSPF Domain.
iii) Option to define “Point to Point” and “Point to Multi-point” links in OSPF
Domain.
iv) Option to change the LSA and SPF timers as well as other timers /
counters in OSPF.
v) Router shall support tracking the reachability to remote destination which
is not directly connected and thereby deciding the validity of static routes
etc.
20. The router shall support following quality of service (QoS) features:
i) Weighted Fair Queuing (WFQ)
ii) IP Precedence i.e. Priority based on TOS field of IP ver. 4
iii) Differentiated Services (Diff Serve) i.e. Priority based on DS Field of the
IP ver. 4.
iv) Weighted Random Early Detection for congestion avoidance.
21. The router shall support following WAN optimization features:
i) Load Balancing on LAN Ports for outgoing traffic
ii) Load Balancing on WAN Ports for outgoing traffic
22. The router shall support following Security features:
i) PAP and CHAP as per RFC 1994
ii) Data Encryption as per DES and 3DES Standards
iii) Generic Routing Encapsulation as per RFC 2784
iv) IPSec based Point to Point secure tunnels
v) Access lists based on Network Address
vi) Access lists based on Network Address, Mask, Protocol Type and Socket
Type
vii) Access list violation Logging & Accounting
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viii) MD5 Route Authentication as per RFC 1321
ix) Controlled SNMP Access through the use of SNMP with MD5
Authentication.
x) Multiple Privilege levels to provide different levels of access
xi) Remote Authentication Dial in User Service (RADIUS) as per RFC 2138
23. Router shall support Network Management through:
i) SNMP V-1, V-2 & V-3
ii) RMON support
iii) MIB I and MIB II
iv) Router shall support all standard MIBs based on OSPF, BGP etc.
v) Software Upgrade through FTP or TFTP
vi) TELNET Client and Server
vii) SSH Version-2
24. Router shall support following in the user level of access i.e. the user with
minimum privileges:
i) Ping
ii) Telnet
iii) Traceroute
iv) Display of pre-configured description / label on each interface.
v) Display of physical layer line status signals (DCD, DSR, DTR, RTS, CTS)
on all serial interfaces.
vi) Display of Input and Output error statistics on all interfaces.
vii) Display of Input and Output data rate statistics on all interfaces.
viii) Display of Dynamic ARP table.
25. Router shall support System & Event logging functions as well as forwarding of
these logs onto a separate Server for log management.
26. The Hardware / Software of Router shall not pose any problem due to change in
date and time caused by events such as changeover of millennium / century, leap
year etc. in the normal functioning of the system.
27. Router shall have Debugging features to display and analyze various types of
packets.
Regulatory Compliance
28. Router shall conform to UL 60950 or IEC 60950 or CSA 60950 or EN 60950
Standards for Safety requirements of Information Technology Equipment.
29. Router shall conform to EN 55022 Class A/B or CISPR22 Class A/B or CE Class
A/B or FCC Class A/B Standards for EMC (Electro Magnetic Compatibility)
requirements.
30. Router shall be manufactured in accordance with the international quality
standards ISO 9001:2000 for which the manufacturer should be duly accredited.
31. Router / Router’s Operating System should be tested and certified for EAL 2 or
above under Common Criteria Program for security related functions.
Firewall Specification:
PRODUCT Hardware Architecture -:
The appliance should have Multi-bus system Architecture
The appliance should have Firewall, VPN, Full IPS functionality and Anti-X defense.
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Single hardware box should provide firewall, VPN, IPS and Anti-X services
Should support unlimited Users/Nodes
PERFORMACE SPECIFICATIONS -:
The Firewall Throughput should be Up to 450 Mbps
Should support concurrent threat mitigation throughput (Firewall + Anti-x Services) Up to 225 Mbps
with the help of additional hardware
Should support 3DES/AES VPN Throughput Up to 225 Mbps
Should support IPSec VPN Peers upto 750
Should support SSLVPN Peers upto 750
Should support upto 280,000 Concurrent Sessions
Should have 4 Integrated Gigabit Ethernet and one 10/100 FE port
Should support inbuilt support for IPSEC VPNs with DES/ 3DES and AES support
Should have integrated VPN accelerator card (support for both site-to-site and remote-access VPNs)
Should have SSLVPN Peers licences, if required for upto 50 users
Should support upto 150 VLANs
Network Time Protocol (NTPv3) Client
Should have high availability Active/Active and Active/Standby
Should support serial Ports 2 RJ-45, Console and Auxiliary
High Availability Requirements
On power up the firewall should use built-in system monitoring & diagnostics before going online to
detect failure of hardware.
The firewall should support Stateful failover to prevent session losses to be minimal.
The firewall should support in rack serviceability with easy access to the main board.
IKE keepalive should be supported that allows the devices to detect a dead remote peer for IPSEC
redundancy.
The software on the firewall should support online software reconfiguration to ensure that changes
made to a firewall configuration take place with immediate effect.
Intelligent environmental design to ensure low failure rates due to environmental conditions.
High mean time between failure values should be supported to ensure long life of firewall hardware.
Active/Standby failover services as a cost-effective high availability solution,
Deliver advanced Active/Active failover services where both Firewall Security Appliances in a failover
pair actively pass network traffic simultaneously and share state information bi-directionally.
Miscellaneous Hardware Requirements
The device should support a minimum of 5 interfaces with a combination of 4 Gigabit Ethernet and
one 10/100 E/FE.
The firewall should support a minimum DRAM of at least 512MB and should be upgradeable to
higher memory as needed.
A minimum of 64 MB flash memory is required for storing the operating system and the configuration
file.
Flexible Rack Mounting Configurations
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Cable Guides
Support for Health LEDs, LCD etc for all modules to indicate operational status of the module.
Extensive debugging capabilities to assist in hardware problem resolution.
Software Requirements
The firewall should support the following software features:
RIP Version 2 passive mode support
Support for OSPF
Support for LAN Based Failover
Support for VLAN (802.1Q trunking)
DHCP server
The firewall should be RFC 1918 compatible with support for Static & Dynamic Network Address
Translation and also Port Address Translation
Support for bi-directional NAT
Split tunneling VPN support
The firewall should support configurations through a command Line interface as well as a GUI based
Support for cut-through proxy
Support for NAT-T (NAT Transparency)
Support for fix-up (to support fix-up protocols like H.323, SIP, FTP etc)
Network Management
Telnet client and server functionality support is must.
The firewall must support FTP or TFTP for easy software upgrades over the network.
Dedicated Out-of-Band Management Interface
Network management services should be provided using standards based protocols like SNMP &
SNMP V2. The following MIBs should be supported:
SNMP get, SNMP trap, MIB II, Firewall MIB, Syslog MIB
Real time alerting & notification features and Syslog support.
Fire walling features support include :
Application/Protocol Inspection Engines
L2 transparent firewalling
Advanced HTTP Inspection Engine
Method Policing for HTTP methods defined in the RFC as well as extension methods.
Port 80 Misuse detection
ESMTP Inspection Engine
GTP/GPRS Inspection Engine
NAT and PAT support for MGCP Inspection Engine
NAT support for RTSP Inspection Engine
H.323 Inspection Engine enhancements (T.38 and GKRCS)
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FTP Inspection Engine with command filtering support (GET, PUT etc.)
Stateful ICMP Inspection Engine
Sun RPC TCP Inspection Engine
NIS+ Inspection Engine
TCP stream reassembly for Inspection Engines
All inspection engines have the ability to be enabled or disabled via configuration
Ability to configure inspection engines on an interface, network, or host basis
Outbound ACLs
Time-based ACLs
Configuring NAT policy will not be required to pass traffic through the device. NAT no longer a
prerequisite for firewalling
Option to pass traffic between interfaces with the same security level
URL filtering performance enhancements
VPN Features support include -:
Are You There (AYT) support for Cisco Security Agent (CSA)
TCP based NAT transparency
VPN Hub, client-to-client routing; traffic u-turn on interface
Block VPN clients by OS and type
Support for Diffie Hellman Group 7 (ECC) and Movian VPN Client
OSPF routing and QoS over VPN tunnels
IKE DoS safeguards (Aggressive Mode knob)
Support for n-tiered X.509 certificate chaining
Manual X.509 certificate enrollment (PKCS 10/7 support)
4096-bit RSA support
Authentication, Authorization and Accounting (AAA) Features:
Support multiple RADIUS accounting servers
Accounting for management traffic - generates AAA accounting records for management
connections to the device.
Native Window NT/Active Directory user authentication support (VPN only)
Native SDI/RSA SecurID user authentication support (VPN only)
IPS features support includes -:
Support for hybrid IDS/IPS services that allow a single sensor to operate simultaneously both as an
IDS sensor and an IPS sensor.
Should support deep inspection services for Web traffic, which provide granular control over HTTP
sessions for improved protection from a wide range of Web-based attacks
Support HTTP security services, including RFC compliance enforcement, protocol anomaly
detection, protocol state tracking, response validation, Multipurpose Internet Mail Extensions (MIME)
type validation and content control, Uniform Resource Identifier (URI) length enforcement.
Should support security services for 3G Mobile Wireless environments that provide packet switched
data services using the General Packet Radio Service (GPRS) Tunneling Protocol standard (GTP)
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Support advanced FTP inspection services, including protocol anomaly detection, protocol state
tracking, Network Address Translation (NAT) and Port Address Translation (PAT) support, and
dynamic port opening and closing
Support version filtering for all SNMP traffic attempting to flow through a Cisco ASA 5500 Series
appliance, supporting filtering of SNMP versions 1, 2, 2c, and 3
Support for port-hopping UNIX applications through stateful inspection and NAT services for Sun
RPC and NIS+ sessions transactions that use Portmapper v2 or RPCBind v3 or v4
Should support advanced H.323 inspection services that support versions 1-4 of the protocol along
with Direct Call Signaling (DCS) and Gatekeeper Router Control Signaling (GKRCS) to provide
flexible security integration in a variety of H.323-driven voice-over-IP (VoIP) environments
Support fortified SIP inspection engine that secures both, UDP and TCP based SIP environments
Supports inspection of various Cisco TAPI- and JTAPI-based applications that use CTIQBE,
including Cisco IP SoftPhone and the Cisco Customer Response solution
Enables inspection of H.323, SIP, and SCCP-based voice and multimedia streams that have been
fragmented or segmented
Delivering a wide array of inline packet drop actions, including the ability to drop single malicious
packets, all packets within a flow that contains multiple malicious packets, and all packets from the
attacker's IP address.
Support inspection and mitigation of threats in Multiprotocol Label Switching (MPLS) environments.
IPv6 environment attacks identification through the inspection of IPv4 traffic being tunneled into IPv6
Should support policy-based QoS services, with support for LLQ and Traffic Policing for prioritizing
latency-sensitive network traffic and limiting bandwidth usage of administrator-specified applications
Support multicast applications by including support for Internet Group Management Protocol
(IGMPv2) and stub multicast routing, including NAT and PAT and the ability to build ACLs for
multicast traffic
Support advanced protection from known and unknown network and application layer attacks, DoS
attacks, and malware, including worms, network viruses, Trojan horses, spyware, and adware
Should Provides specialized safeguards to "scrub" network traffic to prevent "detection evasion"
attempts, including IP fragmentation reassembly and normalization, TCP stream reassembly and
normalization, TCP evasion control, as well as IP antispoofing and deobfuscation services
Provides on-device event correlation capabilities to quickly identify and stop new threats and
optionally reduce the number of events sent to centralized monitoring systems for analysis
Should have variety of technologies to defend businesses from many popular forms of attacks,
including DoS attacks, fragmented attacks, replay attacks, and malformed packet attacks
Should support Zero-Downtime Software Upgrades
Regulatory and Standards Compliance
Safety -:
UL 1950
CSA C22.2 No. 950
EN 60950 IEC 60950
AS/NZS3260, TS001
Electromagnetic Compatibility (EMC) -:
CE marking
FCC Part 15 Class A
AS/NZS 3548 Class A
VCCI Class A
17
EN55022 Class A
CISPR22 Class A
EN61000-3-2
EN61000-3-3
Sl. No Items Qty
UTM – Suitable UNIFIED THREAT
MANAGEMENT APPLIANCE for the proposed
infrastructure
2 10/100/1000 Ethernet and 6 10/100 Ethernet LAN ports, 1
Mini-PIM slot, 1 ExpressCard slot and 2 USB ports
• Factory option of 4 dynamic Power over Ethernet (PoE)
ports 802.3af
• Support for T1/E1, serial, ADSL/2/2+, Ethernet small form-
factor pluggable transceiver (SFP), and Gigabit Ethernet
interfaces
• Content Security Accelerator hardware for faster
performance of IPS and ExpressAV
• Full UTM2; antivirus2, antispam2, Web filtering2, intrusion
prevention system2 (with high memory version)
• Unified Access Control (UAC) and content filtering
• 512 MB DRAM default, optional factory 1 GB DRAM, 1
GB flash default
Maximum Performance and Capacity
Firewall performance (large packets) 750
Mbps
Firewall performance (IMIX) 250
Mbps
Firewall + routing PPS (64 Byte) 80 Kpps
Psec VPNTunnels 256
21 IPS (intrusion prevention system) 80mbps 1
Maximum concurrent sessionsDRAM options-
64 K5
Maximum security policies-512
Network Connectivity
Fixed I/O:
2 x 10/100/1000BASE-T + 6 x 10/100
Optional maximum number of PoEports
-Up to 4 ports of
802.3af with maximum 50 W
Routing and Multicast
• Static routes
• RIPv2
• OSPF
• BGP
• BGP Router Reflector1
• IS-IS
• Multicast ((Internet Group Management
Protocol (IGMPv3), PIM, Session
Description Protocol (SDP), Distance
Vector Multicast Routing Protocol
(DVMRP), source-specific))7
• MPLS4
18
IP Address Management
• Static
• Dynamic Host Configuration Protocol
(DHCP) (client and server)
• DHCP relay
Encapsulations
• Ethernet (MAC and tagged)
• Point-to-Point Protocol (PPP) (synchronous)
– Multilink Point-to-Point Protocol (MLPPP)
• Frame Relay
– Multilink Frame Relay (MLFR) (FRF.15,
FRF.16)
• High-Level Data Link Control (HDLC)
• Serial (RS-232, RS-449, X.21, V.35, EIA-
530)
• 802.1q VLAN support
• Point-to-Point Protocol over Ethernet
(PPPoE)
Traffic Management
• Marking, policing, and shaping
• Class-based queuing with prioritization
• Weighted random early detection (WRED)
• Queuing based on VLAN, data-link
connection identifier (DLCI), interface,
bundles, or filters
Security
• Firewall, zones, screens, policies
• Stateful firewall, ACL filters
• Denial of service (DoS) and distributed
denial of service (DDoS) protection
(anomaly-based)
• Prevent replay attack; Anti-Replay
• Unified Access Control
• UTM2 (SRX650 and high memory versions
of SRX240, SRX2109, and SRX100 only)
– Antivirus2, antispam2,9, Web filtering2,
IPS2,9
– Content Security Accelerator in
SRX210 high memory, SRX240 high
memory, and SRX6502
– ExpressAV option in SRX210 high
memory, SRX240 high memory, and
SRX6502
– Content filtering
VPN
• Tunnels (generic routing encapsulation,
IP-in-IP, IPsec)
• IPsec, Data Encryption Standard (DES)
(56-bit), triple Data Encryption Standard
(3DES) (168-bit), Advanced Encryption
Standard (AES) (256-bit) encryption
• Message Digest 5 (MD5) and SHA-1
authentication
• Access Manager: Dynamic VPN Client.
Browser based remote access feature
requiring a license.
Voice Transport
• FRF.12
19
• Link fragmentation and interleaving (LFI)
• Compressed Real-Time Transport
Protocol (CRTP)
High Availability
• VRRP
• Stateful failover and dual box clustering
via JSRP3
• SRX650:
– Redundant power (optional)
– Future GPIM hot swap (online insertion
and removal, OIR)
– Future internal failover and SRE hot
swap (OIR)
• Backup link via 3G wireless or other WAN
IPv64
• OSPFv3
• IPv6 Multicast Listener Discovery (MLD)
• BGP
• Quality of service (QoS)
SLAand Measurement
• Real-time performance monitoring (RPM)
• Top talkers (sessions, packets, bandwidth
usage)
• J-Flow flow monitoring and accounting
services
Antivirus License – Antivirus License to be
22 1
installed in Server & for 100 clients
Item: Windows 2008 Server Enterprise with
23 4
media with CALs
Item: SQL Svr.Enterprise Edtn.2005 (or higher)
24 1
WIN32 MOLP with Media & Manual
Item: SQL CAL 2005 (or higher) English
25 5
Device CAL
Sl. No Items Qty
26 3 x 10 KVA SCALABLE ON-LINE UPS 1
TECHNICAL SPECIFICATIONS FOR 3 x 10 KVA SCALABLE ON-LINE UPS SYSTEM
Technical Parameters Required Specifications
General: 3 x 10 KVA UPS System in parallel redundant mode (N+1) configuration with
individual battery banks to support a max. load of 30 KVA. The configuration
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should have provision for future scalability and upgradation of UPS upto 40
KVA (i.e. 4 x 10 KVA parallel redundant configuration)
Topology: True On-Line Double Conversion Architecture with DSP (Digital Signal
Processing) Technology using IGBT rectifier and IGBT inverter
ELECTRICAL CHARACTERISTICS – INPUT:
Input voltage and voltage 305-480 VAC (20%) at 100% load; 200-480 VAC (-50%, +20%) at 50% load
tolerance:
Input frequency: 45-55 Hz
Input current distortion: 5% THD max
Input power factor: 0.99
Isolation: Input isolation Transformer of suitable Rating for providing galvanic isolation
between input & output. The isolation transformer should be at the input of
the UPS such that the load is galvanically isolated in Bypass mode also.
Rectifier Type: IGBT based only. SCR/Thyristor based rectifier shall not be accepted
ELECTRICAL CHARACTERISTICS – OUTPUT:
Output power: 10 KVA / 9 KW @ 0.9 p.f.
Output power factor: 0.9
Output voltage: 380 / 400 / 415 VAC, Three Phase
Output voltage regulation ±2%
(static):
Output voltage ± 5% with 1 ms recovery
regulation (dynamic):
Output frequency 50 Hz
(nominal):
Waveform: Sine waveform
Total harmonic distortion < 3% (linear load): < 5% (non-linear load):
Overload capability: 110% for 10 mins; 125% for 01 min
Overall efficiency (AC-AC) 91% or better at 100% rated load
USER INTERFACE:
Standard communication 1 x RS232 for local support, 2 x X-slot with optional provision for Modbus /
ports: Jbus, AS400 Relay module
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Network Connectivity Should have SNMP hardware and software connectivity facility through web
browser for remote monitoring of UPS systems
External controls: 1 x relay contact, 1 x emergency power off input, 2 x environmental input
LCD display: Graphical LCD (Alphanumeric) for measurement of various UPS parameters,
changing UPS Settings, Event Log etc.
BATTERY:
Type: Sealed lead-acid Maintenance Free batteries.
Rating & Configuration The system must be capable of providing 60 minutes of battery back-up time
with each UPS module (Minimum VAH = 16128 VAH )
Total qty, Ampere-Hour rating & Volt-Ampere-Hour rating of the Battery Bank
Offered should be clearly mentioned.
ENVIRONMENTAL:
Ambient service +0 to +40ºC, max.
temperature:
Acoustic noise at 1 m: 55 dBA max
Testing Standards (Documentary evidence to be furnished)
General & safety
requirements for UPS Ensure safety for the operator, layman & service persons that may come into
used in operator access contact with the equipment) - IEC 62040-1-1
areas
Safety of UPS electrical Reduce risks of fire, electric shock or injury for operator, layman & service
equipment person that may come into contact with the equipment.) - IEC 60950
UPS EMC requirements Ensure satisfactory functioning in its environment without introducing
intolerable electromagnetic disturbances to other electronic devices in that
environment) - EN 50091-2
Quality: ISO 9001, ISO 14001, RoHS / WEEE compliant
Support & Deliverables :
1. Bidder should supply, install, configure, commission the total system as per RMRC-NE requirement.
2. Bidder should quote for any additional accessories required for integration of the project.
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3. Bidder should be ISO 9001, 14001 certified & should have established at least one Data centre with ISO/IEC
27001 certified.
4. Bidder should be a National System Integrator with adequate experience in Data Centre Integration &
maintenance. PO copies & Completion Certificates for minimum 3 Data centre/DR sites for last 5 years to be
submitted.
5. Bidder should be registered in Assam and valid tin no and sales tax clearance to be submitted.
6. Bidder should provide support through Direct company Engineers & should have Service Centres in Upper
Assam. Documentary evidence for such support centres where company engineers are positioned is to be
provided.
7. Vendor should place qualified resident engineer(s) to manage the total infrastructure on a
day to day basis.
________
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