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7.0 Technical Specifications 7.0 Technical Specifications Cabinet Division has requested BTCL to install Router, switch, WiFi access point, Controller, Firewall etc with establish a LAN within Cabinet Division area. BTCL has to provide Internet Service 100 Mbps initially, which will be expanded upto 1 Gbps) at cabinet site. The Goods and Related Services shall comply with following Technical Specifications: The Bidder must comply all clauses and sub-clauses stated in the details specifications router. If a bidder refuges to agree to any of the clauses and sub-clauses stated in Section 7, his bid shall be consider as “substantially nonresponsive”. And the bid shall not be considerable for further evaluation. Bidder shall also provide reference against each of his compliance as stated in the following specifications for Router, Switch, Firewall, Access controller, Access switch, Server, UPS, LAN etc. with printed official Brochure/Specification of the manufacturer. Without such reference compliance may be considered void. 7.1 .1 Router Specification 8 Manda Comply Referen Requirement tory Yes / No ce Router relating to requirement shall comply with following M minimum Technical Specifications: Su b- Item Specification Required No. ISO 9001/9002 Quality Certification of manufacturer for quality assurance. Manufacturer should be M 1 Quality listed in the Gartner’s 2019 Magic Quadrant for the wired and wireless LAN access infrastructure. M 2 Brand To be mentioned by the bidder M 3 Model To be mentioned by the bidder Country of M 4 To be mentioned by the bidder Origin M 5 Enclosure Type Rack-mountable Modular Chassis Maintain International Quality M 6 Environmental Environmental Safety standard M 7 Quantity 02 (Two) DRAM memory M 8 Minimum 8 GB and upgradable to 32 GB Flash Memory Minimum 8 GB and upgradable to 32 GB Bidder should submit BOQ of proposed device including the details M 9 Part No part numbers. Bidder should submit the required performance document for the proposed device. Should be chassis based & modular M 10 architecture for scalability Chassis should be 19” rack M 11 mountable type. Should have redundant CPU for high M 12 availability. Should have power supply redundancy. There should not be any M 13 impact on the router performance in case one of the power supplies fails. All interface modules, power supplies M 14 should be hot swappable for high availability. Minimum 3 Network Interface M 15 Module Slots& 3 Enhanced service- module slots. Router should have 1+1 power M 16 supply redundancy M 17 GUI-based device-management tool M 18 Software Defined WAN software features M 19 All interfaces on the routers shall Architecture: provide wire-rate throughput M 20 All interfaces on the routers shall be supplied as integrated interfaces and no external convertors / adapters are acceptable. M 21 The meaning of “Slot” for of any routers and wherever it appears in this tender document means a main slot (full slot) on the router chassis. Only a main slot on the router chassis shall be counted to fulfil any tender requirements and for considering number of free slots (no sub-slot or daughter slot shall be considered as “Slot”). M 22 The router shall support following type of interfaces – 10GE/1GE M 23 The router shall support optics for 10GE/1GE interfaces with maximum distance of 10KM, 40KM and 80KM without any additional regenerators M 24 The operating system of the router shall have a kernel or modular OS based architecture. M 25 The modular operating system shall run all critical functions like various routing protocol, forwarding plane and management functions in separate memory protected modules. Failure of one module shall not impact operations of rest of the OS. M 26 Router should have in service bug patching feature available from day 1. M 27 Router should support capability to connect at least two routers in an active active fashion with single management and control plane. M 28 Should be supplied with necessary power cards, data cables, connectors, CD’s, manuals, bracket accessories, wire managers and other appropriate accessories M 29 IMIX Traffics : minimum 1.5Gbps and upgradable to min.6 gbps in future if required without any additional hardware requirement. Router Backplane architecture supports at least 9.5 Gbps for network module communication M 30 The router should have capability of minimum 0.5 million IPv4 route and 0.3 million IPv6 routes. M 31 The router should have minimum 30,000 MAC address, M 32 Performance Router should have 10,000 multicast IPv4 routes and 5,000 multicast IPv6 routes M 33 Shall support variety of interfaces for flexibility like Gigabit Ethernet Interfaces, IEEE 802.3z and 802.3ab, IEEE 802.3u 10 Gigabit Ethernet Interfaces. M 34 Failure of one switch fabric card shall not degrade the performance & capacity of routers. Failure of one switch fabric card shall not degrade the per line card available bandwidth M 35 Shall support online insertion and removal (OIR) that is non-disruptive in nature. Online insertion and removal of one line card shall not lead to ANY packet loss for traffic flowing through other line cards for both unicast and multicast traffic. M 36 In case of a line card failure on the router; the multicast routing, multicast distribution and multicast replication architecture of the router shall ensure no impact & zero packet loss of multicast video, audio & data traffic running on rest of the line cards in the system M 37 In case the primary route processor fails on the router, there should be ZERO packet loss on the whole router for both unicast and multicast traffic. M 38 The Gigabit Ethernet ports must support IEEE defined SX (850nm), LX/LH (1310nm), and ZX (1550nm) pluggable optics. Removal or insertion of the pluggable optics must Interface not affect any other traffic flow anywhere in the router. M 39 All GE interfaces provided on the router shall support for large Ethernet frames, where the frame size is up to 9000 bytes M 40 Router should have at least 2 x 10 Gig Ethernet, 4 Gig optical Ethernet Routing Ports along with Interface below SFP modules M 41 Requirements: 2 x 10 GBASE-(1 no LR and 1 Nos SR) SFP Module. 4x1G-(2 no LR and 2 Nos SR) LR SFP Module M 42 Shall support Non-Stop forwarding for fast re-convergence of routing protocols (BGP, OSPF) from day 1. High M 43 Shall support, On-line insertion and Availability removal for cards, fast reboot for minimum network downtime, VRRP or equivalent M 44 Shall support multiple storage of multiple images and configurations M 45 Shall support link aggregation using LACP as per IEEE 802.3ad M 46 Boot options like booting from TFTP server, Network node & Flash Memory. M 47 Should have IPv4 Routing ,Border Gateway Protocol , Intermediate System-to-Intermediate System [IS- IS], and Open Shortest Path First [OSPF]), IPv6 Routing, and BGP Prefix Independent Convergence, GRE (Generic Routing Encapsulation) Tunneling M 48 Should have Multicast routing protocols IGMPv1, v2 ,v3, PIM-SM (RFC2362) and PIM-SSM, MSDP, IGMP v2 snooping M 49 Should have DHCPv6 and OSPFv3 for IPv6, 6PE & 6VPE M 50 Router should have capability of mapping of address and port using encapsulation as well as translation mechanism for ipv4 to Ipv6 migration functionalities. Protocol M 51 Router should have NAT, MPLS Support Provider /Provider Edge functionality. MPLS VPN, DiffServ Tunnel Modes, , DiffServ-Aware TE, Inter-AS VPN,Resource Reservation Protocol (RSVP), VPLS , CESoPSN and SAToP as per RFC 4553 from day one. M 52 BGP based Segment routing, BGP customer signalling M 53 Router should support topology independent LFA for faster failure management M 54 Should support capability to isolate multicast traffic from impact of unicast traffic burst M 55 Router should have MPLS OAM, Ethernet OAM protocols - CFM (IEEE 802.1ag), Link OAM (IEEE 802.3ah) and ITU Y.1731. M 56 The router shall support Carrier Grade NAT M 57 Router shall preferably support PBB (Mac-in-Mac protocol) as per IEEE 802.1ah. M 58 Support feature capability to terminate PPPoE/IPoE (v4/v6/DS) sessions M 59 Support chassis based redundancy for high SLA subscribers without L1/L2 connectivity between the gateway M 60 Support RFC 7597 - Mapping of Address and Port with Encapsulation (MAP-E), RFC 7599 - Mapping of Address and Port using Translation (MAP-T) M 61 Support Ethernet VPN (EVPN) VXLAN Transport and Ethernet VPN (EVPN) based Virtual Private Wire Service (VPWS) M 62 Support unequal cost link load sharing to better utilize the alternate paths M 63 Router should have both L2 and L3, MPLS and full routing services on all interfaces from day 1. M 64 Configuration Roll Back to recover the mis-configured router to last good configuration M 65 Shall support the following: M 66 Traffic Classification using various parameters like source physical interfaces, source/destination IP subnet, protocol types (IP/TCP/UDP), source/destination ports, IP Precedence, 802.1p, MPLS EXP, DSCP and by some well known QoS Features: application types through Application Recognition techniques. M 67 Shall support Strict Priority Queuing or Low Latency Queuing to support real time application like Voice and Video with minimum delay and jitter. M 68 Congestion Management: WRED, Priority queuing, Class based weighted fair queuing M 69 Traffic Conditioning: Committed Access Rate/Rate limiting. M 70 Platform must support hierarchical shaping, scheduling, and policing for the control upstream and downstream traffic. M 71 Shall support QoS based on differentiated service code point (DSCP), MPLS experimental bit (EXP) and 802.1p classification with marking, policing and scheduling, ingress and egress SLA enforcement is accomplished by enforcing the maximum service rates for residential and business subscribers.
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