Access Circuit Sample Clauses

Access Circuit. 6.1. HUGE or the network operator supplies, configures and tests the Access Circuit.
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Access Circuit. The circuit between the Site and the Supplier’s point of presence (PoP”). The key technical characteristics of the Ethernet VPN circuit are shown below: a) Speed – Access Circuits will always be specified as 10, 100 or 1000Mbit/s. b) Delivery media – Supplier fibre or Short Haul Data Service. c) User Interface – Ethernet port on the Supplier deployed NTU. The Customer will be presented with either RJ45 copper interface for 10/100Mbit/s service or fibre options of SM or MM on LC fibre connectors, or 1000BaseTx RJ45 copper interface for 1000Mbit/s d) Topology – Ethernet over fibre.
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Access Circuit. The circuit between the Site and the Supplier’s point of presence (PoP”). ntl: Telewest business Ethernet VPN As illustrated in the above diagram, all sites have single SAP with an Access Circuit within which a contracted bandwidth may be defined. Contracted bandwidth represents a bandwidth profile configured on the Ethernet VPN ingress switch port. A single broadcast or multicast ingress frame at a given SAP will be replicated in the Ethernet VPN and a single copy delivered to each of the other SAPs in the EVC. This kind of delivery would also typically apply to a service frame for which the Ethernet VPN has not yet learned an association of the destination MAC address with an EVC/SAP pair. This is an “E-LAN” service as defined by the MEF. Unicast traffic will be point-to-point based on MAC address. The Access Circuit will always be specified as 10, 100 or 1000Mbit/s dependent on the requested EVC data speed across the Ethernet VPN. Capacity across the Ethernet VPN will be between 2 and 1000Mbit/s. The Service comprises one NTU at each Customer Site providing connection to the Supplier Network. The NTUs will be located on the Customer Sites (at the end locations specified in the Order) and the Customer will be presented with either RJ45 copper interface for 10/100Mbit/s service or options of SM or MM on LC fibre connectors, or 1000BaseTx RJ45 copper interface for 1000Mbit/s. The Service demarcation point is the Customer-facing ports of the Customer-sited NTUs. This Service Definition covers Ethernet VPN Circuits at the following speeds: Access Circuit speeds at 10, to 100, to 1000Mbit/s, via Supplier fibre or Short Haul Data Service. EVC bandwidth options are: 2, 4, 6, 8, 10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 200, 300, 400, 500, 600, 700, 800, 900 and 1000Mbit/s increments (to the limit of the tail capacity and connection speed). a) Speed – Access Circuits will always be specified as 10, 100 or 1000Mbit/s. b) Delivery media – Supplier fibre or Short Haul Data Service. c) User Interface – Ethernet port on the Supplier deployed NTU. The Customer will be presented with either RJ45 copper interface for 10/100Mbit/s service or fibre options of d) Topology – Ethernet over fibre.
Sample 1Sample 2
Access Circuit. The circuit between the Site and the Supplier’s point of presence (PoP”). ntl: As illustrated in the above diagram, all sites have single SAP with an Access Circuit within which a contracted bandwidth may be defined. Contracted bandwidth represents a bandwidth profile configured on the Ethernet VPN ingress switch port. A single broadcast or multicast ingress frame at a given SAP will be replicated in the Ethernet VPN and a single copy delivered to each of the other SAPs in the EVC. This kind of delivery would also typically apply to a service frame for which the Ethernet VPN has not yet learned an association of the destination MAC address with an EVC/SAP pair. This is an “E-LAN” service as defined by the MEF. Unicast traffic will be point-to-point based on MAC address. The Access Circuit will always be specified as 10, 100 or 1000Mbit/s dependent on the requested EVC data speed across the Ethernet VPN. Capacity across the Ethernet VPN will be between 2 and 1000Mbit/s. The Service comprises one NTU at each Customer Site providing connection to the Supplier Network. The NTUs will be located on the Customer Sites (at the end locations specified in the Order) and the Customer will be presented with either RJ45 copper interface for 10/100Mbit/s service or options of SM or MM on LC fibre connectors, or 1000BaseTx RJ45 copper interface for 1000Mbit/s. The Service demarcation point is the Customer-facing ports of the Customer-sited NTUs. This Service Definition covers Ethernet VPN Circuits at the following speeds: Access Circuit speeds at 10, to 100, to 1000Mbit/s, via Supplier fibre or Short Haul Data Service. EVC bandwidth options are: 2, 4, 6, 8, 10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 200, 300, 400, 500, 600, 700, 800, 900 and 1000Mbit/s increments (to the limit of the tail capacity and connection speed). a) Speed – Access Circuits will always be specified as 10, 100 or 1000Mbit/s. b) Delivery media – Supplier fibre or Short Haul Data Service. c) User Interface – Ethernet port on the Supplier deployed NTU. The Customer will be presented with either RJ45 copper interface for 10/100Mbit/s service or fibre options of d) Topology – Ethernet over fibre.
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Access Circuit. 2.5.1. OCTOPi supplies, configures and tests the Access Circuit. Any facilities and extra cabling necessary within the Site are not included in the provision of the service. 2.5.2. OCTOPi provides internet access by transmitting and delivering IP packets between our network and other networks in accordance with its standard business arrangements with providers of such other networks.
Sample 1
Access Circuit. The circuit between the Site and the Supplier’s point of presence (PoP”). A single broadcast or multicast ingress frame at a given SAP will be replicated in the Ethernet VPN and a single copy delivered to each of the other SAPs in the EVC. This kind of delivery would also typically apply to a service frame for which the Ethernet VPN has not yet learned an association of the destination MAC address with an EVC/SAP pair. This is an “E-LAN” service as defined by the MEF. Unicast traffic will be point-to-point based on MAC address. a) Speed – Access Circuits will always be specified as 10, 100 or 1000Mbit/s. b) Delivery media – Supplier fibre or Short Haul Data Service. c) User Interface – Ethernet port on the Supplier deployed NTU. The Customer will be presented with either RJ45 copper interface for 10/100Mbit/s service or fibre options of d) Topology – Ethernet over fibre.
Sample 1
Access Circuit. 5.2.1 Verizon orders, configures and tests the Access Circuit. 5.2.2 Verizon will provision the Access Circuit from a telecommunications operator (“Telco”). PSTN and ISDN services are not part of the Internet Broadband Service. 5.2.3 For Internet Broadband Service using a Customer contracted telco line, Customer may use the Access Circuit for PSTN/ISDN services in addition to the Internet Broadband Service; however, certain PSTN/ISDN-services may not be compatible or may operate at a lower speed.
Sample 1
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Related to Access Circuit

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  • Access Control Supplier will maintain an appropriate access control policy that is designed to restrict access to Accenture Data and Supplier assets to authorized Personnel. Supplier will require that all accounts have complex passwords that contain letters, numbers, and special characters, be changed at least every 90 days, and have a minimum length of 8 characters.

  • Configuration The configuration for the Purchase Right Aircraft will be the Detail Specification for Model 767-3S2F aircraft at the revision level in effect at the time of the Supplemental Agreement. Such Detail Specification will be revised to include (i) changes required to obtain required regulatory certificates and (ii) other changes as mutually agreed upon by Boeing and Customer.

  • Network Access Control The VISION Web Site and the Distribution Support Services Web Site (the “DST Web Sites”) are protected through multiple levels of network controls. The first defense is a border router which exists at the boundary between the DST Web Sites and the Internet Service Provider. The border router provides basic protections including anti-spoofing controls. Next is a highly available pair of stateful firewalls that allow only HTTPS traffic destined to the DST Web Sites. The third network control is a highly available pair of load balancers that terminate the HTTPS connections and then forward the traffic on to one of several available web servers. In addition, a second highly available pair of stateful firewalls enforce network controls between the web servers and any back-end application servers. No Internet traffic is allowed directly to the back-end application servers. The DST Web Sites equipment is located and administered at DST’s Winchester data center. Changes to the systems residing on this computer are submitted through the DST change control process. All services and functions within the DST Web Sites are deactivated with the exception of services and functions which support the transfer of files. All ports on the DST Web Sites are disabled, except those ports required to transfer files. All “listeners,” other than listeners required for inbound connections from the load balancers, are deactivated. Directory structures are “hidden” from the user. Services which provide directory information are also deactivated.

  • Interoperability To the extent required by applicable law, Cisco shall provide You with the interface information needed to achieve interoperability between the Software and another independently created program. Cisco will provide this interface information at Your written request after you pay Cisco’s licensing fees (if any). You will keep this information in strict confidence and strictly follow any applicable terms and conditions upon which Cisco makes such information available.

  • Architecture The Private Improvements shall have architectural features, detailing, and design elements in accordance with the Project Schematic Drawings. All accessory screening walls or fences, if necessary, shall use similar primary material, color, and detailing as on the Private Improvements.

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  • Configuration Management The Contractor shall maintain a configuration management program, which shall provide for the administrative and functional systems necessary for configuration identification, control, status accounting and reporting, to ensure configuration identity with the UCEU and associated cables produced by the Contractor. The Contractor shall maintain a Contractor approved Configuration Management Plan that complies with ANSI/EIA-649 2011. Notwithstanding ANSI/EIA-649 2011, the Contractor’s configuration management program shall comply with the VLS Configuration Management Plans, TL130-AD-PLN-010-VLS, and shall comply with the following:

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