Standard Sub Loops Available. 9.3.2.1 Distribution Loops
Standard Sub Loops Available
Standard Sub Loops Available Sample Clauses
Related to Standard Sub Loops Available
EPP service availability Refers to the ability of the TLD EPP servers as a group, to respond to commands from the Registry accredited Registrars, who already have credentials to the servers. The response shall include appropriate data from the Registry System. An EPP command with “EPP command RTT” 5 times higher than the corresponding SLR will be considered as unanswered. If 51% or more of the EPP testing probes see the EPP service as unavailable during a given time, the EPP service will be considered unavailable.
System Availability System Availability percentage is calculated as follows: Total MinutesintheMonth −Downtime System Availability%age = Total MinutesintheMonth *100 System Availability SLA (“SLA”) 99.5% System Availability percentage during each Month for productive versions Credit 2% of Monthly Subscription Fees for each 1% below SLA, not to exceed 100% of Monthly Subscription Fees Excluded Downtime Total Minutes in the Month attributable to: (i) a Scheduled Downtime for which a Regular Maintenance Window is described in Section 4 below, or (ii) any other Scheduled Downtime according to Section 4 for which the customer has been notified at least five (5) business days prior to such Scheduled Downtime or (iii) unavailability caused by factors outside of SAP’s reasonable control, such as unpredictable and unforeseeable events that could not have been avoided even if reasonable care had been exercised. Scheduled Downtime Scheduled Downtime for the applicable Cloud Services to which customer has subscribed is set forth in Section 4 below entitled “Maintenance Windows for Cloud Services”.
RDDS availability Refers to the ability of all the RDDS services for the TLD, to respond to queries from an Internet user with appropriate data from the relevant Registry System. If 51% or more of the RDDS testing probes see any of the RDDS services as unavailable during a given time, the RDDS will be considered unavailable.
How are Required Minimum Distributions Computed A required minimum distribution (“RMD”) is determined by dividing the account balance (as of the prior calendar year end) by the distribution period. For lifetime RMDs, there is a uniform distribution period for almost all IRA owners of the same age. The uniform distribution period table is based on the joint life and last survivor expectancy of an individual and a hypothetical beneficiary 10 years younger. However, if the IRA owner’s sole beneficiary is his/her spouse and the spouse is more than 10 years younger than the account owner, then a longer distribution period based upon the joint life and last survivor life expectancy of the IRA owner and spouse will apply. An IRA owner may, however, elect to take more than his/her RMD at any time.
Service Availability You understand that Service availability is at all times conditioned upon the corresponding operation and availability of the communication systems used in communicating your instructions and requests to the Credit Union. We will not be liable or have any responsibility of any kind for any loss or damage thereby incurred by you in the event of any failure or interruption of such communication systems or services resulting from the act or omission of any third party, or from any other cause not reasonably within the control of the Credit Union.
DNS name server availability Refers to the ability of a public-‐DNS registered “IP address” of a particular name server listed as authoritative for a domain name, to answer DNS queries from an Internet user. All the public DNS-‐registered “IP address” of all name servers of the domain name being monitored shall be tested individually. If 51% or more of the DNS testing probes get undefined/unanswered results from “DNS tests” to a name server “IP address” during a given time, the name server “IP address” will be considered unavailable.
Local Circuit Switching Capability, including Tandem Switching Capability 4.2.1 Local circuit switching capability is defined as: (A) line-side facilities, which include, but are not limited to, the connection between a loop termination at a main distribution frame and a switch line card; (B) trunk-side facilities, which include, but are not limited to, the connection between trunk termination at a trunk-side cross-connect panel and a switch trunk card; (C) switching provided by remote switching modules; and (D) all features, functions, and capabilities of the switch, which include, but are not limited to: (1) the basic switching function of connecting lines to lines, line to trunks, trunks to lines, and trunks to trunks, as well as the same basic capabilities made available to BellSouth’s customers, such as a telephone number, white page listings, and dial tone; and (2) all other features that the switch is capable of providing, including but not limited to customer calling, customer local area signaling service features, and Centrex, as well as any technically feasible customized routing functions provided by the switch. Any features that are not currently available but are technically feasible through the switch can be requested through the BFR/NBR process.
Under-Frequency and Over Frequency Conditions The New York State Transmission System is designed to automatically activate a load- shed program as required by the NPCC in the event of an under-frequency system disturbance. Developer shall implement under-frequency and over-frequency relay set points for the Large Generating Facility as required by the NPCC to ensure “ride through” capability of the New York State Transmission System. Large Generating Facility response to frequency deviations of predetermined magnitudes, both under-frequency and over-frequency deviations, shall be studied and coordinated with the NYISO and Connecting Transmission Owner in accordance with Good Utility Practice. The term “ride through” as used herein shall mean the ability of a Generating Facility to stay connected to and synchronized with the New York State Transmission System during system disturbances within a range of under-frequency and over-frequency conditions, in accordance with Good Utility Practice and with NPCC Regional Reliability Reference Directory # 12, or its successor.
Mileage Measurement Where required, the mileage measurement for LIS rate elements is determined in the same manner as the mileage measurement for V&H methodology as outlined in NECA Tariff No. 4.
Initial Forecasts/Trunking Requirements Because Verizon’s trunking requirements will, at least during an initial period, be dependent on the Customer segments and service segments within Customer segments to whom CSTC decides to market its services, Verizon will be largely dependent on CSTC to provide accurate trunk forecasts for both inbound (from Verizon) and outbound (to Verizon) traffic. Verizon will, as an initial matter, provide the same number of trunks to terminate Reciprocal Compensation Traffic to CSTC as CSTC provides to terminate Reciprocal Compensation Traffic to Verizon. At Verizon’s discretion, when CSTC expressly identifies particular situations that are expected to produce traffic that is substantially skewed in either the inbound or outbound direction, Verizon will provide the number of trunks CSTC suggests; provided, however, that in all cases Verizon’s provision of the forecasted number of trunks to CSTC is conditioned on the following: that such forecast is based on reasonable engineering criteria, there are no capacity constraints, and CSTC’s previous forecasts have proven to be reliable and accurate.
