Common use of Calculation Clause in Contracts

Calculation. Verizon calculates Frame Jitter by measuring the mean deviation of the difference in test frame spacing at the receiver compared to the sender for a pair of test frames, Verizon calculates the mean by sampling the Core Network frequently and averaging the results over a 30 calendar day period. The calculation for Frame Jitter "J (i)" for two consecutive frames i and i+1 is as follows: J (i) = DeltaT(i) – DeltaT(i') where T(i) = time 1st byte of frame (i) is received by the source port (ingress time) T(i+1) = time 1st byte of frame (i+1) is received by the source port (ingress time) T(i’) = time 1st byte of frame (i’) is received at the destination port (egress time) T(i+1’) = time 1st byte of frame (i+1’) is received at the destination port (egress time) and DeltaT(i) = T(i+1) – T(i) (DeltaT(i) is the time interval between frames at ingress) DeltaT(i’) = T(i+1’) – T(i’) (DeltaT(i’) is the time interval between frames at egress) The average jitter is calculated as follows: J = Sum J(i) /(N-1) where N is the number of measurement intervals over thirty (30) day period

Calculation. Verizon calculates Frame Jitter by measuring the mean deviation of the difference in test frame spacing at the receiver compared to the sender for a pair of test frames, ; Verizon calculates the mean by sampling the Core Network frequently and averaging the results over a 30 thirty (30) calendar day period. The calculation for Frame Jitter "J (i)" for two consecutive frames i and i+1 is as follows: J (i) = DeltaT(i) – DeltaT(i') where T(i) = time 1st byte of frame (i) is received by the source port (ingress time) T(i+1) = time 1st byte of frame (i+1) is received by the source port (ingress time) T(i’) = time 1st byte of frame (i’) is received at the destination port (egress time) T(i+1’) = time 1st byte of frame (i+1’) is received at the destination port (egress time) and DeltaT(i) = T(i+1) – T(i) (DeltaT(i) is the time interval between frames at ingress) DeltaT(i’) = T(i+1’) – T(i’) (DeltaT(i’) is the time interval between frames at egress) The average jitter is calculated as follows: J = Sum J(i) /(N-1) where N is the number of measurement intervals over thirty (30) day period

Calculation. Verizon calculates Frame Jitter by measuring the mean deviation of the difference in test frame spacing at the receiver compared to the sender for a pair of test frames, Verizon calculates the mean by sampling the Core Network frequently and averaging the results over a 30 calendar day period. The calculation for Frame Jitter "J (i)" for two consecutive frames i and i+1 is as follows: J (i) = DeltaT(i) – DeltaT(i') where T(i) = time 1st byte of frame (i) is received by the source port (ingress time) T(i+1) = time 1st byte of frame (i+1) is received by the source port (ingress time) T(i’) = time 1st byte of frame (i’) is received at the destination port (egress time) T(i+1’) = time 1st byte of frame (i+1’) is received at the destination port (egress time) and DeltaT(iand (i) = T(i+1) – T(i) (DeltaT(i) is the time interval between frames at ingress) DeltaT(i’) = T(i+1’) – T(i’) (DeltaT(i’) is the time interval between frames at egress) The average jitter is calculated as follows: J = Sum J(i) /(N-1) where N is the number of measurement intervals over thirty (30) day period

Calculation. Verizon calculates Frame Jitter by measuring the mean deviation of the difference in test frame spacing at the receiver compared to the sender for a pair of test frames, ; Verizon calculates the mean by sampling the Core Network frequently and averaging the results over a 30 thirty (30) calendar day period. The calculation for Frame Jitter "J (i)" for two consecutive frames i and i+1 is as follows: J (i) = DeltaT(i) – DeltaT(i') where T(i) = time 1st byte of frame (i) is received by the source port (ingress time) T(i+1) = time 1st byte of frame (i+1) is received by the source port (ingress time) T(i’) = time 1st byte of frame (i’) is received at the destination port (egress time) T(i+1’) = time 1st byte of frame (i+1’) is received at the destination port (egress time) and DeltaT(iand (i) = T(i+1) – T(i) (DeltaT(i) is the time interval between frames at ingress) DeltaT(i’) = T(i+1’) – T(i’) (DeltaT(i’) is the time interval between frames at egress) The average jitter is calculated as follows: J = Sum J(i) /(N-1) where N is the number of measurement intervals over thirty (30) day period

Calculation. Verizon calculates Frame Jitter by measuring the mean deviation of the difference in test frame spacing at the receiver compared to the sender for a pair of test frames, Verizon calculates the mean by sampling the Core Network frequently and averaging the results over a 30 calendar30- calendar day period. The calculation for Frame Jitter "J (i)" for two consecutive frames i and i+1 is as follows: J (i) = DeltaT(i) – DeltaT(i') where T(i) = time 1st byte of frame (i) is received by the source port (ingress time) T(i+1) = time 1st byte of frame (i+1) is received by the source port (ingress time) T(i’) = time 1st byte of frame (i’) is received at the destination port (egress time) T(i+1’) = time 1st byte of frame (i+1’) is received at the destination port (egress time) and DeltaT(i) = T(i+1) – T(i) (DeltaT(i) is the time interval between frames at ingress) DeltaT(i’) = T(i+1’) – T(i’) (DeltaT(i’) is the time interval between frames at egress) The average jitter is calculated as follows: J = Sum J(i) /(N-1) where N is the number of measurement intervals over thirty (30) day period