End-to-End Testing Clause Samples
The End-to-End Testing clause establishes the requirement for comprehensive testing of a system or product from start to finish, ensuring that all integrated components function together as intended. In practice, this clause typically mandates that the entire workflow or process be tested in a real-world scenario, often before final acceptance or deployment. By requiring such thorough testing, the clause helps identify and resolve integration issues early, ensuring the delivered solution meets all specified requirements and reducing the risk of failures after implementation.
End-to-End Testing. After the contractor has provided end-to-end connectivity on the fibers, bi-directional end-to-end testing will be done. Continuity tests will be done to verify that no fibers have been "frogged" or crossed in any of the splice points. Loss measurements will be recorded using a laser source and a power meter. OTDR traces will be taken and splice loss measurements will be recorded. The Constructing Party will also store OTDR traces on diskette.
A. It is imperative to verify that all fibers have one-to-one continuity on the new cable. This should be done at the fiber level, not just the pigtail level. For each pigtail, a HE-NE laser will be used to verify fiber color and buffer tube color. Once the fiber color and buffer tube color have been recorded, a laser light source will be attached and a power meter reading will be taken at the far end. Then at the far end, a HE-NE laser should be used to verify the fiber color and the buffer tube color of the fiber receiving the light. Then power level readings should be taken in the opposite direction. The power measurements should be made at both 1310 nm and 1550 nm.
B. OTDR traces should be taken in both directions at both 1310 nm and 1550 nm. Loss measurements for each splice point should be measured and recorded in both directions. These loss values should then be averaged. The traces for all fibers should be recorded on diskette and provided to the other party.
End-to-End Testing i. The Contractor shall complete as appropriate development, Unit/Assembly Testing, System Integration/Regression Testing, and Performance/Security Testing prior to the commencement of End to End testing.
ii. The Contractor shall participate in End to End testing, including attending sessions to review End to End test cases.
iii. The Contractor will perform end to end testing and show the Department the results. The Contractor will use the Department-defined scripts and Test Management Tool for tracking and reporting.
iv. The Contractor shall use the Department’s instance of HP Application Lifecycle Management (HPALM) to track End to End test execution and defect resolution.
End-to-End Testing. After the Lessee (or its designee) has established end-to-end connectivity on the fibers during initial construction, it shall: o perform bi-directional end-to-end tests, o test continuity to confirm that no fibers have been "frogged" or crossed in any of the splice points, 134 o record loss measurements using a light source and a power meter, and o take OTDR traces and record splice loss measurements.
End-to-End Testing. A. After ▇▇▇▇▇▇▇▇ has established end-to-end connectivity on the fibers during initial construction, it shall: o perform bi-directional end-to-end tests, o test continuity to confirm that no fibers have been "frogged" or crossed in any of the splice points,
End-to-End Testing. A. After the Lessee (or its designee) has established end-to-end connectivity on the fibers during initial construction, it shall: o perform bi-directional end-to-end tests, o test continuity to confirm that no fibers have been "frogged" or crossed in any of the splice points, o record loss measurements using a light source and a power meter, and o take OTDR traces and record splice loss measurements.
B. The Lessee (or its designee) shall perform the bi-directional end-to-end tests and OTDR traces at both 1310 nm and 1550 nm. The Lessee (or its designee) shall measure and verify losses for each splice point in both directions and average the loss values. The Lessee (or its designee) shall mark ▇▇▇ splice points as Out-of-Spec (OOS) that have an average loss value, based on bi-directional OTDR testing, in excess of 0.3 dB.
End-to-End Testing. If the SD wishes to use its Data Interchange Interface it must participate in End to End Testing in accordance with this clause 5 on the INMS System and the SD System, and in combination with other CSP systems connected to the INMS System.
End-to-End Testing. At IRU ▇▇▇▇▇▇▇’s request and at ▇▇▇▇▇▇▇’s expense, Grantor shall perform the bi-directional end- to-end tests. Grantor shall measure and verify losses for each splice point in both directions and average the loss values. Grantor shall mark any splice points as Out-of-Spec (OOS) if they do not meet the specifications set forth in Exhibit BB. In the event that such test(s) do not meet the specifications set forth in Exhibit BB and such failure is not caused by any act or omission of IRU Grantee, such test shall not be at Grantee’s expense.
End-to-End Testing. Synacor will provide end to end system testing in Synacor’s pre-production environment that will include testing of authenticated Users. To make this possible, AT&T will provide Synacor with availability to their systems and end points as well as provide Synacor with all necessary test accounts. Synacor will report end to end test failures to AT&T as part of the normal sprint release cycle activities.
End-to-End Testing. After tester has provided end-to-end connectivity on the fibers, continuity tests will be done to verify that no fibers have been transposed or crossed in any of the splice points. Loss measurements will be recorded using a laser source and a power meter at 1310 and 1550nm. OTDR traces will be taken at 1310 and 1550nm and splice loss measurements will be recorded. Fiber Technologies will save each OTDR trace to diskette and provide to customer for evaluation. In addition, Fiber Technologies is to provide power meter test data to customer in hard copy on supplied forms. It is imperative to verify that all fibers have one to one continuity on the new cable. This will be done at the fiber level, not just the pigtail level. For each pigtail, visual inspection will be used to verify fiber color and buffer color. Once the fiber color and the buffer color have been recorded, power meters will be attached. Then at the far end, visual inspection should be used to verify the fiber color and the buffer tube color of the fiber receiving the signal. Then power level readings should be taken in the opposite direction. The power measurements should be made at 1310 and 1550nm unless otherwise specified. The test results for the bi-directional OTDR testing are as follows:
5.1 The objective for each splice is a loss of .10 dB utilizing OTDR and GN Nettest reporting software. If after five (5) splice attempts, splicer is not able to produce a loss value of .10 dB or less, splicer will notify the Fiber Technologies on-site Project Manager and perform an additional (3) attempts, which will be documented by the Project Manager. If after the (3) attempts, the splicer cannot obtain the .10 dB loss value, then the splice will be marked as Out of Spec (OOS) and initialed by the Fiber Technologies Project Manager on the data sheet. On the attached data sheets, all cable information will be filled in by splicer and verified by a Fiber Technologies representative. These two forms are to contain the following information:
5.2 The End-to-End Attenuation Loss Power Meter Test Form will be used to verify continuity from end to end. In addition, the power level readings taken with a laser source and power meter must be recorded for every fiber on this sheet. In the column marked fiber, the fiber color must be recorded. In the buffer column, the buffer tube or ribbon color must be recorded. OTDR testing to be conducted at 1310 and 1550nm unless specified. All fibers inclusive to any span wi...
End-to-End Testing. The cables are to be tested for continuity of pairs and electrical and transmission characteristics of the cable pairs, between MDF and pillar in case of primary cables and pillar and DPs in case of distribution cables separately. Broadly the following Parameters are tested I. Insulation