为帮助确保得到足够的覆盖率,测试既在实验室条件下也在模拟的用户情形下进行。
Tests are conducted under laboratory conditions, as well as under simulated customer scenarios, to help ensure adequate coverage.
还必须考虑测试的类型,结合成功路径和边界条件,来获得尽可能好的覆盖率。
You have to also consider the types of tests, with both happy paths and boundary conditions, to have the best possible coverage.
理论和实验结果说明,如果满足测试条件,它们保证全故障覆盖,且产生较少的测试用例。
Theory and experiments show that the cases suites guarantee full coverage and the methods generate less test cases if it satisfies some assumptions.
实验表明,在稍微降低故障覆盖率的条件下,本文提出的测试方法能显著降低测试的峰值功耗,同时也能降低平均功耗和能耗。
The experiments show that the proposed method can reduce peak power, average power and energy simultaneously at the cost of a little fault coverage dropping.
实验表明,在稍微降低故障覆盖率的条件下,本文提出的测试方法能显著降低测试的峰值功耗,同时也能降低平均功耗和能耗。
The experiments show that the proposed method can reduce peak power, average power and energy simultaneously at the cost of a little fault coverage dropping.
应用推荐