摘要:
A device, system and method for evaluating reliability of a semiconductor chip are disclosed. Strain is determined at a location of interest in a structure. Failures are evaluated in a plurality of the structures after stress cycling to determine a strain threshold with respect to a feature characteristic. Structures on a chip or chips are evaluated based on the feature characteristic to predict reliability based on the strain threshold and the feature characteristic. Predictions and design changes may be made based on the results.
摘要:
A device, system and method for evaluating reliability of a semiconductor chip are disclosed. Strain is determined at a location of interest in a structure. Failures are evaluated in a plurality of the structures after stress cycling to determine a strain threshold with respect to a feature characteristic. Structures on a chip or chips are evaluated based on the feature characteristic to predict reliability based on the strain threshold and the feature characteristic. Predictions and design changes may be made based on the results.
摘要:
A device and method for evaluating reliability of a semiconductor chip structure built by a manufacturing process includes a test structure built in accordance with a manufacturing process. The test structure is thermal cycled and the yield of the test structure is measured. The reliability of the semiconductor chip structure built by the manufacturing process is evaluated based on the yield performance before the thermal cycling.
摘要:
A device and method for evaluating reliability of a semiconductor chip structure built by a manufacturing process includes a test structure built in accordance with a manufacturing process. The test structure is thermal cycled and the yield of the test structure is measured. The reliability of the semiconductor chip structure built by the manufacturing process is evaluated based on the yield performance before the thermal cycling.
摘要:
A device and method for evaluating reliability of a semiconductor chip structure built by a manufacturing process includes a test structure built in accordance with a manufacturing process. The test structure is thermal cycled and the yield of the test structure is measured. The reliability of the semiconductor chip structure built by the manufacturing process is evaluated based on the yield performance before the thermal cycling.
摘要:
A device and method for evaluating reliability of a semiconductor chip structure built by a manufacturing process includes a test structure built in accordance with a manufacturing process. The test structure is thermal cycled and the yield of the test structure is measured. The reliability of the semiconductor chip structure built by the manufacturing process is evaluated based on the yield performance before the thermal cycling.
摘要:
A dual damascene process capable of reliably producing aluminum interconnects that exhibit improved electromigration characteristics over aluminum interconnects produced by conventional RIE techniques. In particular, the dual damascene process relies on a PVD-Ti/CVD-TiN barrier layer to produce aluminum lines that exhibit significantly reduced saturation resistance levels and/or suppressed electromigration, particularly in lines longer than 100 micrometers. The electromigration lifetime of the dual damascene aluminum line is strongly dependent on the materials and material fill process conditions. Significantly, deviations in materials and processing can result in electromigration lifetimes inferior to that achieved with aluminum RIE interconnects. In one example, current densities as high as 2.5 MA/cm2 are necessary to induce a statistically relevant number of fails due to electromigration.
摘要翻译:一种能够可靠地生产铝互连的双镶嵌工艺,其通过常规RIE技术生产的铝互连件具有改善的电迁移特性。 特别地,双镶嵌工艺依赖于PVD-Ti / CVD-TiN阻挡层以产生显示出显着降低的饱和电阻水平和/或抑制电迁移的铝线,特别是在长于100微米的线中。 双镶嵌铝线的电迁移寿命很大程度上取决于材料和材料填充工艺条件。 重要的是,材料和加工的偏差可导致电迁移寿命低于铝RIE互连实现的寿命。 在一个示例中,高达2.5MA / cm 2的电流密度是诱导由于电迁移引起的统计上相关的失败数量所必需的。
摘要:
A method and apparatus for detecting metal extrusion associated with electromigration (EM) under high current density situations within an EM test line by measuring changes in capacitance associated with metal extrusion that occurs in the vicinity of the charge carrying surfaces of one or more capacitors situated in locations of close physical proximity to anticipated sites of metal extrusion on an EM test line are provided. The capacitance of each of the one or more capacitors is measured prior to and then during or after operation of the EM test line so as to detect capacitance changes indicating metal extrusion.