随着低功耗设计的兴起,低功耗测试正在得到越来越多的关注。
Low power testing scheme has been paid more attention because of low power design.
本文提出了一种基于算术加法生成器的测试或内建自测试的低功耗测试方法。
A low power test approach for test or built-in self-test based on arithmetic additive generator is proposed in this paper.
通过改变线性反馈移位寄存器的结构滤掉无效的测试矢量从而实现低功耗测试。
For low power consumption during test mode, the proposed approach ignores the non detecting vectors by altering the structure of LFSR.
本发明涉及集成电路测试领域,公开了一种集成电路的低功耗测试图形生成器及其测试方法。
The invention relates to the test field of integrated circuits and discloses a low power consumption test pattern generator of an integrated circuit and a test method thereof.
介绍一种油井井下参数(压力、温度)无线测试的数据信息传输方法及井下发射装置低功耗控制电路。
The paper introduces a data transmission method for wireless testing of oilwell underpit parameters (pressure and temperature) and low power consuming control circuits of underpit emission devices.
总的来说,我们很高兴能与低功耗技术,在一般的基准性能,还将采取在服务器上的观点在未来的测试特定的点看看。
Overall, we're quite happy with the performance of the low power technology in general benchmarks, and will also take a look at the server-specific point of view in future tests.
在分析全扫描内建自测试(BIST)过高测试功耗原因的基础上,提出了一种选择部分寄存器成为扫描单元的部分扫描算法来实现低功耗BIST。
Based on the analysis of excessive power dissipation off ull-scan BIST, we present partial scan algorithm which selects a portion of registers for scan cells to implement low power BIST.
介绍了自校准、低功耗气体测试仪的硬件和软件设计。
This paper introduces the hardware and software design of the gas detector with self-calibrated and low power.
针对存储测试技术对测试系统低功耗的要求,研制了微型脉冲供电式光电倒置开关。
Aimed at the requirements of the low power consumption for memorizing and testing technology, miniature pulse-powered electro-optical invert switch was developed.
因此,高层次测试综合和高层次低功耗综合设计技术引起了学术界的广泛关注。
Therefore, high-level test synthesis and high-level low power synthesis draw wide attention of academic world.
拟设计开发一套便携稳定、低功耗的数据采集、无线监测系统用于列车空气动力学测试试验。
In order to have test on high-speed train aerodynamics, we would like to Design a portable, stable and low-power data acquisition and wireless monitoring system.
实际的设计和测试结果表明,OSH-ASIP方法把两者的优点有机地结合在一起,是本论文低功耗DSP设计成功的基础。
The practical design and implementation result shows that, the OSH-ASIP method combines the above two merits and builds the foundation for the success of the low-power DSP design in this dissertation.
实际的设计和测试结果表明,OSH-ASIP方法把两者的优点有机地结合在一起,是本论文低功耗DSP设计成功的基础。
The practical design and implementation result shows that, the OSH-ASIP method combines the above two merits and builds the foundation for the success of the low-power DSP design in this dissertation.
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