Design of a 1.7-GHz low-power delay-fault-testable 32-b ALU in 180-nm CMOS technology

Chatterjee B.; Sachdev M.

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Design of a 1.7-GHz low-power delay-fault-testable 32-b ALU in 180-nm CMOS technology

机译：采用180nm CMOS技术的1.7GHz低功耗可延迟故障测试的32b ALU的设计

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In this paper, we present the design of a 32-b arithmetic and log unit (ALU) that allows low-power operation while supporting a design-for-test (DFT) scheme for delay-fault testability. The low-power techniques allow for 18% reduction in ALU total energy for 180-nm bulk CMOS technology with minimal performance degradation. In addition, there is a 22% reduction in standby mode leakage power and 23% lower peak current demand. In the test mode, we employ a built-in DFT scheme that can detect delay faults while reducing the test-mode automatic test equipment clock frequency.

机译：在本文中，我们介绍了一种32位算术和对数单元（ALU）的设计，该算术和对数单元（ALU）允许低功耗运行，同时支持用于延迟故障可测试性的测试设计（DFT）方案。低功耗技术可使180 nm批量CMOS技术的ALU总能量降低18％，而性能下降却最小。此外，待机模式泄漏功率降低了22％，峰值电流需求降低了23％。在测试模式下，我们采用了内置的DFT方案，该方案可以检测延迟故障，同时降低测试模式下自动测试设备的时钟频率。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2005年第11期|p.1296-1304|共9页
作者
Chatterjee B.; Sachdev M.;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
CMOS digital integrated circuits; design for testability; fault diagnosis; integrated circuit design; integrated circuit testing; low-power electronics; 1.7 GHz; 180 nm; 32 bit; CMOS technology; arithmetic and log unit; automatic test equipment; clock frequency; dela;

机译：CMOS数字集成电路;可测试性设计;故障诊断;集成电路设计;集成电路测试;低功耗电子设备;1.7 GHz;180 nm;32位;CMOS技术;算术和对数单元;自动测试设备;时钟频率;dela;

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2. Energy efficient low-power full-adder by 65 nmCMOS technology in ALU [J] . Suresh Kumar N, Paramasivam K Concurrency and computation: practice and experience . 2019,第12期

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3. Design and Fabrication of Terahertz Detectors Based on 180-nm CMOS Process Technology [J] . Kosuke Wakita, Eiichi Sano, Masayuki Ikebe, International Journal of High Speed Electronics and Systems: Devices, Integrated Circuits and Systems, Optical and Quantum Electronics . 2016,第3a4期

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4. Low-Power, High-Speed, Indirect Frequency-Compensated OPAMP with Class AB Output Stage in 180-nm CMOS Process Technology [C] . Subhrajyoti Das, Sushanta K. Mandal, Adyasha Rath, International Conference on Intelligent Computing, Communication and Devices . 2015

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5. Low-Power and High-Performance SRAM Design in High Variability Advanced CMOS Technology [D] . Ataei, Fatemeh. 2017

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Design of a 1.7-GHz low-power delay-fault-testable 32-b ALU in 180-nm CMOS technology

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