A Low-Power and Area-Efficient Design of a Weighted Pseudorandom Test-Pattern Generator for a Test-Per-Scan Built-in Self-Test Architecture

Shivakumar, Vishnupriya; Senthilpari, C.; Yusoff, Zubaida

doi:10.1109/access.2021.3059171

Cited by 18 publications

(7 citation statements)

References 24 publications

(81 reference statements)

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“…The data generated by the two LFSRs is combined using Modulo 2 additions to generate a set of small correlation PN codes. This process produces a sequence of gold codes that have a correlation behavior [19] . A gold code sequence is obtained by multiplying the two sequential PN sequences.…”

Section: Methods Detailmentioning

confidence: 99%

Sequential logic circuit gold codes for electronics and communication technologies

Devrari,

Kumar,

Kuchhal

et al. 2024

MethodsX

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Section: Methods Detailmentioning

confidence: 99%

Sequential logic circuit gold codes for electronics and communication technologies

Devrari,

Kumar,

Kuchhal

et al. 2024

MethodsX

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“…The receiving eventually comes to an end, Both the state and completed signals are pulled down and up, respectively. Once every data bit has been input, the sampling counter will count [16].…”

Section: Receiver Module 231 Receiver Timing Configurationmentioning

confidence: 99%

Design and Implementation of Verilog Based High Speed Low Power UART

Ms. Banti Kumari,

Ms. Kanika Jindal,

Mr. Amit Bindal

2024

Int Res J Adv Engg Hub

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The most crucial component of serial communication is a microcircuit called a universal asynchronous receiver/transmitter (UART). Receive-transmitter asynchronous technology is known as UART, and it is widely used for device-to-device communication protocols. Using asynchronous serial communication at a speed that can be adjusted. A hardware communication technique called UART Asynchronous conditions occur when the output of the transmitting device and the receiving end are not in sync with a clock. In UART, receiving a signal is known as RxD, and transmitting a signal is known as TxD. In comparison to the existing conventional UART design, we were able to reduce delay by 29% and power usage by 33% using our approach. The effectiveness of the novel UART design is noticed with the reduction in delay and power consumption. Synthesis and simulation are done in Xilinx ISE and Modelsim and Verilog HDL is used to implement a unique UART design.

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“…It also allows the scan chains to be driven by constant values instead of professional rules and practice guidelines (PRPG) for a given period, providing additional flexibility to create low transition patterns. The DFT architecture provides a hybrid test solution that Shivakumar et al [61] presented a weighted pseudo-random test pattern generator to reduce power during the BIST. It uses the Galois scheme and provides particular weights to the respective scan chains through the weighted mux.…”

Section: Weight-based Segmentationmentioning

confidence: 99%

Developments in scan shift power reduction: a survey

Sontakke,

Dickhoff

2023

Bulletin EEI

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While power reduction during testing is necessary for today's low-power devices, it also lowers test costs. Scan-based methods are the most widely used approach for testing integrated circuits (IC). Test vectors are shifted into and out of scan chains bit by bit during shift operation. The time required for shift operation dominates the test time. With the geometries shrinking (7 nm→5 nm→3 nm→1.8 nm), ICs are required to be tested for newer defects, increasing test time. The most effective way to reduce test time for scan operation is to increase the frequency of the shift operation. Reduction in shift power enables scan operation to be performed with increased frequency, reducing test time, and test cost. This paper presents a survey of techniques proposed recently for shift power reduction. Various techniques, including special flip-flop usage, segmentation, reordering, and low-pass filter, are being reviewed. The techniques are organized based on main attributes to underscore their similarities and differences. Pros and cons in terms of complexities involved in their implementation are discussed. We believe this paper will provide a point of reference for further studies in scan shift power reduction and will be helpful to both industry and academia.

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A Low-Power and Area-Efficient Design of a Weighted Pseudorandom Test-Pattern Generator for a Test-Per-Scan Built-in Self-Test Architecture

Cited by 18 publications

References 24 publications

Sequential logic circuit gold codes for electronics and communication technologies

Sequential logic circuit gold codes for electronics and communication technologies

Design and Implementation of Verilog Based High Speed Low Power UART

Developments in scan shift power reduction: a survey

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