R. Bhakthavatchalu, G. Deepthy, S. Sreenivasa Mallia, R. Harikrishnan, Arun Krishnan, B. Sruthi
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引用次数: 11
摘要
用于逻辑电路的BIST技术改进了对初级输入/输出的内部信号的访问。本文提出了用于测试ASIC芯片的可编程逻辑BIST体系结构。该方案基于STUMPS[6](使用MISR[4,6]和并行移位寄存器的自测)架构,该架构使用片上电路生成测试模式并分析响应,而无需或很少需要ATE的帮助。只有在初始化内置测试和检查测试结果时才需要外部操作。该系统在Xilinx ISE 10.1中合成以获得运行频率,并在Design Compiler中进行时序分析。成功实现了多电压降耗设计。
32-bit reconfigurable logic-BIST design using Verilog for ASIC chips
The BIST technique for logic circuits improves access to internal signals from primary input/outputs. This paper presents programmable logic BIST architecture for testing ASIC chips. The scheme is based on STUMPS [6] (Self Test Using MISR [4, 6] and Parallel Shift register) architecture which uses an on-chip circuitry to generate the test patterns and analyze the responses with no or little help from an ATE. External operations are required only to initialize the Built-in tests and to check the test results. The system is synthesized in Xilinx ISE 10.1 to get the frequency of operation and in Design Compiler for timing Analysis. Multi Voltage design for power reduction is successfully implemented.
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