Structural and behavioral synthesis for testability techniques

In this paper, a behavioral synthesis for testability system is presented. In this system, a testability modifier is connected to an existing behavioral level synthesis program, which accepts a circuit's behavioral description in C or VHDL as input. The outline of the system is as follows: (1)...

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Veröffentlicht in:	IEEE transactions on computer-aided design of integrated circuits and systems 1994-06, Vol.13 (6), p.777-785
Hauptverfasser:	Chung-Hsing Chen, Karnik, T., Saab, D.G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Circuit synthesis Circuit testing Combinational circuits Controllability Design for testability Design. Technologies. Operation analysis. Testing Electronics Exact sciences and technology Flip-flops Integrated circuits NASA Observability Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Sequential analysis System testing
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container_end_page	785
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container_title	IEEE transactions on computer-aided design of integrated circuits and systems
container_volume	13
creator	Chung-Hsing Chen Karnik, T. Saab, D.G.
description	In this paper, a behavioral synthesis for testability system is presented. In this system, a testability modifier is connected to an existing behavioral level synthesis program, which accepts a circuit's behavioral description in C or VHDL as input. The outline of the system is as follows: (1) a testability analyzer is first applied to identify the hard-to-test areas in the circuit from the behavioral description; (2) a selection process is then applied to select test points or partial scan flip-flops. Selection is based on behavioral information rather than low-level structural description. This allows test point insertion or partial scan usage on circuits described as an interconnection of high level modules; (3) test statement insertion (TSI), an alternative to test point insertion and partial scan, is used to modify the circuit based on the selected test points. The major advantage of using TSI is a low pin count and test application time as compared to test point insertion and partial scan. In addition, TSI can be applied at the early design phase. This approach was implemented in a computer program, and applied to several sample circuits generated by a synthesis tool. The results are also presented.< >
doi_str_mv	10.1109/43.285251
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In this system, a testability modifier is connected to an existing behavioral level synthesis program, which accepts a circuit's behavioral description in C or VHDL as input. The outline of the system is as follows: (1) a testability analyzer is first applied to identify the hard-to-test areas in the circuit from the behavioral description; (2) a selection process is then applied to select test points or partial scan flip-flops. Selection is based on behavioral information rather than low-level structural description. This allows test point insertion or partial scan usage on circuits described as an interconnection of high level modules; (3) test statement insertion (TSI), an alternative to test point insertion and partial scan, is used to modify the circuit based on the selected test points. The major advantage of using TSI is a low pin count and test application time as compared to test point insertion and partial scan. In addition, TSI can be applied at the early design phase. This approach was implemented in a computer program, and applied to several sample circuits generated by a synthesis tool. The results are also presented.< ></description><identifier>ISSN: 0278-0070</identifier><identifier>EISSN: 1937-4151</identifier><identifier>DOI: 10.1109/43.285251</identifier><identifier>CODEN: ITCSDI</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Applied sciences ; Circuit synthesis ; Circuit testing ; Combinational circuits ; Controllability ; Design for testability ; Design. Technologies. Operation analysis. Testing ; Electronics ; Exact sciences and technology ; Flip-flops ; Integrated circuits ; NASA ; Observability ; Semiconductor electronics. Microelectronics. Optoelectronics. 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In this system, a testability modifier is connected to an existing behavioral level synthesis program, which accepts a circuit's behavioral description in C or VHDL as input. The outline of the system is as follows: (1) a testability analyzer is first applied to identify the hard-to-test areas in the circuit from the behavioral description; (2) a selection process is then applied to select test points or partial scan flip-flops. Selection is based on behavioral information rather than low-level structural description. This allows test point insertion or partial scan usage on circuits described as an interconnection of high level modules; (3) test statement insertion (TSI), an alternative to test point insertion and partial scan, is used to modify the circuit based on the selected test points. The major advantage of using TSI is a low pin count and test application time as compared to test point insertion and partial scan. In addition, TSI can be applied at the early design phase. 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In this system, a testability modifier is connected to an existing behavioral level synthesis program, which accepts a circuit's behavioral description in C or VHDL as input. The outline of the system is as follows: (1) a testability analyzer is first applied to identify the hard-to-test areas in the circuit from the behavioral description; (2) a selection process is then applied to select test points or partial scan flip-flops. Selection is based on behavioral information rather than low-level structural description. This allows test point insertion or partial scan usage on circuits described as an interconnection of high level modules; (3) test statement insertion (TSI), an alternative to test point insertion and partial scan, is used to modify the circuit based on the selected test points. The major advantage of using TSI is a low pin count and test application time as compared to test point insertion and partial scan. In addition, TSI can be applied at the early design phase. 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subjects	Applied sciences Circuit synthesis Circuit testing Combinational circuits Controllability Design for testability Design. Technologies. Operation analysis. Testing Electronics Exact sciences and technology Flip-flops Integrated circuits NASA Observability Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Sequential analysis System testing
title	Structural and behavioral synthesis for testability techniques
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