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公开(公告)号:US09922890B1
公开(公告)日:2018-03-20
申请号:US15721792
申请日:2017-09-30
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
IPC: H01L21/66 , H01L27/118 , H01L29/417 , H01L27/02 , H01L23/528 , G06F11/07 , G06F17/50 , H01L29/06
CPC classification number: H01L22/20 , G01R31/303 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , G06F2217/06 , H01L21/823437 , H01L21/823475 , H01L22/26 , H01L22/32 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/088 , H01L27/11803 , H01L27/11807 , H01L28/00 , H01L29/0649 , H01L29/0684 , H01L29/0847 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11888
Abstract: An integrated circuit, in the form of a wafer, die, or chip, includes multiple standard cell-compatible fill cells, configured to enable non-contact electrical measurements. Such fill cells include mesh pads that contain at least three conductive stripes disposed between adjacent gate stripes. Such fill cells further include geometry to enable non-contact evaluation of snake opens and/or resistances.
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公开(公告)号:US09871028B1
公开(公告)日:2018-01-16
申请号:US15475242
申请日:2017-03-31
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
IPC: H01L29/00 , H01L27/02 , H01L29/45 , H01L23/522 , H01L23/528 , H01L21/66 , H01L21/8234 , H01L27/088 , G06F17/50 , G06F11/07
CPC classification number: H01L22/20 , G01R31/303 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , G06F2217/06 , H01L21/823437 , H01L21/823475 , H01L22/26 , H01L22/32 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/088 , H01L27/11803 , H01L27/11807 , H01L28/00 , H01L29/0649 , H01L29/0684 , H01L29/0847 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11888
Abstract: A process for making and using a semiconductor wafer includes instantiating first and second designs of experiments (DOEs), each comprised of at least two fill cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The first DOE contains fill cells configured to enable non-contact (NC) detection of tip-to-tip shorts, and the second DOE contains fill cells configured to enable NC detection of chamfer shorts. The process may further include obtaining NC measurements from the first and/or second DOE(s) and using such measurements, at least in part, to selectively perform additional processing, metrology or inspection steps on the wafer, and/or on other wafer(s) currently being manufactured.
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公开(公告)号:US09870966B1
公开(公告)日:2018-01-16
申请号:US15281508
申请日:2016-09-30
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
CPC classification number: H01L22/26 , G01R31/2884 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , H01L22/20 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/11803 , H01L27/11807 , H01L29/0649 , H01L29/0684 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11885 , H01L2027/11887
Abstract: Improved processes for manufacturing semiconductor wafers, chips, or dies utilize in-line data obtained from non-contact electrical measurements (“NCEM”) of fill cells that contain structures configured to target/expose a variety of open-circuit, short-circuit, leakage, and/or excessive resistance failure modes. Such processes include evaluating one or more Designs of Experiments (“DOEs”), each comprised of multiple NCEM-enabled fill cells, in at least two variants, targeted to the same failure mode. Such DOEs include multiple means/steps for enabling non-contact (NC) detection of AACNT-TS via opens.
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公开(公告)号:US09865583B1
公开(公告)日:2018-01-09
申请号:US15635595
申请日:2017-06-28
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
IPC: H01L21/66 , H01L27/02 , H01L29/417 , H01L29/06 , H01L23/528
CPC classification number: H01L27/0207 , H01L22/26 , H01L23/528 , H01L29/0649 , H01L29/41725
Abstract: A process for making and using a semiconductor wafer includes instantiating first and second designs of experiments (DOEs), each comprised of at least two fill cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The first DOE contains fill cells configured to enable non-contact (NC) detection of snake opens, and the second DOE contains fill cells configured to enable NC detection of stitch opens. The process may further include obtaining NC measurements from the first and/or second DOE(s) and using such measurements, at least in part, to selectively perform additional processing, metrology or inspection steps on the wafer, and/or on other wafer(s) currently being manufactured.
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公开(公告)号:US09799575B2
公开(公告)日:2017-10-24
申请号:US15090256
申请日:2016-04-04
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
CPC classification number: H01L22/26 , G01R31/2884 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , H01L22/20 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/11803 , H01L27/11807 , H01L29/0649 , H01L29/0684 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11885 , H01L2027/11887
Abstract: Wafers, chips, or dies that contain fill cells with structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). Such NCEM-enabled fill cells may target/expose a variety of open-circuit, short-circuit, leakage, or excessive resistance failure modes. Such wafers, chips, or dies may include Designs of Experiments (“DOEs”), comprised of multiple NCEM-enabled fill cells, in at least two variants, all targeted to the same failure mode(s).
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Patent Agency Ranking
公开(公告)号:US09793253B1
公开(公告)日:2017-10-17
申请号:US15372331
申请日:2016-12-07
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
IPC: H01L29/00 , H01L27/02 , H01L21/66 , H01L29/417 , H01L29/06 , H01L23/528 , G06F11/07 , G06F17/50
CPC classification number: H01L22/26 , G01R31/2884 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , H01L22/20 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/11803 , H01L27/11807 , H01L29/0649 , H01L29/0684 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11885 , H01L2027/11887
Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one AACNT-short-related failure mode, one GATE-short-related failure mode, and one metal-short-related failure mode.
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公开(公告)号:US09780083B1
公开(公告)日:2017-10-03
申请号:US15392755
申请日:2016-12-28
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
CPC classification number: H01L22/20 , G01R31/303 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , G06F2217/06 , H01L21/823437 , H01L21/823475 , H01L22/26 , H01L22/32 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/088 , H01L27/11803 , H01L27/11807 , H01L28/00 , H01L29/0649 , H01L29/0684 , H01L29/0847 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11888
Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one TS-short-related failure mode, one metal-short-related failure mode, and one AA-short-related failure mode.
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公开(公告)号:US09748153B1
公开(公告)日:2017-08-29
申请号:US15475194
申请日:2017-03-31
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
IPC: H01L29/00 , H01L21/66 , H01L27/02 , H01L23/528 , H01L29/417 , H01L29/06 , G06F11/07 , G06F17/50
CPC classification number: H01L22/26 , G06F11/079 , G06F17/5045 , G06F17/5072 , G06F17/5081 , H01L22/14 , H01L22/20 , H01L22/34 , H01L23/528 , H01L27/0207 , H01L29/0649 , H01L29/0684 , H01L29/41725
Abstract: A process for making and using a semiconductor wafer includes instantiating first and second designs of experiments (DOEs), each comprised of at least two fill cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The first DOE contains fill cells configured to enable non-contact (NC) detection of side-to-side shorts, and the second DOE contains fill cells configured to enable NC detection of tip-to-side shorts. The process may further include obtaining NC measurements from the first and/or second DOE(s) and using such measurements, at least in part, to selectively perform additional processing, metrology or inspection steps on the wafer, and/or on other wafer(s) currently being manufactured.
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公开(公告)号:US09741703B1
公开(公告)日:2017-08-22
申请号:US15391884
申请日:2016-12-28
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
IPC: H01L29/00 , H01L27/02 , H01L21/66 , H01L29/417 , H01L29/06 , H01L23/528 , G06F17/50 , G06F11/07
CPC classification number: H01L22/20 , G01R31/303 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , G06F2217/06 , H01L21/823437 , H01L21/823475 , H01L22/26 , H01L22/32 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/088 , H01L27/11803 , H01L27/11807 , H01L28/00 , H01L29/0649 , H01L29/0684 , H01L29/0847 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11888
Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one GATE-short-related failure mode, one TS-short-related failure mode, and one AA-short-related failure mode.
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公开(公告)号:US09728553B1
公开(公告)日:2017-08-08
申请号:US15371955
申请日:2016-12-07
Applicant: PDF Solutions, Inc.
Inventor: Stephen Lam , Dennis Ciplickas , Tomasz Brozek , Jeremy Cheng , Simone Comensoli , Indranil De , Kelvin Doong , Hans Eisenmann , Timothy Fiscus , Jonathan Haigh , Christopher Hess , John Kibarian , Sherry Lee , Marci Liao , Sheng-Che Lin , Hideki Matsuhashi , Kimon Michaels , Conor O'Sullivan , Markus Rauscher , Vyacheslav Rovner , Andrzej Strojwas , Marcin Strojwas , Carl Taylor , Rakesh Vallishayee , Larg Weiland , Nobuharu Yokoyama
IPC: H01L29/00 , H01L27/02 , H01L27/118 , H01L23/528 , H01L23/522 , H01L29/45 , G01R31/28
CPC classification number: H01L22/26 , G01R31/2884 , G06F11/079 , G06F17/5045 , G06F17/5068 , G06F17/5072 , G06F17/5081 , H01L22/20 , H01L22/34 , H01L23/5226 , H01L23/528 , H01L27/0207 , H01L27/11803 , H01L27/11807 , H01L29/0649 , H01L29/0684 , H01L29/41725 , H01L29/45 , H01L2027/11866 , H01L2027/11875 , H01L2027/11885 , H01L2027/11887
Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one AACNT-short-related failure mode, one GATE-short-related failure mode, and one TS-short-related failure mode.
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