Inventor · disambiguated record
Larg Weiland
Also filed as: WEILAND LARG · WEILAND LARG H
95 granted patents·1 pending application·692 citations·filing 2000–2023
99Inventor score
Top patents by PatentIndex Score
96 records- 0198US10593604B1Process for making semiconductor dies, chips, and wafers using in-line measurements obtained from DOEs of NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Mar 17, 2020·19 cites·19 claims
- 0298US9870962B1Integrated circuit including NCEM-enabled, interlayer overlap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Jan 16, 2018·13 cites·19 claims
- 0398US9799575B2Integrated circuit containing DOEs of NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Oct 24, 2017·19 cites·11 claims
- 0498US6834375B1System and method for product yield prediction using a logic characterization vehiclePDF SOLUTIONS INC·Filed 2000·Granted Dec 21, 2004·246 cites·11 claims
- 0597US9805994B1Mesh-style NCEM pads, and process for making semiconductor dies, chips, and wafers using in-line measurements from such padsPDF SOLUTIONS INC·Filed 2016·Granted Oct 31, 2017·15 cites·18 claims
- 0697US9627370B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least via-open-configured, GATE-short-configured, GATECNT-short-configured, and TS-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Apr 18, 2017·15 cites·20 claims
- 0797US6901564B2System and method for product yield predictionPDF SOLUTIONS INC·Filed 2002·Granted May 31, 2005·143 cites·45 claims
- 0896US10978438B1IC with test structures and E-beam pads embedded within a contiguous standard cell areaPDF SOLUTIONS INC·Filed 2019·Granted Apr 13, 2021·9 cites·14 claims
- 0995US7174521B2System and method for product yield predictionPDF SOLUTIONS INC·Filed 2005·Granted Feb 6, 2007·32 cites·36 claims
- 1093US9741703B1Integrated circuit containing standard logic cells and ilbrary-compatible, NCEM-enabled fill cells, including at least via-open-configured, gate-short-configured, TS-short-configured, and AA-short-conigured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Aug 22, 2017·4 cites·20 claims
- 1193US9691672B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least via-open-configured, GATE-short-configured, GATECNT-short-configured, and metal-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2017·Granted Jun 27, 2017·4 cites·20 claims
- 1293US9627371B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least via-open-configured, GATE-short-configured, GATECNT-short-configured, and AA-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Apr 18, 2017·7 cites·20 claims
- 1392US7356800B2System and method for product yield predictionPDF SOLUTIONS INC·Filed 2006·Granted Apr 8, 2008·15 cites·20 claims
- 1491US7673262B2System and method for product yield predictionPDF SOLUTIONS INC·Filed 2008·Granted Mar 2, 2010·11 cites·20 claims
- 1591US7373625B2System and method for product yield predictionPDF SOLUTIONS INC·Filed 2006·Granted May 13, 2008·12 cites·29 claims
- 1690US10199288B1Method for processing a semiconductor wafer using non-contact electrical measurements indicative of at least one side-to-side short or leakage, at least one corner short or leakage, and at least one via open or resistance, where such measurements are obtained from non-contact pads associated with respective side-to-side short, corner short, and via open test areasPDF SOLUTIONS INC·Filed 2018·Granted Feb 5, 2019·2 cites·20 claims
- 1790US10199283B1Method for processing a semiconductor wager using non-contact electrical measurements indicative of a resistance through a stitch, where such measurements are obtained by scanning a pad comprised of at least three parallel conductive stripes using a moving stage with beam deflection to account for motion of the stagePDF SOLUTIONS INC·Filed 2017·Granted Feb 5, 2019·3 cites·20 claims
- 1890US9905487B1Process for making semiconductor dies, chips, and wafers using non-contact measurements obtained from DOEs of NCEM-enabled fill cells on test wafers that include multiple means/steps for enabling NC detection of V0 via opensPDF SOLUTIONS INC·Filed 2016·Granted Feb 27, 2018·3 cites·10 claims
- 1989US9786648B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least chamfer-short-configured, AACNT-short-configured, GATECNT-short-configured, and TS-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Oct 10, 2017·2 cites·20 claims
- 2089US9773773B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least chamfer-short-configured, AACNT-short-configured, GATE-short-configured, and GATECNT-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Sep 26, 2017·2 cites·20 claims
- 2189US9761575B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least chamfer-short-configured, AACNT-short-configured, GATE-short-configured, and TS-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Sep 12, 2017·2 cites·20 claims
- 2287US10290552B1Methods for processing a semiconductor wafer using non-contact electrical measurements indicative of at least one tip-to-tip short or leakage, at least one via-chamfer short or leakage, and at least one corner short or leakage, where such measurements are obtained from cells with respective tip-to-tip short, via-chamfer short, and corner short test areas, using a charged particle-beam inspector with beam deflection to account for motion of the stagePDF SOLUTIONS INC·Filed 2018·Granted May 14, 2019·2 cites·20 claims
- 2387US10199294B1Method for processing a semiconductor wafer using non-contact electrical measurements indicative of a least one side-to-side short or leakage, at least one via-chamfer short or leakage, and at least one corner short or leakage, where such measurements are obtained from cells with respective side-to-side short, via-chamfer short, and corner short test areas, using a charged particle-beam inspector with beam deflection to account for motion of the stagePDF SOLUTIONS INC·Filed 2018·Granted Feb 5, 2019·1 cites·20 claims
- 2487US9761573B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least via-open-configured, AACNT-short-configured, GATE-short-configured, and TS-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Sep 12, 2017·2 cites·20 claims
- 2586US10096530B1Process for making and using a semiconductor wafer containing first and second DOEs of standard cell compatible, NCEM-enabled fill cells, with the first DOE including merged-via open configured fill cells, and the second DOE including stitch open configured fill cellsPDF SOLUTIONS INC·Filed 2017·Granted Oct 9, 2018·4 cites·14 claims
- 2685US9947601B1Integrated circuit including NCEM-enabled, side-to-side gap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Apr 17, 2018·1 cites·19 claims
- 2784US9922968B1Process for making and using a semiconductor wafer containing first and second DOEs of standard cell compatible, NCEM-enabled fill cells, with the first DOE including side-to-side short configured fill cells, and the second DOE including chamfer short configured fill cellsPDF SOLUTIONS INC·Filed 2017·Granted Mar 20, 2018·1 cites·23 claims
- 2884US9773774B1Process for making and using a semiconductor wafer containing first and second DOEs of standard cell compatible, NCEM-enabled fill cells, with the first DOE including chamfer short configured fill cells, and the second DOE including corner short configured fill cellsPDF SOLUTIONS INC·Filed 2017·Granted Sep 26, 2017·4 cites·17 claims
- 2984US9721937B1Integrated circuit containing first and second does of standard cell compatible, NCEM-enabled fill cells, with the first DOE including side-to-side short configured fill cells, and the second DOE including tip-to-tip short configured fill cellsPDF SOLUTIONS INC·Filed 2017·Granted Aug 1, 2017·1 cites·23 claims
- 3084US6475871B1Passive multiplexor test structure for integrated circuit manufacturingPDF SOLUTIONS INC·Filed 2000·Granted Nov 5, 2002·32 cites·23 claims
- 3183US9653446B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least via-open-configured, AACNT-short-configured, TS-short-configured, and AA-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted May 16, 2017·2 cites·20 claims
- 3280US9911649B1Process for making and using mesh-style NCEM padsPDF SOLUTIONS INC·Filed 2016·Granted Mar 6, 2018·2 cites·3 claims
- 3380US9728553B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least via-open-configured, AACNT-short-configured, GATE-short-configured, and TS-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Aug 8, 2017·1 cites·20 claims
- 3479US9831141B1Integrated circuit containing DOEs of GATE-snake-open-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Nov 28, 2017·1 cites·20 claims
- 3579US9711421B1Process for making semiconductor dies, chips, and wafers using in-line measurements obtained from DOEs of GATE-snake-open-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted Jul 18, 2017·1 cites·20 claims
- 3676US9929063B1Process for making an integrated circuit that includes NCEM-Enabled, tip-to-side gap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Mar 27, 2018·2 cites·19 claims
- 3776US9768083B1Process for making and using a semiconductor wafer containing first and second DOEs of standard cell compatible, NCEM-enabled fill cells, with the first DOE including merged-via open configured fill cells, and the second DOE including snake open configured fill cellsPDF SOLUTIONS INC·Filed 2017·Granted Sep 19, 2017·2 cites·16 claims
- 3876US9646961B1Integrated circuit containing standard logic cells and library-compatible, NCEM-enabled fill cells, including at least via-open-configured, AACNT-short-configured, TS-short-configured, and metal-short-configured, NCEM-enabled fill cellsPDF SOLUTIONS INC·Filed 2016·Granted May 9, 2017·1 cites·20 claims
- 3975US6787800B2Test vehicle with zig-zag structuresPDF SOLUTIONS INC·Filed 2002·Granted Sep 7, 2004·18 cites·16 claims
- 4074US10199284B1Method for processing a semiconductor wafer using non-contact electrical measurements indicative of at least one tip-to-tip short or leakage, at least one tip-to-side short or leakage, and at least one chamfer short or leakage, where such measurements are obtained from non-contact pads associated with respective tip-to-tip short, tip-to-side short, and chamfer short test areasPDF SOLUTIONS INC·Filed 2018·Granted Feb 5, 2019·0 cites·20 claims
- 4174US7024642B2Extraction method of defect density and size distributionsPDF SOLUTIONS INC·Filed 2002·Granted Apr 4, 2006·16 cites·24 claims
- 4273US10109539B1Integrated circuit including NCEM-enabled, tip-to-side gap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Oct 23, 2018·0 cites·19 claims
- 4373US9922890B1Integrated circuit including NCEM-enabled, snake-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Mar 20, 2018·0 cites·19 claims
- 4473US9911669B1Integrated circuit including NCEM-enabled, diagonal gap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Mar 6, 2018·0 cites·19 claims
- 4573US9911668B1Integrated circuit including NCEM-enabled, corner gap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Mar 6, 2018·0 cites·19 claims
- 4673US9911670B1Integrated circuit including NCEM-enabled, via-open/resistance-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatePDF SOLUTIONS INC·Filed 2017·Granted Mar 6, 2018·0 cites·19 claims
- 4773US9899276B1Process for making an integrated circuit that includes NCEM-enabled, interlayer overlap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Feb 20, 2018·0 cites·19 claims
- 4873US9881843B1Integrated circuit including NCEM-Enabled, tip-to-tip gap-configured fill cells, with NCEM pads formed from at least three conductive stripes positioned between adjacent gatesPDF SOLUTIONS INC·Filed 2017·Granted Jan 30, 2018·0 cites·19 claims
- 4972US10269786B1Integrated circuit containing first and second DOEs of standard Cell Compatible, NCEM-enabled Fill Cells, with the first DOE including tip-to-side short configured fill cells, and the second DOE including corner short configured fill cellsPDF SOLUTIONS INC·Filed 2017·Granted Apr 23, 2019·0 cites·19 claims
- 5072US10211112B1Method for processing a semiconductor wafer using non-contact electrical measurements indicative of at least one tip-to-tip short or leakage, at least one tip-to-side short or leakage, and at least one side-to-side short or leakage, where such measurements are obtained from non-contact pads associated with respective tip-to-tip short, tip-to-side short, and side-to-side short test areasPDF SOLUTIONS INC·Filed 2018·Granted Feb 19, 2019·0 cites·20 claims
Showing the top 50 of 96 patent records by PatentIndex Score.
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Identity basis: PatentsView inventor disambiguation (2025Q4-odp release). How scoring works →