Undiscoverable physical chip identification
First Claim
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1. An electronic circuit comprising:
- a first transistor having a first threshold voltage standard deviation value;
a second transistor having a second threshold voltage standard deviation value;
wherein;
the first transistor comprises a first endpoint node connected to a first voltage and a second endpoint node connected to a second voltage;
the second transistor comprises a first endpoint node connected to the first voltage and a second endpoint node connected to the second voltage;
an enable signal configured and disposed to control a gate of the first transistor and a gate of the second transistor; and
a difference detection circuit disposed between the first endpoint node of the first transistor and the first endpoint node of the second transistor, wherein the difference detection circuit is configured and disposed to generate a signal indicative of a difference in threshold voltage between the first transistor and the second transistor;
wherein the first transistor has a channel width that is smaller than a channel width of the second transistor and wherein the first transistor has a channel length that is smaller than a channel length of the second transistor; and
wherein a ratio of channel width to channel length of the first transistor is substantially equal to a ratio of channel width to channel length of the second transistor.
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Abstract
Methods and circuits for undiscoverable physical chip identification are disclosed. Embodiments of the present invention provide an intrinsic bit element that comprises two transistors. The two transistors form a pair in which one transistor has a wide variability in threshold voltage and the other transistor has a narrow variability in threshold voltage. The wide variability is achieved by making a transistor with a smaller width and length than the other transistor in the pair. The variation of the threshold voltage of the wide variability transistor means that in the case of copies of intrinsic bit elements being made, some of the “copied” wide variability transistors will have significantly different threshold voltages, causing some of the intrinsic bit elements of a copied chip to read differently than in the original chip from which they were copied.
15 Citations
10 Claims
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1. An electronic circuit comprising:
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a first transistor having a first threshold voltage standard deviation value; a second transistor having a second threshold voltage standard deviation value;
wherein;the first transistor comprises a first endpoint node connected to a first voltage and a second endpoint node connected to a second voltage; the second transistor comprises a first endpoint node connected to the first voltage and a second endpoint node connected to the second voltage; an enable signal configured and disposed to control a gate of the first transistor and a gate of the second transistor; and a difference detection circuit disposed between the first endpoint node of the first transistor and the first endpoint node of the second transistor, wherein the difference detection circuit is configured and disposed to generate a signal indicative of a difference in threshold voltage between the first transistor and the second transistor; wherein the first transistor has a channel width that is smaller than a channel width of the second transistor and wherein the first transistor has a channel length that is smaller than a channel length of the second transistor; and
wherein a ratio of channel width to channel length of the first transistor is substantially equal to a ratio of channel width to channel length of the second transistor. - View Dependent Claims (2, 3, 4, 5)
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6. An integrated circuit comprising:
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a plurality of intrinsic bit elements, wherein each intrinsic bit element of the plurality of intrinsic bit elements comprises; a first transistor having a first threshold voltage standard deviation value; a second transistor having a second threshold voltage standard deviation value; wherein the first transistor and second transistor are both NFET transistors or both PFET transistors; the first transistor comprises a first endpoint node connected to a first voltage and a second endpoint node connected to a second voltage; the second transistor comprises a first endpoint node connected to the first voltage and a second endpoint node connected to the second voltage; an enable signal configured and disposed to control a gate of the first transistor and a gate of the second transistor; and a difference detection circuit disposed between the first endpoint node of the first transistor and the first endpoint node of the second transistor, wherein the difference detection circuit is configured and disposed to generate a signal indicative of a difference in threshold voltage between the first transistor and the second transistor; wherein for each intrinsic bit element;
the first transistor has a channel width that is smaller than a channel width of the second transistor and the first transistor has a channel length that is smaller than a channel length of the second transistor; and
a ratio of channel width to channel length of the first transistor is substantially equal to a ratio of channel width to channel length of the second transistor. - View Dependent Claims (7, 8, 9, 10)
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Specification
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Current AssigneeInternational Business Machines Corporation
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Original AssigneeInternational Business Machines Corporation
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InventorsFainstein, Daniel Jacob, Kothandaraman, Chandrasekharan
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Primary Examiner(s)Pwu, Jeffrey
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Assistant Examiner(s)Ambaye, Samuel
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Application NumberUS13/561,185Publication NumberTime in Patent Office918 DaysField of Search726/10, 726/30, 327/74US Class Current726/30CPC Class CodesG06F 21/00 Security arrangements for p...G06F 21/30 Authentication, i.e. establ...G06F 21/73 by creating or determining ...G06F 2221/2129 Authenticate client device ...G06F 7/588 Random number generators, i...H02H 3/24 responsive to undervoltage ...H04L 9/3278 using physically unclonable...
