Patents by Inventor David M. Fried
David M. Fried has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7470615Abstract: Disclosed are embodiments of a semiconductor structure with a partially self-aligned contact in lower portion of the contact being enlarged to reduce resistance without impacting device yield. The semiconductor structure includes a substrate; at least two gate electrodes on the substrate; sidewall spacers adjacent to each of the gate electrodes; a silicide region on the substrate between the gate electrodes; and a contact on the silicide region, wherein the contact includes a self-aligned lower portion on the silicide region, which extends between the sidewall spacers and follows contours of the sidewall spacers, and an upper portion, and wherein the self-aligned lower portion includes a bottom surface adjacent to the silicide region and a top surface adjacent to the upper portion, with the upper portion being narrower than the top surface. Additionally, the structure optionally incorporates a thick middle-of-the-line (MOL) nitride stress film to enhance carrier mobility.Type: GrantFiled: July 26, 2006Date of Patent: December 30, 2008Assignee: International Business Machines CorporationInventors: Gregory Costrini, David M. Fried
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Publication number: 20080308936Abstract: Disclosed are embodiments of a semiconductor structure with a partially self-aligned contact in lower portion of the contact is enlarged to reduce resistance without impacting device yield. Additionally, the structure optionally incorporates a thick middle-of-the-line (MOL) nitride stress film to enhance carrier mobility. Embodiments of the method of forming the structure comprise forming a sacrificial section in the intended location of the contact. This section is patterned so that it is self-aligned to the gate electrodes and only occupies space that is intended for the future contact. Dielectric layer(s) (e.g., an optional stress layer followed by an interlayer dielectric) may be deposited once the sacrificial section is in place. Conventional contact lithography is used to etch a contact hole through the dielectric layer(s) to the sacrificial section. The sacrificial section is then selectively removed to form a cavity and the contact is formed in the cavity and contact hole.Type: ApplicationFiled: August 20, 2008Publication date: December 18, 2008Applicant: International Business Machines CorporationInventors: Gregory Costrini, David M. Fried
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Publication number: 20080233743Abstract: Disclosed are embodiments of a semiconductor structure with a partially selfaligned contact in lower portion of the contact is enlarged to reduce resistance without impacting device yield. Additionally, the structure optionally incorporates a thick middle-of-the-line (MOL) nitride stress film to enhance carrier mobility. Embodiments of the method of forming the structure comprise forming a sacrificial section in the intended location of the contact. This section is patterned so that it is self-aligned to the gate electrodes and only occupies space that is intended for the future contact. Dielectric layer(s) (e.g., an optional stress layer followed by an interlayer dielectric) may be deposited once the sacrificial section is in place. Conventional contact lithography is used to etch a contact hole through the dielectric layer(s) to the sacrificial section. The sacrificial section is then selectively removed to form a cavity and the contact is formed in the cavity and contact hole.Type: ApplicationFiled: April 28, 2008Publication date: September 25, 2008Applicant: International Business Machines CorporationInventors: Gregory Costrini, David M. Fried
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Publication number: 20080164507Abstract: An area-efficient gated diode includes a semiconductor layer of a first conductivity type, an active region of a second conductivity type formed in the semiconductor layer proximate an upper surface thereof, and at least one trench electrode extending vertically through the active region and at least partially into the semiconductor layer. A first terminal of the gated diode is connected to the trench electrode, and a second terminal is connected to the active region. The gated diode is operative in one of at least first an second modes as a function of a voltage potential applied between the first and second terminals. The first mode is characterized by the creation of an inversion layer in the semiconductor layer surrounding the trench electrode. The gated diode has a first capacitance in the first mode and a second capacitance in the second mode, the first capacitance being greater than the second capacitance.Type: ApplicationFiled: March 19, 2008Publication date: July 10, 2008Applicant: International Business Machines CorporationInventors: Leland Chang, Robert H. Dennard, David M. Fried, Wing Kin Luk
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Patent number: 7385251Abstract: An area-efficient gated diode includes a semiconductor layer of a first conductivity type, an active region of a second conductivity type formed in the semiconductor layer proximate an upper surface of the semiconductor layer, and at least one trench electrode extending substantially vertically through the active region and at least partially into the semiconductor layer. A first terminal of the gated diode is electrically connected to the trench electrode, and at least a second terminal is electrically connected to the active region. The gated diode is operative in one of at least a first mode and a second mode as a function of a voltage potential applied between the first and second terminals. The first mode is characterized by the creation of an inversion layer in the semiconductor layer substantially surrounding the trench electrode.Type: GrantFiled: January 18, 2006Date of Patent: June 10, 2008Assignee: International Business Machines CorporationInventors: Leland Chang, Robert H. Dennard, David M. Fried, Wing Kin Luk
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Publication number: 20080087961Abstract: Accordingly, in one embodiment of the invention, a method is provided for reducing stacking faults in an epitaxial semiconductor layer. In accordance with such method, a substrate is provided which includes a first single-crystal semiconductor region including a first semiconductor material, the first semiconductor region having a <110> crystal orientation. An epitaxial layer including the first semiconductor material is grown on the first semiconductor region, the epitaxial layer having the <110> crystal orientation. The substrate is then annealed with the epitaxial layer at a temperature greater than 1100 degrees Celsius in an ambient including hydrogen, whereby the step of annealing reduces stacking faults in the epitaxial layer.Type: ApplicationFiled: October 11, 2006Publication date: April 17, 2008Applicants: INTERNATIONAL BUSINESS MACHINES CORPORATION, ADVANCED MICRO DEVICES, INC. (AMD)Inventors: Yun-Yu Wang, Christopher D. Sheraw, Anthony G. Domenicucci, Linda Black, Judson R. Holt, David M. Fried
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Publication number: 20080026513Abstract: Disclosed are embodiments of a semiconductor structure with a partially self-aligned contact in lower portion of the contact is enlarged to reduce resistance without impacting device yield. Additionally, the structure optionally incorporates a thick middle-of-the-line (MOL) nitride stress film to enhance carrier mobility. Embodiments of the method of forming the structure comprise forming a sacrificial section in the intended location of the contact. This section is patterned so that it is self-aligned to the gate electrodes and only occupies space that is intended for the future contact. Dielectric layer(s) (e.g., an optional stress layer followed by an interlayer dielectric) may be deposited once the sacrificial section is in place. Conventional contact lithography is used to etch a contact hole through the dielectric layer(s) to the sacrificial section. The sacrificial section is then selectively removed to form a cavity and the contact is formed in the cavity and contact hole.Type: ApplicationFiled: July 26, 2006Publication date: January 31, 2008Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Gregory Costrini, David M. Fried
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Patent number: 7288445Abstract: Accordingly, the present invention provides a double gated transistor and a method for forming the same that results in improved device performance and density. The preferred embodiment of the present invention uses provides a double gated transistor with asymmetric gate doping, where one of the double gates is doped degenerately n-type and the other degenerately p-type. By doping on of the gates n-type, and the other p-type, the threshold voltage of the resulting device is improved. In particular, by asymmetrically doping the two gates, the resulting transistor can, with adequate doping of the body, have a threshold voltage in a range that enables low-voltage CMOS operation. For example, a transistor can be created that has a threshold voltage between 0V and 0.5V for nFETs and between 0 and ?0.5V for pFETs.Type: GrantFiled: May 9, 2005Date of Patent: October 30, 2007Assignee: International Business Machines CorporationInventors: Andres Bryant, Meikei Ieong, K. Paul Muller, Edward J. Nowak, David M. Fried, Jed Rankin
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Patent number: 7163851Abstract: The present invention provides methods for fabrication of fin-type field effect transistors (FinFETs) and thick-body devices on the same chip using common masks and steps to achieve greater efficiency than prior methods. The reduction in the number of masks and steps is achieved by using common masks and steps with several scaling strategies. In one embodiment, the structure normally associated with a FinFET is created on the side of a thick silicon mesa, the bulk of which is doped to connect with a body contact on the opposite side of the mesa. The invention also includes FinFETs, thick-body devices, and chips fabricated by the methods.Type: GrantFiled: August 26, 2002Date of Patent: January 16, 2007Assignee: International Business Machines CorporationInventors: Wagdi W. Abadeer, Jeffrey S. Brown, David M. Fried, Robert J. Gauthier, Jr., Edward J. Nowak, Jed H. Rankin, William R. Tonti
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Patent number: 7101741Abstract: The present invention provides a dual gate transistor and a method for forming the same that results in improved device performance and density. The present invention uses a double gate design to implement a dual gate transistor. A double gate is a gate which is formed on both sides of the transistor body. The present invention thus provides a transistor with two double gates in series that provide improved current control over traditional dual gate designs. The preferred embodiment of the present invention uses a fin type body with dual double-gates. In a fin type structure, the double gates are formed on each side of a thin fin shaped body, with the body being disposed horizontally between the gates.Type: GrantFiled: February 17, 2004Date of Patent: September 5, 2006Assignee: International Business Machines CorporationInventors: David M. Fried, Edward J. Nowak
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Patent number: 7087477Abstract: The present invention provides a device design and method for forming the same that results in Fin Field Effect Transistors having different gains without negatively impacting device density. The present invention forms relatively low gain FinFET transistors in a low carrier mobility plane and relatively high gain FinFET transistors in a high carrier mobility plane. Thus formed, the FinFETs formed in the high mobility plane have a relatively higher gain than the FinFETs formed in the low mobility plane. The embodiments are of particular application to the design and fabrication of a Static Random Access Memory (SRAM) cell. In this application, the bodies of the n-type FinFETs used as transfer devices are formed along the {110} plane. The bodies of the n-type FinFETs and p-type FinFETs used as the storage latch are formed along the {100}. Thus formed, the transfer devices will have a gain approximately half that of the n-type storage latch devices, facilitating proper SRAM operation.Type: GrantFiled: November 12, 2004Date of Patent: August 8, 2006Assignee: International Business Machines CorporationInventors: David M. Fried, Randy W. Mann, K. Paul Muller, Edward J. Nowak
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Patent number: 7064019Abstract: An asymmetric field effect transistor (FET) that has a threshold voltage that is compatible with current CMOS circuit designs and a low resistive gate electrode is provided. Specifically, the asymmetric FET includes a p-type gate portion and an n-type gate portion on a vertical semiconductor body; an interconnect between the p-type gate portion and the n-type gate portion; and a planarizing structure above the interconnect.Type: GrantFiled: June 16, 2004Date of Patent: June 20, 2006Assignee: International Business Machines CorporationInventors: David M. Fried, Edward J. Nowak, Jed H. Rankin
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Patent number: 7064413Abstract: A method of forming a Fin structure including a resistor present in the thin vertically oriented semiconductor body is provided. The method includes the steps of forming at least one vertically-oriented semiconductor body having exposed vertical surfaces on a substrate; implanting dopant ions into the exposed vertical surfaces of the at least one semiconductor body off-axis at a concentration and energy sufficient to penetrate into the exposed vertical surfaces of the at least one semiconductor body without saturation; and forming contacts to the at least one semiconductor body. The present invention is directed to a Fin structure which includes a resistor present within the thin vertically oriented semiconductor body.Type: GrantFiled: February 9, 2004Date of Patent: June 20, 2006Assignee: International Business Machines CorporationInventors: David M. Fried, Edward J. Nowak
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Patent number: 7060553Abstract: Device designs and methods are described for incorporating capacitors commonly used in planar CMOS technology into a FinFET based technology. A capacitor includes at least one single-crystal Fin structure having a top surface and a first side surface opposite a second side surface. Adjacent the top surface of the at least one Fin structure is at least one insulator structure. Adjacent the at least one insulator structure and over a portion of the at least one Fin structure is at least one conductor structure. Decoupling capacitors may be formed at the circuit device level using simple design changes within the same integration method, thereby allowing any number, combination, and/or type of decoupling capacitors to be fabricated easily along with other devices on the same substrate to provide effective decoupling capacitance in an area-efficient manner with superior high-frequency response.Type: GrantFiled: August 31, 2005Date of Patent: June 13, 2006Assignee: International Business Machines CorporationInventors: David M. Fried, Edward J. Nowak
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Patent number: 7052958Abstract: The present invention provides a device design and method for forming the same that results in Fin Field Effect Transistors having Non-Volatile Random Access Memory (NVRAM) capability. NVRAM capability arises from the presence of double floating gates arranged on and insulated from a semiconductor fin body, and a control gate arranged on and insulated from the double floating gates.Type: GrantFiled: September 30, 2003Date of Patent: May 30, 2006Assignee: International Business Machines CorporationInventors: David M. Fried, Chung Hon Lam, Edward J. Nowak
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Patent number: 6995412Abstract: Device designs and methods are described for incorporating capacitors commonly used in planar CMOS technology into a FinFET based technology. A capacitor includes at least one single-crystal Fin structure having a top surface and a first side surface opposite a second side surface. Adjacent the top surface of the at least one Fin structure is at least one insulator structure. Adjacent the at least one insulator structure and over a portion of the at least one Fin structure is at least one conductor structure. Decoupling capacitors may be formed at the circuit device level using simple design changes within the same integration method, thereby allowing any number, combination, and/or type of decoupling capacitors to be fabricated easily along with other devices on the same substrate to provide effective decoupling capacitance in an area-efficient manner with superior high-frequency response.Type: GrantFiled: April 12, 2002Date of Patent: February 7, 2006Assignee: International Business Machines CorporationInventors: David M. Fried, Edward J. Nowak
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Patent number: 6967351Abstract: The present invention provides a device design and method for forming the same that results in Fin Field Effect Transistors having different gains without negatively impacting device density. The present invention forms relatively low gain FinFET transistors in a low carrier mobility plane and relatively high gain FinFET transistors in a high carrier mobility plane. Thus formed, the FinFETs formed in the high mobility plane have a relatively higher gain than the FinFETs formed in the low mobility plane. The embodiments are of particular application to the design and fabrication of a Static Random Access Memory (SRAM) cell. In this application, the bodies of the n-type FinFETs used as transfer devices are formed along the {110} plane. The bodies of the n-type FinFETs and p-type FinFETs used as the storage latch are formed along the {100}. Thus formed, the transfer devices will have a gain approximately half that of the n-type storage latch devices, facilitating proper SRAM operation.Type: GrantFiled: December 4, 2001Date of Patent: November 22, 2005Assignee: International Business Machines CorporationInventors: David M. Fried, Randy W. Mann, K. Paul Muller, Edward J. Nowak
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Patent number: 6960806Abstract: Accordingly, the present invention provides a double gated transistor and a method for forming the same that results in improved device performance and density. The preferred embodiment of the present invention uses provides a double gated transistor with asymmetric gate doping, where one of the double gates is doped degenerately n-type and the other degenerately p-type. By doping on of the gates n-type, and the other p-type, the threshold voltage of the resulting device is improved. In particular, by asymmetrically doping the two gates, the resulting transistor can, with adequate doping of the body, have a threshold voltage in a range that enables low-voltage CMOS operation. For example, a transistor can be created that has a threshold voltage between 0V and 0.5V for nFETs and between 0 and ?0.5V for pFETs.Type: GrantFiled: June 21, 2001Date of Patent: November 1, 2005Assignee: International Business Machines CorporationInventors: Andres Bryant, Meikei Ieong, K. Paul Muller, Edward J. Nowak, David M. Fried, Jed Rankin
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Patent number: 6943405Abstract: A method and structure for an integrated circuit structure that utilizes complementary fin-type field effect transistors (FinFETs) is disclosed. The invention has a first-type of FinFET which includes a first fin, and a second-type of FinFET which includes a second fin running parallel to the first fin. The invention also has an insulator fin positioned between the source/drain regions of the first first-type of FinFET and the second-type of FinFET. The insulator fin has approximately the same width dimensions as the first fin and the second fin, such that the spacing between the first-type of FinFET and the second-type of FinFET is approximately equal to the width of one fin. The invention also has a common gate formed over channel regions of the first-type of FinFET and the second-type of FinFET. The gate includes a first impurity doping region adjacent the first-type of FinFET and a second impurity doping region adjacent the second-type of FinFET.Type: GrantFiled: July 1, 2003Date of Patent: September 13, 2005Assignee: International Business Machines CorporationInventors: Andres Bryant, William F. Clark, Jr., David M. Fried, Mark D. Jaffe, Edward J. Nowak, John J. Pekarik, Christopher S. Putnam
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Patent number: 6934671Abstract: A method of performing model to hardware correlation that simulates models based upon design criteria and manufactures devices based upon the design criteria. The method evaluates features of the devices during the manufacturing to produce in-line test parametric data, compares the models to the in-line test parametric data to obtain correlation data, and modifies the simulating according to the correlation data.Type: GrantFiled: May 29, 2001Date of Patent: August 23, 2005Assignee: International Business Machines CorporationInventors: John E. Bertsch, Daniel S. Coops, David M. Fried