Patents by Inventor Debendra Mallik
Debendra Mallik 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: 11935808Abstract: Thermal heat spreaders and/or an IC die with solderable thermal structures may be assembled together with a solder array thermal interconnects. A thermal heat spreader may include a non-metallic material and one or more metallized surfaces suitable for bonding to a solder alloy employed as thermal interface material between the heat spreader and an IC die. An IC die may include a metallized back-side surface similarly suitable for bonding to a thermal interconnect comprising a solder alloy. Metallization on the IC die and/or heat spreader may comprise a plurality of solderable structures. A multi-chip package may include multiple IC die having different die thickness that are accommodated by a z-height thickness variation in the thermal interconnects and/or the solderable structures of the IC die or heat spreader.Type: GrantFiled: March 26, 2020Date of Patent: March 19, 2024Assignee: Intel CorporationInventors: Debendra Mallik, Je-Young Chang, Ram Viswanath, Elah Bozorg-Grayeli, Ahmad Al Mohammad
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Patent number: 11923267Abstract: Thermal heat spreaders and/or an IC die with solderable thermal structures may be assembled together with a solder array thermal interconnects. A thermal heat spreader may include a non-metallic material and one or more metallized surfaces suitable for bonding to a solder alloy employed as thermal interface material between the heat spreader and an IC die. An IC die may include a metallized back-side surface similarly suitable for bonding to a thermal interconnect comprising a solder alloy. Metallization on the IC die and/or heat spreader may comprise a plurality of solderable structures. A multi-chip package may include multiple IC die having different die thickness that are accommodated by a z-height thickness variation in the thermal interconnects and/or the solderable structures of the IC die or heat spreader.Type: GrantFiled: March 26, 2020Date of Patent: March 5, 2024Assignee: Intel CorporationInventors: Debendra Mallik, Je-Young Chang, Ram Viswanath, Elah Bozorg-Grayeli, Ahmad Al Mohammad
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Publication number: 20240063076Abstract: Microelectronic devices, assemblies, and systems include a multichip composite device having one or more integrated circuit dies bonded to a base die, a conformal thermal heat spreading layer on the top and sidewalls of the integrated circuit dies, and an inorganic dielectric material on a portion of the conformal thermal heat spreading layer, laterally adjacent the integrated circuit dies, and over the base die. The conformal thermal heat spreading layer includes a high thermal conductivity material to provide a thermal pathway for the integrated circuit dies during operation.Type: ApplicationFiled: August 19, 2022Publication date: February 22, 2024Applicant: Intel CorporationInventors: Mohammad Enamul Kabir, Bhaskar Jyoti Krishnatreya, Kimin Jun, Adel Elsherbini, Tushar Talukdar, Feras Eid, Debendra Mallik, Krishna Vasanth Valavala, Xavier Brun
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Publication number: 20240063179Abstract: Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a dielectric layer having one or more conductive traces and a surface; a microelectronic subassembly on the surface of the dielectric layer, the microelectronic subassembly including a first die and a through-dielectric via (TDV) surrounded by a dielectric material, wherein the first die is at the surface of the dielectric layer; a second die and a third die on the first die and electrically coupled to the first die by interconnects having a pitch of less than 10 microns, and wherein the TDV is electrically coupled at a first end to the dielectric layer and at an opposing second end to the second die; and a substrate on and coupled to the second and third dies; and an insulating material on the surface of the dielectric layer and around the microelectronic subassembly.Type: ApplicationFiled: August 19, 2022Publication date: February 22, 2024Applicant: Intel CorporationInventors: Adel A. Elsherbini, Krishna Vasanth Valavala, Kimin Jun, Shawna M. Liff, Johanna M. Swan, Debendra Mallik, Feras Eid, Xavier Francois Brun, Bhaskar Jyoti Krishnatreya
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Publication number: 20240063089Abstract: Microelectronic devices, assemblies, and systems include a multichip composite device having one or more integrated circuit dies bonded to a base die and an inorganic dielectric material adjacent the integrated circuit dies and over the base die. The multichip composite device includes a dummy die, dummy vias, or integrated fluidic cooling channels laterally adjacent the integrated circuit dies to conduct heat from the base die.Type: ApplicationFiled: August 19, 2022Publication date: February 22, 2024Applicant: Intel CorporationInventors: Adel Elsherbini, Wenhao Li, Bhaskar Jyoti Krishnatreya, Debendra Mallik, Krishna Vasanth Valavala, Lei Jiang, Yoshihiro Tomita, Omkar Karhade, Haris Khan Niazi, Tushar Talukdar, Mohammad Enamul Kabir, Xavier Brun, Feras Eid
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Publication number: 20240063091Abstract: Microelectronic devices, assemblies, and systems include a multichip composite device having one or more chiplets bonded to a base die and an inorganic dielectric material adjacent the chiplets and over the base die. The multichip composite device is coupled to a structural member that is made of or includes a heat conducting material, or has integrated fluidic cooling channels to conduct heat from the chiplets and the base die.Type: ApplicationFiled: August 19, 2022Publication date: February 22, 2024Applicant: Intel CorporationInventors: Adel Elsherbini, Feras Eid, Scot Kellar, Yoshihiro Tomita, Rajiv Mongia, Kimin Jun, Shawna Liff, Wenhao Li, Johanna Swan, Bhaskar Jyoti Krishnatreya, Debendra Mallik, Krishna Vasanth Valavala, Lei Jiang, Xavier Brun, Mohammad Enamul Kabir, Haris Khan Niazi, Jiraporn Seangatith, Thomas Sounart
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Publication number: 20240063120Abstract: Embodiments of a microelectronic assembly comprise: a plurality of layers of integrated circuit (IC) dies, each layer coupled to adjacent layers by first interconnects having a pitch of less than 10 micrometers between adjacent first interconnects; an end layer in the plurality of layers proximate to a first side of the plurality of layers comprises a dielectric material around IC dies in the end layer and a through-dielectric via (TDV) in the dielectric material of the end layer; a support structure coupled to the first side of the plurality of layers, the support structure comprising a structurally stiff base with conductive traces proximate to the end layer, the conductive traces coupled to the end layer by second interconnects; and a package substrate coupled to a second side of the plurality of layers, the second side being opposite to the first side.Type: ApplicationFiled: August 19, 2022Publication date: February 22, 2024Applicant: Intel CorporationInventors: Adel A. Elsherbini, Shawna M. Liff, Debendra Mallik, Christopher M. Pelto, Kimin Jun, Johanna M. Swan, Lei Jiang, Feras Eid, Krishna Vasanth Valavala, Henning Braunisch, Patrick Morrow, William J. Lambert
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Patent number: 11908793Abstract: An embedded multi-die interconnect bridge (EMIB) is fabricated on a substrate using photolithographic techniques, and the EMIB is separated from the substrate and placed on the penultimate layer of an integrated-circuit package substrate, below the top solder-resist layer. A low Z-height of the EMIB, allows for useful trace and via real estate below the EMIB, to be employed in the package substrate.Type: GrantFiled: April 8, 2022Date of Patent: February 20, 2024Assignee: Intel CorporationInventors: Jiun Hann Sir, Poh Boon Khoo, Eng Huat Goh, Amruthavalli Pallavi Alur, Debendra Mallik
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Patent number: 11901299Abstract: Embodiments disclosed herein include electronic packages. In an embodiment, the electronic package comprises, a package substrate, an interposer on the package substrate, a first die cube and a second die cube on the interposer, wherein the interposer includes conductive traces for electrically coupling the first die cube to the second die cube, a die on the package substrate, and an embedded multi-die interconnect bridge (EMIB) in the package substrate, wherein the EMIB electrically couples the interposer to the die.Type: GrantFiled: December 12, 2022Date of Patent: February 13, 2024Assignee: Intel CorporationInventors: Md Altaf Hossain, Ankireddy Nalamalpu, Dheeraj Subbareddy, Robert Sankman, Ravindranath V. Mahajan, Debendra Mallik, Ram S. Viswanath, Sandeep B. Sane, Sriram Srinivasan, Rajat Agarwal, Aravind Dasu, Scott Weber, Ravi Gutala
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Publication number: 20240038687Abstract: Embodiments disclosed herein include electronic packages and methods of fabricating electronic packages. In an embodiment, an electronic package comprises an interposer, where a cavity passes through the interposer, and a nested component in the cavity. In an embodiment, the electronic package further comprises a die coupled to the interposer by a first interconnect and coupled to the nested component by a second interconnect. In an embodiment, the first and second interconnects comprise a first bump, a bump pad over the first bump, and a second bump over the bump pad.Type: ApplicationFiled: October 13, 2023Publication date: February 1, 2024Inventors: Debendra MALLIK, Ravindranath MAHAJAN, Robert SANKMAN, Shawna LIFF, Srinivas PIETAMBARAM, Bharat PENMECHA
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Publication number: 20240030116Abstract: Ultra-thin, hyper-density semiconductor packages and techniques of forming such packages are described. An exemplary semiconductor package is formed with one or more of: (i) metal pillars having an ultra-fine pitch (e.g., a pitch that is greater than or equal to 150 ?m, etc.); (ii) a large die-to-package ratio (e.g., a ratio that is equal to or greater than 0.85, etc.); and (iii) a thin pitch translation interposer. Another exemplary semiconductor package is formed using coreless substrate technology, die back metallization, and low temperature solder technology for ball grid array (BGA) metallurgy. Other embodiments are described.Type: ApplicationFiled: September 29, 2023Publication date: January 25, 2024Inventors: Debendra MALLIK, Robert L. SANKMAN, Robert NICKERSON, Mitul MODI, Sanka GANESAN, Rajasekaran SWAMINATHAN, Omkar KARHADE, Shawna M. LIFF, Amruthavalli ALUR, Sri Chaitra J. CHAVALI
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Publication number: 20240006332Abstract: An integrated circuit (IC) device comprises a host component and an IC die directly bonded to the host component. The IC die comprises a substrate material layer and a die metallization level between the substrate material layer and host component. The IC die includes an upper die alignment fiducial between the die metallization level and host component. The upper die alignment fiducial at least partially overlaps one or more metallization features within the die metallization level. In embodiments, at least two orthogonal edges of the upper die alignment fiducial do not overlap any of the metallization features within the die metallization level. In embodiments, the IC die includes a lower die alignment fiducial between the substrate material layer and the die metallization level. The lower die alignment fiducial may at least partially overlap one or more second metallization features within a second die metallization level of the IC die.Type: ApplicationFiled: July 1, 2022Publication date: January 4, 2024Applicant: Intel CorporationInventors: Dimitrios Antartis, Nitin A. Deshpande, Siyan Dong, Omkar Karhade, Gwang-soo Kim, Shawna Liff, Siddhartha Mal, Debendra Mallik, Khant Minn, Haris Khan Niazi, Arnab Sarkar, Yi Shi, Botao Zhang
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Publication number: 20240006395Abstract: Embodiments of a microelectronic assembly comprise: a plurality of microelectronic sub-assemblies arranged in a coplanar array, each microelectronic sub-assembly having a first side and an opposing second side; a first conductive plate coupled to the first sides of the microelectronic sub-assemblies; and a second conductive plate coupled to the second sides of the microelectronic sub-assemblies. The first conductive plate and the second conductive plate comprise sockets corresponding to each of the microelectronic sub-assemblies, and each microelectronic sub-assembly comprises a first plurality of integrated circuit (IC) dies coupled on one end to a first IC die and on an opposing end to a second IC die; and a second plurality of IC dies coupled to the first IC die and to the second IC die.Type: ApplicationFiled: June 29, 2022Publication date: January 4, 2024Applicant: Intel CorporationInventors: Sagar Suthram, Debendra Mallik, Wilfred Gomes, Pushkar Sharad Ranade, Nitin A. Deshpande, Omkar G. Karhade, Ravindranath Vithal Mahajan, Abhishek A. Sharma
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Publication number: 20240006375Abstract: Embodiments of a microelectronic assembly comprise: a first plurality of integrated circuit (IC) dies coupled on one end to a first IC die and on an opposing end to a second IC die, and a second plurality of IC dies coupled to at least the first IC die or the second IC die. Each IC die in the first plurality of IC dies includes a respective substrate and a respective metallization stack attached along a respective first planar interface, each of the first IC die and the second IC die includes a respective substrate and a respective metallization stack attached along a respective second planar interface, each IC die in the second plurality of IC dies includes a respective substrate and a respective metallization stack attached along a respective third planar interface, and the first planar interface is orthogonal to the second planar interface.Type: ApplicationFiled: June 29, 2022Publication date: January 4, 2024Inventors: Sagar Suthram, Wilfred Gomes, Pushkar Sharad Ranade, Ravindranath Vithal Mahajan, Debendra Mallik, Omkar G. Karhade, Nitin A. Deshpande, Abhishek A. Sharma, Joshua Fryman, Stephen Morein, Matthew Adiletta
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Publication number: 20240004129Abstract: Embodiments of a microelectronic assembly comprise: a plurality of microelectronic sub-assemblies arranged in an array; and a plurality of photonic integrated circuit (PIC) dies, each PIC die having waveguides. Adjacent microelectronic sub-assemblies are coupled to one of the PIC dies by interconnects such that any one PIC die is coupled to more than two adjacent microelectronic sub-assemblies, and the microelectronic sub-assemblies coupled to each PIC die in the plurality of PIC dies are communicatively coupled by the waveguides in the PIC die. Each microelectronic sub-assembly comprises: an interposer integrated circuit (IC) die comprising one or more electrical controller circuit proximate to at least one edge of the interposer IC die; a first plurality of IC dies coupled to a first surface of the interposer IC die; and a second plurality of IC dies coupled to an opposing second surface of the interposer IC die.Type: ApplicationFiled: June 29, 2022Publication date: January 4, 2024Applicant: Intel CorporationInventors: Sagar Suthram, Debendra Mallik, John Heck, Pushkar Sharad Ranade, Ravindranath Vithal Mahajan, Thomas Liljeberg, Wilfred Gomes, Abhishek A. Sharma, Tahir Ghani
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Publication number: 20230420432Abstract: Embodiments of an integrated circuit (IC) die comprise a first region having a first surface and a second surface, the first surface being orthogonal to the second surface; a second region comprising a semiconductor material, the second region attached to the first region along a first planar interface that is orthogonal to the first surface and parallel to the second surface; and a third region comprising optical structures of a photonic IC, the third region attached to the second region along a second planar interface that is parallel to the first planar interface. The first region comprises: a plurality of layers of conductive traces in a dielectric material, each layer of the conductive traces being parallel to the second surface such that the conductive traces are orthogonal to the first surface; and bond-pads on the first surface, the bond-pads comprising portions of respective conductive traces exposed on the first surface.Type: ApplicationFiled: June 22, 2022Publication date: December 28, 2023Inventors: Sagar Suthram, Ravindranath Vithal Mahajan, Debendra Mallik, Omkar G. Karhade, Wilfred Gomes, Pushkar Sharad Ranade, Abhishek A. Sharma, Tahir Ghani, Anand S. Murthy, Nitin A. Deshpande
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Publication number: 20230420409Abstract: Embodiments of an integrated circuit (IC) die comprise: a first region having a first surface and a second surface, the first surface being orthogonal to the second surface; and a second region attached to the first region along a planar interface that is orthogonal to the first surface and parallel to the second surface, the second region having a third surface coplanar with the first surface. The first region comprises: a dielectric material; layers of conductive traces in the dielectric material, each layer of the conductive traces being parallel to the second surface such that the conductive traces are orthogonal to the first surface; conductive vias through the dielectric material; and bond-pads on the first surface, the bond-pads comprising portions of the conductive traces exposed on the first surface, and the second region comprises a material different from the dielectric material.Type: ApplicationFiled: June 22, 2022Publication date: December 28, 2023Applicant: Intel CorporationInventors: Sagar Suthram, Omkar G. Karhade, Ravindranath Vithal Mahajan, Debendra Mallik, Nitin A. Deshpande, Pushkar Sharad Ranade, Wilfred Gomes, Abhishek A. Sharma, Tahir Ghani, Anand S. Murthy, Joshua Fryman, Stephen Morein, Matthew Adiletta, Michael Crocker, Aaron Gorius
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Publication number: 20230420411Abstract: Embodiments of an integrated circuit (IC) die comprise: a metallization stack including a dielectric material, a plurality of layers of conductive traces in the dielectric material and conductive vias through the dielectric material; and a substrate attached to the metallization stack along a planar interface. The metallization stack comprises bond-pads on a first surface, a second surface, a third surface, a fourth surface, and a fifth surface. The first surface is parallel to the planar interface between the metallization stack and the substrate, the second surface is parallel to the third surface and orthogonal to the first surface, and the fourth surface is parallel to the fifth surface and orthogonal to the first surface and the second surface.Type: ApplicationFiled: June 22, 2022Publication date: December 28, 2023Applicant: Intel CorporationInventors: Sagar Suthram, Ravindranath Vithal Mahajan, Debendra Mallik, Omkar G. Karhade, Wilfred Gomes, Pushkar Sharad Ranade, Abhishek A. Sharma, Tahir Ghani, Anand S. Murthy, Nitin A. Deshpande, Joshua Fryman, Stephen Morein, Matthew Adiletta
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Publication number: 20230420410Abstract: Embodiments of an integrated circuit (IC) die comprise: a first IC die coupled to at least two second IC dies by interconnects on a first surface of the first IC die and second surfaces of the second IC dies such that the first surface is in contact with the second surfaces. The second surfaces are coplanar, the interconnects comprise dielectric-dielectric bonds and metal-metal bonds, the metal-metal bonds include first bond-pads in the first IC die and second bond-pads in the second IC dies, the first IC die comprises a substrate attached to a metallization stack along a planar interface that is orthogonal to the first surface, the metallization stack comprises a plurality of layers of conductive traces in a dielectric material, and the first bond-pads comprise portions of the conductive traces exposed on the first surface.Type: ApplicationFiled: June 22, 2022Publication date: December 28, 2023Applicant: Intel CorporationInventors: Sagar Suthram, Ravindranath Vithal Mahajan, Debendra Mallik, Omkar G. Karhade, Wilfred Gomes, Pushkar Sharad Ranade, Abhishek A. Sharma, Tahir Ghani, Anand S. Murthy, Nitin A. Deshpande
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Publication number: 20230420375Abstract: A glass substrate houses an embedded multi-die interconnect bridge that is part of a semiconductor device package. Through-glass vias communicate to a surface for mounting on a semiconductor package substrate.Type: ApplicationFiled: September 12, 2023Publication date: December 28, 2023Inventors: Srinivas V. PIETAMBARAM, Tarek IBRAHIM, Kristof DARMAWIKARTA, Rahul N. MANEPALLI, Debendra MALLIK, Robert L. SANKMAN