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公开(公告)号:US10788630B2
公开(公告)日:2020-09-29
申请号:US15396041
申请日:2016-12-30
Applicant: Intel Corporation
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
IPC: G02B6/38 , G02B6/42 , G02B6/44 , H04Q11/00 , G06F1/20 , H04W4/80 , G06F1/18 , G06F3/06 , G06F8/65 , G06F9/30 , G06F9/38 , G06F9/4401 , G06F9/50 , G06F9/54 , G06F12/109 , G06F12/14 , G06F13/16 , G06F13/40 , G06Q10/08 , G06Q10/00 , G06Q50/04 , G08C17/02 , G11C7/10 , G11C11/56 , H03M7/30 , H03M7/40 , H04B10/25 , H04L12/24 , H04L12/26 , H04L12/851 , H04L12/811 , H04L12/931 , H04L29/08 , H04L29/06 , H05K5/02 , H05K7/14 , H04L12/911 , B25J15/00 , B65G1/04 , H05K7/20 , H04L12/939 , H04W4/02 , H04L12/751 , G06F13/42 , H05K1/18 , G05D23/19 , G05D23/20 , H04L12/927 , H05K1/02 , H04L12/781 , H04Q1/04 , G06F12/0893 , H05K13/04 , G11C5/06 , G06F11/14 , G06F11/34 , G06F12/0862 , G06F15/80 , H04L12/919 , G06F12/10 , G06Q10/06 , G07C5/00 , H04L12/28 , H04L29/12 , H04L9/06 , H04L9/14 , H04L9/32 , H04L12/933 , H04L12/947
Abstract: Technologies for blind mating of optical connectors in a rack of a data center are disclosed. In the illustrative embodiment, a sled can be slid into a rack and an optical connector on the sled will blindly mate with a corresponding optical connector on the rack. The illustrative optical connector on the sled includes two guide post receivers which mate with corresponding guide posts on the optical connector on the rack such that, when mated, optical fibers of the optical connector on the rack will be aligned and optically coupled with corresponding optical fibers on the optical connector of the sled.
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公开(公告)号:US10674238B2
公开(公告)日:2020-06-02
申请号:US15423467
申请日:2017-02-02
Applicant: INTEL CORPORATION
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
IPC: H05K1/02 , G06F1/20 , H04Q11/00 , H03M7/30 , H03M7/40 , G06F16/901 , G06F3/06 , H04L12/811 , G11C7/10 , H05K7/14 , G06F1/18 , G06F13/40 , H05K5/02 , G08C17/02 , H04L12/24 , H04L29/08 , H04L12/26 , H04L12/851 , G06F9/50 , H04L12/911 , G06F12/109 , H04L29/06 , G11C14/00 , G11C5/02 , G11C11/56 , G02B6/44 , G06F8/65 , G06F12/14 , G06F13/16 , H04B10/25 , G06F9/4401 , G02B6/38 , G02B6/42 , B25J15/00 , B65G1/04 , H05K7/20 , H04L12/931 , H04L12/939 , H04W4/02 , H04L12/751 , G06F13/42 , H05K1/18 , G05D23/19 , G05D23/20 , H04L12/927 , H04L12/781 , H04Q1/04 , G06F12/0893 , H05K13/04 , G11C5/06 , G06F11/14 , G06F11/34 , G06F12/0862 , G06F15/80 , H04L12/919 , G06F12/10 , G06Q10/06 , G07C5/00 , H04L12/28 , H04L29/12 , H04L9/06 , H04L9/14 , H04L9/32 , H04L12/933 , H04L12/947 , G06F9/30 , G06F9/38 , G06F9/54 , H04W4/80 , G06Q10/08 , G06Q10/00 , G06Q50/04
Abstract: Examples may include racks for a data center and sleds for the racks, the sleds arranged to house physical resources for the data center. The sleds can house physical resources and heat sinks thermally coupled to the physical resources. The physical resources are arranged on the sleds and the heat sinks are configured so as to limit thermal shadowing between physical resources to reduce interference with airflow provided by fans of the racks.
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公开(公告)号:US10348327B2
公开(公告)日:2019-07-09
申请号:US15396652
申请日:2016-12-31
Applicant: Intel Corporation
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
IPC: H05K7/14 , H03M7/30 , H03M7/40 , G06F3/06 , G11C7/10 , G06F1/18 , G06F13/40 , H05K5/02 , G08C17/02 , H04L12/24 , H04L29/08 , H04L12/26 , H04L12/851 , H04Q11/00 , G06F9/50 , G06F12/109 , H04L29/06 , G11C14/00 , G11C5/02 , G11C11/56 , G02B6/44 , G06F8/65 , G06F12/14 , G06F13/16 , H04B10/25 , G06F9/4401 , G02B6/38 , G02B6/42 , B25J15/00 , B65G1/04 , H05K7/20 , H04L12/931 , H04L12/939 , H04W4/02 , H04L12/751 , G06F13/42 , H05K1/18 , G05D23/19 , G05D23/20 , H04L12/927 , H05K1/02 , H04Q1/04 , G06F12/0893 , H05K13/04 , G11C5/06 , G06F11/14 , G06F11/34 , G06F12/0862 , G06F15/80 , G06F17/30 , H04L12/919 , G06F12/10 , G06Q10/06 , G07C5/00 , H04L12/28 , H04L29/12 , H04L9/06 , H04L9/14 , H04L9/32 , H04L12/911 , H04L12/811 , H04W4/80 , H04L12/781 , G06Q10/08 , G06Q10/00 , G06Q50/04 , H04L12/933 , H04L12/947
Abstract: A rack for supporting sleds includes a pair of elongated support posts and pairs of elongated support arms that extend from the elongated support posts. Each pair of the elongated support arms defines a sled slot to receive a corresponding sled. A power supply is attached to an elongated support arm of each pair of elongated support arms to provide power to a corresponding sled. The power supply may include a chassis-less circuit board substrate that is removable from a power supply housing coupled to the corresponding elongated support arm.
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公开(公告)号:US09936613B2
公开(公告)日:2018-04-03
申请号:US15396647
申请日:2016-12-31
Applicant: Intel Corporation
Inventor: Matthew J. Adiletta , Aaron Gorius , Michael T. Crocker , Myles Wilde
CPC classification number: H04Q11/0005 , B25J15/0014 , B65G1/0492 , G02B6/3882 , G02B6/3893 , G02B6/3897 , G02B6/4292 , G02B6/4452 , G05D23/1921 , G05D23/2039 , G06F1/183 , G06F3/061 , G06F3/0611 , G06F3/0616 , G06F3/0619 , G06F3/0625 , G06F3/0631 , G06F3/0638 , G06F3/064 , G06F3/0647 , G06F3/0653 , G06F3/0658 , G06F3/0659 , G06F3/0664 , G06F3/0665 , G06F3/067 , G06F3/0673 , G06F3/0679 , G06F3/0683 , G06F3/0688 , G06F3/0689 , G06F8/65 , G06F9/4401 , G06F9/5016 , G06F9/5044 , G06F9/505 , G06F9/5072 , G06F9/5077 , G06F11/141 , G06F11/3414 , G06F12/0862 , G06F12/0893 , G06F12/10 , G06F12/109 , G06F12/1408 , G06F13/161 , G06F13/1668 , G06F13/1694 , G06F13/4022 , G06F13/4068 , G06F13/409 , G06F13/42 , G06F13/4282 , G06F15/8061 , G06F17/30949 , G06F2209/5019 , G06F2209/5022 , G06F2212/1008 , G06F2212/1024 , G06F2212/1041 , G06F2212/1044 , G06F2212/152 , G06F2212/202 , G06F2212/401 , G06F2212/402 , G06F2212/7207 , G06Q10/06 , G06Q10/06314 , G06Q10/087 , G06Q10/20 , G06Q50/04 , G07C5/008 , G08C17/02 , G08C2200/00 , G11C5/02 , G11C5/06 , G11C7/1072 , G11C11/56 , G11C14/0009 , H03M7/30 , H03M7/3084 , H03M7/3086 , H03M7/40 , H03M7/4031 , H03M7/4056 , H03M7/4081 , H03M7/6005 , H03M7/6023 , H04B10/25 , H04B10/2504 , H04L9/0643 , H04L9/14 , H04L9/3247 , H04L9/3263 , H04L12/2809 , H04L29/12009 , H04L41/024 , H04L41/046 , H04L41/0813 , H04L41/082 , H04L41/0896 , H04L41/12 , H04L41/145 , H04L41/147 , H04L41/5019 , H04L43/065 , H04L43/08 , H04L43/0817 , H04L43/0876 , H04L43/0894 , H04L43/16 , H04L45/02 , H04L45/52 , H04L47/24 , H04L47/765 , H04L47/782 , H04L47/805 , H04L47/82 , H04L47/823 , H04L49/15 , H04L49/25 , H04L49/357 , H04L49/45 , H04L49/555 , H04L67/02 , H04L67/10 , H04L67/1004 , H04L67/1008 , H04L67/1012 , H04L67/1014 , H04L67/1029 , H04L67/1034 , H04L67/1097 , H04L67/12 , H04L67/16 , H04L67/306 , H04L67/34 , H04L69/04 , H04L69/329 , H04Q1/04 , H04Q11/00 , H04Q11/0003 , H04Q11/0062 , H04Q11/0071 , H04Q2011/0037 , H04Q2011/0041 , H04Q2011/0052 , H04Q2011/0073 , H04Q2011/0079 , H04Q2011/0086 , H04Q2213/13523 , H04Q2213/13527 , H04W4/023 , H04W4/80 , H05K1/0203 , H05K1/181 , H05K5/0204 , H05K7/1418 , H05K7/1421 , H05K7/1422 , H05K7/1447 , H05K7/1461 , H05K7/1485 , H05K7/1487 , H05K7/1489 , H05K7/1491 , H05K7/1492 , H05K7/1498 , H05K7/2039 , H05K7/20709 , H05K7/20727 , H05K7/20736 , H05K7/20745 , H05K7/20836 , H05K13/0486 , H05K2201/066 , H05K2201/10121 , H05K2201/10159 , H05K2201/10189 , Y10S901/01
Abstract: A rack for supporting a sleds includes a pair of elongated support posts and pairs of elongated support arms that extend from the elongated support posts. Each pair of the elongated support arms defines a sled slot to receive a corresponding sled. To do so, each elongated support arm includes a circuit board guide to receive a chassis-less circuit board substrate of the corresponding sled. The rack may include a cross-member arm associated with each sled slot and an optical connector mounted to each cross-member arm. Additional elongated support posts may be used to provide additional sled slots.
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公开(公告)号:US20180027687A1
公开(公告)日:2018-01-25
申请号:US15396646
申请日:2016-12-31
Applicant: Intel Corporation
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
CPC classification number: H04Q11/0005 , B25J15/0014 , B65G1/0492 , G02B6/3882 , G02B6/3893 , G02B6/3897 , G02B6/4292 , G02B6/4452 , G05D23/1921 , G05D23/2039 , G06F1/183 , G06F3/061 , G06F3/0611 , G06F3/0616 , G06F3/0619 , G06F3/0625 , G06F3/0631 , G06F3/0638 , G06F3/064 , G06F3/0647 , G06F3/0653 , G06F3/0658 , G06F3/0659 , G06F3/0664 , G06F3/0665 , G06F3/067 , G06F3/0673 , G06F3/0679 , G06F3/0683 , G06F3/0688 , G06F3/0689 , G06F8/65 , G06F9/4401 , G06F9/5016 , G06F9/5044 , G06F9/505 , G06F9/5072 , G06F9/5077 , G06F11/141 , G06F11/3414 , G06F12/0862 , G06F12/0893 , G06F12/10 , G06F12/109 , G06F12/1408 , G06F13/161 , G06F13/1668 , G06F13/1694 , G06F13/4022 , G06F13/4068 , G06F13/409 , G06F13/42 , G06F13/4282 , G06F15/8061 , G06F17/30949 , G06F2209/5019 , G06F2209/5022 , G06F2212/1008 , G06F2212/1024 , G06F2212/1041 , G06F2212/1044 , G06F2212/152 , G06F2212/202 , G06F2212/401 , G06F2212/402 , G06F2212/7207 , G06Q10/06 , G06Q10/06314 , G06Q10/087 , G06Q10/20 , G06Q50/04 , G07C5/008 , G08C17/02 , G08C2200/00 , G11C5/02 , G11C5/06 , G11C7/1072 , G11C11/56 , G11C14/0009 , H03M7/30 , H03M7/3084 , H03M7/3086 , H03M7/40 , H03M7/4031 , H03M7/4056 , H03M7/4081 , H03M7/6005 , H03M7/6023 , H04B10/25 , H04B10/2504 , H04L9/0643 , H04L9/14 , H04L9/3247 , H04L9/3263 , H04L12/2809 , H04L29/12009 , H04L41/024 , H04L41/046 , H04L41/0813 , H04L41/082 , H04L41/0896 , H04L41/12 , H04L41/145 , H04L41/147 , H04L41/5019 , H04L43/065 , H04L43/08 , H04L43/0817 , H04L43/0876 , H04L43/0894 , H04L43/16 , H04L45/02 , H04L45/52 , H04L47/24 , H04L47/765 , H04L47/782 , H04L47/805 , H04L47/82 , H04L47/823 , H04L49/15 , H04L49/25 , H04L49/357 , H04L49/45 , H04L49/555 , H04L67/02 , H04L67/10 , H04L67/1004 , H04L67/1008 , H04L67/1012 , H04L67/1014 , H04L67/1029 , H04L67/1034 , H04L67/1097 , H04L67/12 , H04L67/16 , H04L67/306 , H04L67/34 , H04L69/04 , H04L69/329 , H04Q1/04 , H04Q11/00 , H04Q11/0003 , H04Q11/0062 , H04Q11/0071 , H04Q2011/0037 , H04Q2011/0041 , H04Q2011/0052 , H04Q2011/0073 , H04Q2011/0079 , H04Q2011/0086 , H04Q2213/13523 , H04Q2213/13527 , H04W4/023 , H04W4/80 , H05K1/0203 , H05K1/181 , H05K5/0204 , H05K7/1418 , H05K7/1421 , H05K7/1422 , H05K7/1447 , H05K7/1461 , H05K7/1485 , H05K7/1487 , H05K7/1489 , H05K7/1491 , H05K7/1492 , H05K7/1498 , H05K7/2039 , H05K7/20709 , H05K7/20727 , H05K7/20736 , H05K7/20745 , H05K7/20836 , H05K13/0486 , H05K2201/066 , H05K2201/10121 , H05K2201/10159 , H05K2201/10189 , Y10S901/01
Abstract: A sled for operation in a corresponding rack of a data center includes a chassis-less circuit board substrate having one or more physical resources coupled to a top side of the chassis-less circuit board and one or more memory devices coupled to a bottom side of the chassis-less circuit board. The sled does not include a housing or chassis and is opened to the local environment. In the illustrative embodiments, the sled may be embodied as a compute sled, an accelerator sled, or a storage sled.
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Patent Agency Ranking
公开(公告)号:US12219706B2
公开(公告)日:2025-02-04
申请号:US17354989
申请日:2021-06-22
Applicant: Intel Corporation
Inventor: Jonathan W. Thibado , Aaron Gorius , Michael T. Crocker , Matthew J. Adiletta , John C. Gulick , Emery E. Frey
Abstract: Examples described herein relate to an apparatus that includes a flexible conductor covered in an insulative material and at least one conductor region in contact with the flexible conductor. In some examples, melting of the at least one conductor region is to cause a conductive coupling of the flexible conductor with a second conductor and wherein the flexible conductor is adapted to conductively couple a first circuit board oriented orthogonal to a second circuit board. In some examples, the at least one conductor region comprises at least one solder ball of a grid array. In some examples, the at least one conductor region is re-solderable.
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公开(公告)号:US11728665B2
公开(公告)日:2023-08-15
申请号:US17232023
申请日:2021-04-15
Applicant: Intel Corporation
Inventor: Naoki Matsumura , Simon N. Peffers , Steven Lloyd , Michael T. Crocker , Aaron Gorius
IPC: H02J7/00
CPC classification number: H02J7/0048 , H02J7/00714
Abstract: In some examples, a control unit is configured to adjust charge termination voltage of a rechargeable energy storage device. The control unit is adapted to charge the rechargeable energy storage device to a charge termination voltage where the rechargeable energy storage device has capacity to support peak load but comes close to a system shutdown voltage after supporting peak load. The control unit is also adapted to increase the charge termination voltage if a voltage of the rechargeable energy storage device is near a system shutdown voltage after supporting peak load.
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公开(公告)号:US20190387291A1
公开(公告)日:2019-12-19
申请号:US16506457
申请日:2019-07-09
Applicant: Intel Corporation
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
IPC: H04Q11/00 , H03M7/40 , H03M7/30 , G06F16/901 , G06F3/06 , H04L12/811 , G11C7/10 , H05K7/14 , G06F1/18 , G06F13/40 , H05K5/02 , G08C17/02 , H04L12/24 , H04L29/08 , H04L12/26 , H04L12/851 , G06F9/50 , H04L12/911 , G06F12/109 , H04L29/06 , G11C14/00 , G11C5/02 , G11C11/56 , G02B6/44 , G06F8/65 , G06F12/14 , G06F13/16 , H04B10/25 , G06F9/4401 , G02B6/38 , G02B6/42 , B25J15/00 , B65G1/04 , H05K7/20 , H04L12/931 , H04L12/939 , H04W4/02 , H04L12/751 , G06F13/42 , H05K1/18 , G05D23/19 , G05D23/20 , H04L12/927 , H05K1/02 , H04L12/781 , H04Q1/04 , G06F12/0893 , H05K13/04 , G11C5/06 , G06F11/14 , G06F11/34 , G06F12/0862 , G06F15/80 , H04L12/919 , G06F12/10 , G06Q10/06 , G07C5/00 , H04L12/28 , H04L29/12 , H04L9/06 , H04L9/14 , H04L9/32 , H04L12/933 , H04L12/947 , G06F9/30 , G06F9/38 , G06F9/54
Abstract: Examples may include racks for a data center and sleds for the racks, the sleds arranged to house physical resources for the data center. The sleds and racks can be arranged to be autonomously manipulated, such as, by a robot. The sleds and racks can include features to facilitate automated installation, removal, maintenance, and manipulation by a robot.
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公开(公告)号:US10474460B2
公开(公告)日:2019-11-12
申请号:US16120419
申请日:2018-09-03
Applicant: Intel Corporation
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
IPC: H04J14/00 , G06F9/30 , H03M7/40 , H03M7/30 , G06F16/901 , G06F3/06 , G11C7/10 , H05K7/14 , G06F1/18 , G06F13/40 , H05K5/02 , G08C17/02 , H04L12/24 , H04L29/08 , H04L12/26 , H04L12/851 , H04Q11/00 , G06F9/50 , H04L12/911 , G06F12/109 , H04L29/06 , G11C14/00 , G11C5/02 , G11C11/56 , G02B6/44 , G06F8/65 , G06F12/14 , G06F13/16 , H04B10/25 , G06F9/4401 , G02B6/38 , G02B6/42 , B25J15/00 , B65G1/04 , H05K7/20 , H04L12/931 , H04L12/939 , H04W4/02 , H04L12/751 , G06F13/42 , H05K1/18 , G05D23/19 , G05D23/20 , H04L12/927 , H05K1/02 , H04L12/781 , H04Q1/04 , G06F12/0893 , H05K13/04 , G11C5/06 , G06F11/14 , G06F11/34 , G06F12/0862 , G06F15/80 , H04L12/919 , G06F12/10 , G06Q10/06 , G07C5/00 , H04L12/28 , H04L29/12 , H04L9/06 , H04L9/14 , H04L9/32 , H04L12/933 , H04L12/947 , H04L12/811 , G06F9/38 , G06F9/54 , H04W4/80 , G06Q10/08 , G06Q10/00 , G06Q50/04
Abstract: Technologies for optical communication in a rack cluster in a data center are disclosed. In the illustrative embodiment, a network switch is connected to each of 1,024 sleds by an optical cable that enables communication at a rate of 200 gigabits per second. The optical cable has low loss, allowing for long cable lengths, which in turn allows for connecting to a large number of sleds. The optical cable also has a very high intrinsic bandwidth limit, allowing for the bandwidth to be upgraded without upgrading the optical infrastructure.
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公开(公告)号:US20190173211A1
公开(公告)日:2019-06-06
申请号:US16208543
申请日:2018-12-03
Applicant: Intel Corporation
Inventor: Russell Aoki , Aaron Gorius , Michael T. Crocker , Matthew J. Adiletta
Abstract: Sleds for operation in racks of data centers are disclosed herein. A sled includes a circuit board substrate, one or more physical resources, and one or more memory devices. The circuit board substrate has a top side and a bottom side arranged opposite the top side. The one or more physical resources are coupled to the top side of the circuit board substrate. The one or more memory devices are coupled to the bottom side of the circuit board substrate. Additionally, the sled includes a connector to electrically couple the one or more physical resources to the one or more memory devices.
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