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公开(公告)号:US12082370B2
公开(公告)日:2024-09-03
申请号:US17337342
申请日:2021-06-02
Applicant: Intel Corporation
Inventor: Aaron Gorius , Michael T. Crocker , Jonathan W. Thibado , Matthew J. Adiletta , John C. Gulick , Emery E. Frey
IPC: H05K7/20
CPC classification number: H05K7/20272 , H05K7/20236 , H05K7/20281 , H05K7/205
Abstract: Examples described herein relate to a system. The system can include a container that contains fluid to provide two phase immersion liquid cooling (2PILC) for a system within the container. The container can enclose a first circuit board with a first side of the first circuit board is conductively coupled to at least one device. The container can enclose a motherboard conductively coupled to a second side of the first circuit board with a first side of the motherboard is conductively coupled to the second side of the first circuit board. The motherboard can include at least four edges. Connectors can conductively connect the motherboard with a second circuit board. The second circuit board can include at least four edges and an edge of the motherboard is oriented approximately 90 degrees to an edge of the second circuit board. At least one device can include one or more of: a processor, memory device, accelerator device, or network interface.
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公开(公告)号:US11349734B2
公开(公告)日:2022-05-31
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: G06F7/00 , H04L43/08 , G06F16/901 , H04B10/25 , G02B6/38 , G02B6/42 , G02B6/44 , G06F1/18 , G06F1/20 , G06F3/06 , G06F8/65 , G06F9/30 , G06F9/4401 , G06F9/54 , G06F12/109 , G06F12/14 , G06F13/16 , G06F13/40 , G08C17/02 , G11C5/02 , G11C7/10 , G11C11/56 , G11C14/00 , H03M7/30 , H03M7/40 , H04L41/14 , H04L43/0817 , H04L43/0876 , H04L43/0894 , H04L49/00 , H04L49/25 , H04L49/356 , H04L49/45 , H04L67/02 , H04L67/306 , H04L69/04 , H04L69/329 , H04Q11/00 , H05K7/14 , G06F15/16 , G06F9/38 , G06F9/50 , H04L41/12 , H04L41/5019 , H04L43/16 , H04L47/24 , H04L47/38 , H04L67/1004 , H04L67/1034 , H04L67/1097 , H04L67/12 , H04L67/51 , H05K5/02 , H04W4/80 , G06Q10/08 , G06Q10/00 , G06Q50/04 , H04L43/065 , H04J14/00 , H04L41/147 , H04L67/1008 , H04L41/0813 , H04L67/1029 , H04L41/0896 , H04L47/70 , H04L47/78 , H04L41/082 , H04L67/00 , H04L67/1012 , B25J15/00 , B65G1/04 , H05K7/20 , H04L49/55 , H04L67/10 , H04W4/02 , H04L45/02 , G06F13/42 , H05K1/18 , G05D23/19 , G05D23/20 , H04L47/80 , H05K1/02 , H04L45/52 , H04Q1/04 , G06F12/0893 , H05K13/04 , G11C5/06 , G06F11/14 , G06F11/34 , G06F12/0862 , G06F15/80 , H04L47/765 , H04L67/1014 , G06F12/10 , G06Q10/06 , G07C5/00 , H04L12/28 , H04L61/00 , H04L41/02 , H04L9/06 , H04L9/14 , H04L9/32 , H04L41/046 , H04L49/15
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:US11200104B2
公开(公告)日:2021-12-14
申请号:US16346341
申请日:2017-11-29
Applicant: INTEL CORPORATION
Inventor: Matthew J. Adiletta , Myles Wilde , Aaron Gorius , Michael T. Crocker , Paul H. Dormitzer , Mark A. Schmisseur
IPC: H01P5/08 , H01P5/00 , H04B3/52 , H05K7/14 , G06F11/07 , G06F11/30 , G06F9/50 , G06F11/34 , H04Q11/00 , G06F16/28
Abstract: Racks and rack pods to support a plurality of sleds are disclosed herein. Switches for use in the rack pods are also disclosed herein. A rack comprises a plurality of sleds and a plurality of electromagnetic waveguides. The plurality of sleds are vertically spaced from one another. The plurality of electromagnetic waveguides communicate data signals between the plurality of sleds.
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公开(公告)号:US20210377140A1
公开(公告)日:2021-12-02
申请号:US17404749
申请日:2021-08-17
Applicant: Intel Corporation
Inventor: Matthew Adiletta , Aaron Gorius , Myles Wilde , Michael Crocker
IPC: H04L12/26 , G06F16/901 , H04B10/25 , G02B6/38 , G02B6/42 , G02B6/44 , G06F1/18 , G06F1/20 , G06F3/06 , G06F8/65 , G06F9/30 , G06F9/4401 , G06F9/54 , G06F12/109 , G06F12/14 , G06F13/16 , G06F13/40 , G08C17/02 , G11C5/02 , G11C7/10 , G11C11/56 , G11C14/00 , H03M7/30 , H03M7/40 , H04L12/24 , H04L12/931 , H04L12/947 , H04L29/08 , H04L29/06 , H04Q11/00 , H05K7/14 , G06F15/16
Abstract: Technologies for switching network traffic include a network switch. The network switch includes one or more processors and communication circuitry coupled to the one or more processors. The communication circuity is capable of switching network traffic of multiple link layer protocols. Additionally, the network switch includes one or more memory devices storing instructions that, when executed, cause the network switch to receive, with the communication circuitry through an optical connection, network traffic to be forwarded, and determine a link layer protocol of the received network traffic. The instructions additionally cause the network switch to forward the network traffic as a function of the determined link layer protocol. Other embodiments are also described and claimed.
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公开(公告)号:US11159039B2
公开(公告)日:2021-10-26
申请号:US16458028
申请日:2019-06-29
Applicant: INTEL CORPORATION
Inventor: Naoki Matsumura , Aaron Gorius
Abstract: In some examples, an apparatus includes a controller to monitor voltage of a battery during constant current charging of the battery, and to detect lithium plating of the battery based on a rate of change of the monitored voltage of the battery during constant current charging of the battery. In some examples, a battery module includes a plurality of battery cells connected in parallel, and a controller to determine an impedance of each of the plurality of battery cells, and to disconnect one of the plurality of battery cells from the plurality of battery cells based on a relation of the impedance of the one of the plurality of battery cells with a threshold impedance.
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Patent Agency Ranking
公开(公告)号:US20200052494A1
公开(公告)日:2020-02-13
申请号:US16057588
申请日:2018-08-07
Applicant: Intel Corporation
Inventor: Naoki Matsumura , Simon N. Peffers , Steven Lloyd , Michael T. Crocker , Aaron Gorius
IPC: H02J7/00
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:US20190305574A1
公开(公告)日:2019-10-03
申请号:US16444623
申请日:2019-06-18
Applicant: Intel Corporation
Inventor: Naoki Matsumura , Aaron Gorius
Abstract: In some examples, an apparatus is to adjust charge termination voltage. The apparatus includes a controller to adjust a charge termination voltage of a charger of a rechargeable energy storage device based on a comparison of a first threshold level with the voltage of the rechargeable energy storage device during peak load. The charge termination voltage is a voltage at which the rechargeable energy storage device has capacity to support peak load of a system. The controller is to adjust the charge termination voltage based on a comparison of a second threshold level with an end voltage of the rechargeable energy storage device after peak load.
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公开(公告)号:US10356495B2
公开(公告)日:2019-07-16
申请号:US15396653
申请日:2016-12-31
Applicant: Intel Corporation
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
IPC: H05K7/20 , H04Q11/00 , 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 , 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 , 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 , H04W4/80 , G06Q10/08 , G06Q10/00 , G06Q50/04
Abstract: Technologies for rack cooling includes monitoring a temperature of a sled mounted in a rack and controlling a cooling system of the rack based on the temperature of the sled. The cooling system includes a cooling fan array, which may be controlled to cool the sled. Additionally, if needed, one or more adjacent cooling fan arrays that are located adjacent to the controlled cooling fan array may be adjusted to provide additional cooling to the sled.
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公开(公告)号:US10349152B2
公开(公告)日:2019-07-09
申请号:US15396187
申请日:2016-12-30
Applicant: INTEL CORPORATION
Inventor: Matthew J. Adiletta , Aaron Gorius , Myles Wilde , Michael T. Crocker
IPC: G06F1/16 , H04Q11/00 , 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 , 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 , 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 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:US20190021182A1
公开(公告)日:2019-01-17
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: H05K7/14 , H05K13/04 , H05K7/20 , H05K5/02 , H05K1/18 , H05K1/02 , H04W4/02 , H04Q11/00 , H04Q1/04 , H04L29/08 , H04L29/06 , H04L12/939 , H04L12/931 , H04L12/947 , H04L12/933 , H04L12/911 , H04L12/927 , H04L12/919 , H04L12/851 , H04L12/781 , H04L12/751 , H04L12/26 , H04L12/24 , H04L29/12 , H04L12/28 , H04L9/32 , H04L9/14 , H04L9/06 , H04B10/25 , H03M7/30 , H03M7/40 , G11C14/00 , G11C11/56 , G11C7/10 , G11C5/06 , G11C5/02 , G08C17/02 , G07C5/00 , G06Q10/06 , G06F17/30 , G06F15/80 , G06F13/42 , G06F13/40 , G06F13/16 , G06F12/14 , G06F12/109 , G06F12/10 , G06F12/0893 , G06F12/0862 , G06F11/34 , G06F11/14 , G06F9/50 , G06F9/4401 , G06F8/65 , G06F3/06 , G06F1/18 , G05D23/20 , G05D23/19 , G02B6/44 , G02B6/42 , G02B6/38 , B65G1/04 , B25J15/00 , H04W4/80 , G06Q50/04 , G06Q10/00 , G06Q10/08
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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