公开(公告)号：US5724565A

公开(公告)日：1998-03-03

申请号：US383282

申请日：1995-02-03

Applicant: Pradeep Kumar Dubey ,  Charles Roberts Moore ,  Terence Matthew Potter

Inventor： Pradeep Kumar Dubey ,  Charles Roberts Moore ,  Terence Matthew Potter

IPC: G06F9/46 ,  G06F9/30 ,  G06F9/38

CPC classification number: G06F9/3804 ,  G06F9/3836 ,  G06F9/3842 ,  G06F9/3851

Abstract: A method and system are provided for processing instruction threads. Execution is initiated by a processing system of a first set of instructions including a particular instruction. The particular instruction includes an indication of a second set of instructions. In response to execution of the particular instruction and to the processing system being of a first type, the processing system continues executing the first set while initiating execution of the second set. In response to execution of the particular instruction and to the processing system being of a second type, the processing system continues executing the first set without initiating execution of the second set.

Abstract translation: 提供了一种用于处理指令线程的方法和系统。 执行由包括特定指令的第一组指令的处理系统发起。 特定指令包括第二组指令的指示。 响应于特定指令的执行和处理系统是第一类型，处理系统在启动第二组的执行的同时继续执行第一组。 响应于特定指令的执行和处理系统是第二类型，处理系统继续执行第一组而不启动第二组的执行。

公开(公告)号：US20200149140A1

公开(公告)日：2020-05-14

申请号：US16188890

申请日：2018-11-13

Applicant: Pradeep Kumar Rohatgi

Inventor： Pradeep Kumar Rohatgi

IPC: C22C49/14 ,  B33Y80/00 ,  B33Y70/00 ,  B23K35/22 ,  C22C47/14

Abstract: This invention relates to structures and processing imparting self-healing characteristics in Iron, Copper, Zinc, Magnesium, Nickel, Titanium, Gold, Silver and their alloys, and other materials including polymers and ceramics. The composite disclosed consists of a matrix with dispersed hollow macro, micro and nanotubes or balloons or fibers encapsulating a lower melting point or liquid healing material; self-healing results from flow of liquid “healing agent” into the crack. Another type of self-healing material is where the cracks are subjected to compressive stresses due to phase transformations in the matrix or reinforcement, including nano structure matrix and nanosize reinforcements. The compressive stresses could be due to shrinkage of shape memory material in the form of fibers, micro and nano size which deform, or reinforcements when expand upon reaction with atmosphere sealing the crack. The invention includes self-healing due to hollow vascular networks through which healing agent can flow and seal the crack.

公开(公告)号：US10171499B2

公开(公告)日：2019-01-01

申请号：US15252658

申请日：2016-08-31

Applicant: Pradeep Kumar ,  Andrei Gurtov ,  Madhusanka Liyanage

Inventor： Pradeep Kumar ,  Andrei Gurtov ,  Madhusanka Liyanage

IPC: H04L29/06 ,  H04W12/02 ,  H04W84/18 ,  H04L29/08 ,  H04W12/04 ,  H04W12/06 ,  H04W16/20 ,  H04W76/12 ,  H04W16/06 ,  H04W84/00 ,  H04W4/04 ,  H04W48/02

Abstract: Systems and methods provide secure and wireless intra-vehicular communication. An intra-vehicular communication system has a secured network segment including a plurality of secure zones on a vehicle, the secure zones each having a plurality of node devices. The system also has a single point of security proximate each secure zone on the vehicle providing communication security for a corresponding secure zone, and a public network segment on the vehicle configured to wirelessly transport data traffic between the secure zones.

公开(公告)号：US10102042B2

公开(公告)日：2018-10-16

申请号：US14554430

申请日：2014-11-26

Applicant: Ashish Kumar Singh ,  Sai Eswar Garapati ,  Vijay Kishore Kalakotla ,  Pradeep Kumar Das

Inventor： Ashish Kumar Singh ,  Sai Eswar Garapati ,  Vijay Kishore Kalakotla ,  Pradeep Kumar Das

IPC: G06F9/46 ,  G06F9/50

Abstract: A method includes storing a plurality of workloads in a first disk resource associated with a high end disk classification. The method further includes determining a corresponding activity level for each of the plurality of workloads. The method also includes classifying each of the plurality of workloads into a first set indicative of high-priority workloads and a second set indicative of low-priority workloads based on whether the corresponding activity level is greater than a threshold activity level. The method further includes determining whether a second disk resource associated with a low end disk classification can accommodate storage of a first particular workload in the second set based on an available storage capacity of the second disk resource. The method additionally includes migrating the first particular workload from the first disk resource to the second disk resource.

公开(公告)号：US10026076B2

公开(公告)日：2018-07-17

申请号：US12574696

申请日：2009-10-06

Applicant: Pradeep Kumar ,  Mohammad Khan

Inventor： Pradeep Kumar ,  Mohammad Khan

IPC: G06Q20/00 ,  G07F19/00 ,  G07B17/00 ,  G06Q20/34 ,  G06Q20/10 ,  G06Q20/20 ,  G06Q20/22 ,  G06Q20/32

CPC classification number: G06Q20/351 ,  G06Q20/10 ,  G06Q20/105 ,  G06Q20/202 ,  G06Q20/204 ,  G06Q20/223 ,  G06Q20/32 ,  G06Q20/3278

Abstract: The subject matter described herein includes methods, systems, and computer readable media for virtual card transfer between near field communications (NFC)-enabled mobile devices. According to one aspect, a method for over-the-air (OTA) virtual card transfer between NFC-enabled mobile devices is disclosed. The method includes receiving, at an OTA provisioning server, a virtual card, from a sending mobile device, that is intended for a receiving mobile device. The virtual card is provisioned, over the air, to the receiving mobile device, where the virtual card is immediately presentable by the receiving mobile device at a point of sale terminal.

公开(公告)号：US09435014B2

公开(公告)日：2016-09-06

申请号：US13928486

申请日：2013-06-27

Applicant: Pradeep Kumar Rohatgi

Inventor： Pradeep Kumar Rohatgi

IPC: C22C21/00 ,  C22C49/06 ,  C22F1/00 ,  B22D19/14 ,  B23K35/22 ,  C22C47/20 ,  C22C49/14 ,  C22C47/08 ,  C22C47/14

CPC classification number: C22F1/006 ,  B22D19/14 ,  B22F2999/00 ,  B23K35/22 ,  C22C21/00 ,  C22C47/08 ,  C22C47/14 ,  C22C47/20 ,  C22C49/06 ,  C22C49/14 ,  B22F1/0051

Abstract: The invention discloses the internal structures and processes to synthesize the structure of self-healing materials, especially metallic materials, metal matrix micro and nanocomposites. Self-healing is imparted by incorporation of macro, micro or nanosize hollow reinforcements including nanotubes, filled with low melting healing material or incorporation of healing material in pockets within the metallic matrix; the healing material melts and fills the crack. In another concept, macro, micro and nanosize solid reinforcements including ceramic and metallic particles, and shape memory alloys are incorporated into alloy matrices, specially nanostructured alloy matrices, to impart self healing by applying compressive stresses on the crack or diffusing material into voids to fill them. The processes to synthesize these self-healing and nanocomposite structures, including pressure or pressureless infiltration, stir mixing and squeeze casting in addition to solid and vapor phase consolidation processes are part of this invention.

Abstract translation: 本发明公开了合成自愈材料，特别是金属材料，金属基体微观和纳米复合材料结构的内部结构和工艺。 通过掺入包含纳米管的宏观，微观或纳米尺寸的空心增强材料，填充有低熔点愈合材料或将愈合材料引入金属基质内的凹穴中来实现自愈合; 愈合材料熔化并填充裂缝。 在另一个概念中，将包括陶瓷和金属颗粒以及形状记忆合金在内的宏观，微观和纳米尺寸的固体增强材料并入合金基质，特别是纳米结构合金基质中，通过在裂纹上施加压应力或将材料扩散到空隙中以赋予自愈合 他们。 合成这些自愈和纳米复合结构的方法，包括压力或无压渗透，搅拌混合和挤压铸造以及固相和气相固结方法是本发明的一部分。

公开(公告)号：US20160254434A1

公开(公告)日：2016-09-01

申请号：US14632505

申请日：2015-02-26

Applicant: Robert Francis McDermott III ,  Pradeep Kumar

Inventor： Robert Francis McDermott III ,  Pradeep Kumar

IPC: H01L39/04 ,  H01L39/24 ,  H01L27/18

CPC classification number: H01L39/045 ,  G06N99/002 ,  H01L27/18 ,  H01L39/2493

Abstract: Systems and methods for suppressing magnetically active surface defects in superconducting quantum circuits are provided. A method includes providing one or more superconducting quantum circuits, and arranging the one or more superconducting quantum circuits in a hermetic enclosure capable of isolating the one or more superconducting circuits from ambient surroundings. The method also includes controlling an environment in the hermetic enclosure to suppress magnetically active surface defects associated with the one or more superconducting quantum circuits. In some aspects, the method further includes introducing an inert gas into the hermetic enclosure to passivate a surface of the one or more superconducting quantum circuits. In other aspects, the method further includes coating a surface of the one or more superconducting circuits with a non-magnetic encapsulation layer. In yet other aspects, the method further includes irradiating the one or more superconducting circuits using ultraviolet light.

Abstract translation: 提供了用于抑制超导量子电路中的磁性活性表面缺陷的系统和方法。 一种方法包括提供一个或多个超导量子电路，以及将一个或多个超导量子电路布置在能够将一个或多个超导电路与周围环境隔离的密封外壳中。 该方法还包括控制密封外壳中的环境以抑制与一个或多个超导量子电路相关联的磁性活性表面缺陷。 在一些方面，该方法还包括将惰性气体引入密封外壳以钝化一个或多个超导量子电路的表面。 在其它方面，所述方法还包括用非磁性封装层涂覆所述一个或多个超导电路的表面。 在其它方面，该方法还包括使用紫外光照射一个或多个超导电路。

公开(公告)号：US20160147575A1

公开(公告)日：2016-05-26

申请号：US14554430

申请日：2014-11-26

Applicant: Ashish Kumar Singh ,  Sai Eswar Garapati ,  Vijay Kishore Kalakotla ,  Pradeep Kumar Das

Inventor： Ashish Kumar Singh ,  Sai Eswar Garapati ,  Vijay Kishore Kalakotla ,  Pradeep Kumar Das

IPC: G06F9/50 ,  G06F9/48

CPC classification number: G06F9/5088

Abstract: A method includes storing a plurality of workloads in a first disk resource associated with a high end disk classification. The method further includes determining a corresponding activity level for each of the plurality of workloads. The method also includes classifying each of the plurality of workloads into a first set indicative of high-priority workloads and a second set indicative of low-priority workloads based on whether the corresponding activity level is greater than a threshold activity level. The method further includes determining whether a second disk resource associated with a low end disk classification can accommodate storage of a first particular workload in the second set based on an available storage capacity of the second disk resource. The method additionally includes migrating the first particular workload from the first disk resource to the second disk resource.

Abstract translation: 一种方法包括将多个工作负载存储在与高端盘分类相关联的第一磁盘资源中。 所述方法还包括确定所述多个工作负载中的每一个的相应活动级别。 该方法还包括将多个工作负载中的每一个分类为指示高优先级工作负载的第一组，以及基于相应的活动级别是否大于阈值活动级别指示低优先级工作负载的第二组。 该方法还包括基于第二磁盘资源的可用存储容量确定与低端磁盘分类相关联的第二磁盘资源是否可以容纳第二集合中的第一特定工作负载的存储。 该方法还包括将第一特定工作负载从第一磁盘资源迁移到第二磁盘资源。

公开(公告)号：US09207997B2

公开(公告)日：2015-12-08

申请号：US11930603

申请日：2007-10-31

Applicant: Pradeep Kumar Rathi

Inventor： Pradeep Kumar Rathi

IPC: G06F9/46 ,  G06F9/52

CPC classification number: G06F9/526 ,  G06F9/522

Abstract: Apparatus, systems, and methods may operate to construct a memory barrier to protect a thread-specific use counter by serializing parallel instruction execution. If a reader thread is new and a writer thread is not waiting to access data to be read by the reader thread, the thread-specific use counter is created and associated with a read data structure and a write data structure. The thread-specific use counter may be incremented if a writer thread is not waiting. If the writer thread is waiting to access the data after the thread-specific use counter is created, then the thread-specific use counter is decremented without accessing the data by the reader thread. Otherwise, the data is accessed by the reader thread and then the thread-specific use counter is decremented. Additional apparatus, systems, and methods are disclosed.

Abstract translation: 装置，系统和方法可以操作以构建存储器屏障，以通过串行化并行指令执行来保护线程特定使用计数器。 如果读取器线程是新的，并且写入器线程不等待访问由读取器线程读取的数据，则创建线程专用使用计数器并将其与读取数据结构和写入数据结构相关联。 线程专用使用计数器可能会增加，如果写线程不等待。 如果在创建线程专用使用计数器之后，写入程序线程正在等待访问数据，则线程专用的使用计数器会递减，而不会由读取器线程访问数据。 否则，读取器线程访问数据，然后线程专用使用计数器递减。 公开了附加装置，系统和方法。

公开(公告)号：US09191332B2

公开(公告)日：2015-11-17

申请号：US13538576

申请日：2012-06-29

Applicant: Pradeep Kumar

Inventor： Pradeep Kumar

IPC: H04L12/801 ,  H04L1/16 ,  H04L1/18

CPC classification number: H04L47/34 ,  H04L1/1628 ,  H04L1/1642 ,  H04L1/1671 ,  H04L1/1809

Abstract: Methods, systems, and computer readable media for updating sequence and acknowledgment numbers associated with replay packets are disclosed. In one example, a method includes generating, at a sending peer node, a replay packet that includes a payload associated with a capture file packet and accessing, in the sending peer node, a sequence-differential (SEQ-DIFF) list using an original sequence number associated with the replay packet. The method further includes traversing entries in the SEQ-DIFF list, wherein each of the entries includes a sequence number and a payload length differential value, applying, for each traversed entry in the SEQ-DIFF list, the payload length differential value to the original sequence number to determine an updated sequence number for the replay packet, and transmitting, from the sending peer node to a receiving peer node, the replay packet that includes the updated sequence number.

Abstract translation: 公开了用于更新与重放分组相关联的序列和确认号码的方法，系统和计算机可读介质。 在一个示例中，一种方法包括在发送对等节点处生成包括与捕获文件分组相关联的有效载荷的重播分组，并且在发送对等节点中使用原始数据访问序列差分（SEQ-DIFF）列表 与重播数据包相关联的序列号。 所述方法还包括遍历SEQ-DIFF列表中的条目，其中每个条目包括序列号和有效载荷长度差分值，对于SEQ-DIFF列表中的每个遍历条目，将有效载荷长度差值应用于原始 序列号，以确定用于重放分组的更新的序列号，以及从发送对等节点向接收对等节点发送包括更新的序列号的重播分组。