Patents by Inventor Vijaykumar Kadgi
Vijaykumar Kadgi 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: 11592884Abstract: Apparatus and methods for managing power consumption of a data-path in a computer system are provided, the data-path comprising a first port and a second port, the first port comprising a high-speed and the second port comprising a low-speed port. The disclosed method including connecting a device to the data-path, determining that the connected device is to communicate using the second port and turning off an active circuit associated with the first port of the data-path.Type: GrantFiled: January 25, 2018Date of Patent: February 28, 2023Assignee: Intel CorporationInventors: Chee Lim Nge, Chia-Hung Kuo, Nivedita Aggarwal, Venkataramani Gopalakrishnan, Robert Gough, Basavaraj Astekar, Vijaykumar Kadgi
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Publication number: 20200225722Abstract: Apparatus and methods for managing power consumption of a data-path in a computer system are provided, the data-path comprising a first port and a second port, the first port comprising a high-speed and the second port comprising a low-speed port. The disclosed method including connecting a device to the data-path, determining that the connected device is to communicate using the second port and turning off an active circuit associated with the first port of the data-path.Type: ApplicationFiled: January 25, 2018Publication date: July 16, 2020Inventors: CHEE LIM NGE, CHIA-HUNG KUO, NIVEDITA AGGARWAL, VENKATARAMANI GOPALAKRISHNAN, ROBERT GOUGH, BASAVARAJ ASTEKAR, VIJAYKUMAR KADGI
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Patent number: 10635624Abstract: Embodiments are generally directed to dual role capable connectors for a separable portion of a computing apparatus. An embodiment of an apparatus includes a separable physical connection to a second apparatus; a first electronic connector, the first electronic connector providing data connections for the physical connection; a plurality of additional electronic connectors, the plurality of additional connectors being supported by the first electronic connector; and a control logic to control operation of the plurality of additional electronic connectors, wherein operation of the plurality of additional electronic connectors includes each additional electronic connector being capable to operate in both a host role and a device role for the interconnection of computing systems, wherein the host role and device role may be for a first connector mode or a second connector mode, and an alternative connector mode.Type: GrantFiled: June 24, 2016Date of Patent: April 28, 2020Assignee: INTEL CORPORATIONInventor: Vijaykumar Kadgi
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Patent number: 10409612Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: GrantFiled: December 26, 2015Date of Patent: September 10, 2019Assignee: Intel CorporationInventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Patent number: 10409611Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: GrantFiled: December 26, 2015Date of Patent: September 10, 2019Assignee: Intel CorporationInventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20190121771Abstract: Embodiments are generally directed to dual role capable connectors for a separable portion of a computing apparatus. An embodiment of an apparatus includes a separable physical connection to a second apparatus; a first electronic connector, the first electronic connector providing data connections for the physical connection; a plurality of additional electronic connectors, the plurality of additional connectors being supported by the first electronic connector, and a control logic to control operation of the plurality of additional electronic connectors, wherein operation of the plurality of additional electronic connectors includes each additional electronic connector being capable to operate in both a host role and a device role for the interconnection of computing systems, wherein the host role and device role may be for a first connector mode or a second connector mode, and an alternative connector mode.Type: ApplicationFiled: June 24, 2016Publication date: April 25, 2019Inventor: Vijaykumar Kadgi
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Publication number: 20160239304Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: August 18, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20160210177Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: July 21, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20160154648Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: June 2, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20160132337Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: May 12, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20160132334Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: May 12, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20160132333Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: May 12, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20160132336Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: May 12, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20160132335Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: December 26, 2015Publication date: May 12, 2016Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, IIhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi
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Publication number: 20140059333Abstract: An apparatus and method is described herein for providing robust speculative code section abort control mechanisms. Hardware is able to track speculative code region abort events, conditions, and/or scenarios, such as an explicit abort instruction, a data conflict, a speculative timer expiration, a disallowed instruction attribute or type, etc. And hardware, firmware, software, or a combination thereof makes an abort determination based on the tracked abort events. As an example, hardware may make an initial abort determination based on one or more predefined events or choose to pass the event information up to a firmware or software handler to make such an abort determination. Upon determining an abort of a speculative code region is to be performed, hardware, firmware, software, or a combination thereof performs the abort, which may include following a fallback path specified by hardware or software.Type: ApplicationFiled: February 2, 2012Publication date: February 27, 2014Inventors: Martin G. Dixon, Ravi Rajwar, Konrad K. Lai, Robert S. Chappell, Rajesh S. Parthasarathy, Alexandre J. Farcy, Ilhyun Kim, Prakash Math, Matthew Merten, Vijaykumar Kadgi