Patents by Inventor Joshua P. de Cesare
Joshua P. de Cesare 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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Publication number: 20190188397Abstract: Techniques are disclosed relating to data storage. In various embodiments, a computing device includes first and second processors and memory having stored therein a first encrypted operating system executable by the first processor and a second encrypted operating system executable by the second processor. The computing device also includes a secure circuit configured to receive, via a first mailbox mechanism of the secure circuit, a first request from the first processor for a first cryptographic key usable to decrypt the first operating system. The secure circuit is further configured to receive, via a second mailbox mechanism of the secure circuit, a second request from the second processor for a second cryptographic key usable to decrypt the second operating system, and to provide the first and second cryptographic keys.Type: ApplicationFiled: September 27, 2018Publication date: June 20, 2019Inventors: Wade Benson, Michael J. Smith, Joshua P. de Cesare
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Publication number: 20190114433Abstract: A method and apparatus for protecting boot variables is disclosed. A computer system includes a main processor and an auxiliary processor. The auxiliary processor is associated with a non-volatile memory that stores variables associated with boot code that is also stored thereon. The main processor may send a request to the auxiliary processor to alter one of the variables stored in the non-volatile memory. Responsive to receiving the request, the auxiliary processor may execute a security policy to determine if the main processor meets the criteria for altering the variable. If the auxiliary processor determines that the main processor meets the criteria, it may grant permission to alter the variable.Type: ApplicationFiled: November 30, 2018Publication date: April 18, 2019Inventors: Joshua P. de Cesare, Timothy R. Paaske, Xeno S. Kovah, Nikolaj Schlej, Jeffrey R. Wilcox, Hardik K. Doshi, Kevin H. Alderfer, Corey T. Kallenberg
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Patent number: 10261894Abstract: In an embodiment, a system on a chip (SOC) includes a component that remains powered when the remainder of the SOC is powered off. The component may include a sensor capture unit to capture data from various device sensors, and may filter the captured sensor data. Responsive to the filtering, the component may wake up the remainder of the SOC to permit the processing. The component may store programmable configuration data, matching the state at the time the SOC was most recently powered down, for the other components of the SOC, in order to reprogram them after wakeup. In some embodiments, the component may be configured to wake up the memory controller within the SOC and the path to the memory controller, in order to write the data to memory. The remainder of the SOC may remain powered down.Type: GrantFiled: March 2, 2017Date of Patent: April 16, 2019Assignee: Apple Inc.Inventors: Brijesh Tripathi, Shane J. Keil, Manu Gulati, Jung Wook Cho, Erik P. Machnicki, Gilbert H. Herbeck, Timothy J. Millet, Joshua P. de Cesare, Anand Dalal
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Patent number: 10262622Abstract: This application relates to systems, methods, and apparatus for transitioning a display device between operating modes using a single dedicated pin of a circuit connected to the display device. The dedicated pin can receive a packet signal corresponding to an operating mode for the display device, and the circuit can thereafter cause the display device to transition into the desired operating mode in response to receiving the packet signal. The operating mode can be a low power on mode where an interface connected to the circuit is deactivated and at least some circuitry of the display device is throttled or powered off. The display device can be driven in an all black state while in the low power on mode, thereby allowing the display device to more quickly transition out of the low power on mode compared to when the display device is completely off.Type: GrantFiled: September 9, 2016Date of Patent: April 16, 2019Assignee: Apple Inc.Inventors: Yafei Bi, Lei He, Mohammad B. Vahid Far, Mir B. Ghaderi, Venu Madhav Duggineni, Vanessa C. Heppolette, Joshua P. De Cesare, Hyuck-Jae Lee
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Publication number: 20190102558Abstract: A method and apparatus for performing a secure boot of a computer system is disclosed. A computer system according to the disclosure includes an auxiliary processor and a main processor. The boot process includes initially booting the auxiliary processor. The auxiliary processor is associated with a non-volatile memory storing boot code for the main processor. The auxiliary processor may perform a verification of the boot code. Subsequent to verifying the boot code, the main processor may be released from a reset state. Once the main processor is no longer in the reset state, the boot code may be provided thereto. Thereafter, the boot procedure may continue with the main processor executing the boot code.Type: ApplicationFiled: November 30, 2018Publication date: April 4, 2019Inventors: Joshua P. de Cesare, Timothy R. Paaske, Xeno S. Kovah, Nikolaj Schlej, Jeffrey R. Wilcox, Ezekiel T. Runyon, Hardik K. Doshi, Kevin H. Alderfer, Corey T. Kallenberg
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Publication number: 20180348843Abstract: This application relates to techniques that adjust the sleep states of a computing device based on user proximity detection procedures. The technique includes detecting a first pattern, using a first subset of sensors of one or more sensors coupled to the computing device, to determine if the object is proximate to the computing device. Provided the first pattern is not indicative of the object being proximate to the computing device, the technique detects a second pattern, using a second subset of sensors of the one or more sensors, to determine if the object is proximate to the computing device. Furthermore, provided either the first pattern or the second pattern is indicative of the object being proximate to the computing device and provided a first portion of a computer system within the computing device is operating within a low-power sleep state, the technique causes the first portion to enter into a high-power sleep state.Type: ApplicationFiled: November 17, 2017Publication date: December 6, 2018Inventors: Joshua P. de CESARE, Jonathan J. ANDREWS, Jeffrey R. WILCOX
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Publication number: 20180349608Abstract: A method and apparatus for performing a secure boot of a computer system is disclosed. A computer system according to the disclosure includes an auxiliary processor and a main processor. The boot process includes initially booting the auxiliary processor. The auxiliary processor includes a non-volatile memory storing boot code for the main processor. The auxiliary processor may perform a verification of the boot code. Subsequent to verifying the boot code, the main processor may be released from a reset state. Once the main processor is no longer in the reset state, the boot code may be provided thereto. Thereafter, the boot procedure may continue with the main processor executing the boot code.Type: ApplicationFiled: September 29, 2017Publication date: December 6, 2018Inventors: Joshua P. de Cesare, Timothy R. Paaske, Xeno S. Kovah, Nikolaj Schlej, Jeffrey R. Wilcox, Ezekiel T. Runyon, Hardik K. Doshi, Kevin H. Alderfer, Corey T. Kallenberg
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Publication number: 20180349609Abstract: A method and apparatus for protecting boot variables is disclosed. A computer system includes a main processor and an auxiliary processor. The auxiliary processor includes a non-volatile memory that stores variables associated with boot code that is also stored thereon. The main processor may send a request to the auxiliary processor to alter one of the variables stored in the non-volatile memory. Responsive to receiving the request, the auxiliary processor may execute a security policy to determine if the main processor meets the criteria for altering the variable. If the auxiliary processor determines that the main processor meets the criteria, it may grant permission to alter the variable.Type: ApplicationFiled: September 29, 2017Publication date: December 6, 2018Inventors: Joshua P. de Cesare, Timothy R. Paaske, Xeno S. Kovah, Nikolaj Schlej, Jeffrey R. Wilcox, Hardik K. Doshi, Kevin H. Alderfer, Corey T. Kallenberg
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Publication number: 20180313673Abstract: In an embodiment, a system on a chip (SOC) includes a component that remains powered when the remainder of the SOC is powered off. The component may include a sensor capture unit to capture data from various device sensors, and may filter the captured sensor data. Responsive to the filtering, the component may wake up the remainder of the SOC to permit the processing. The component may store programmable configuration data, matching the state at the time the SOC was most recently powered down, for the other components of the SOC, in order to reprogram them after wakeup. In some embodiments, the component may be configured to wake up the memory controller within the SOC and the path to the memory controller, in order to write the data to memory. The remainder of the SOC may remain powered down.Type: ApplicationFiled: June 26, 2018Publication date: November 1, 2018Inventors: Brijesh Tripathi, Shane J. Keil, Manu Gulati, Jung Wook Cho, Erik P. Machnicki, Gilbert H. Herbeck, Timothy J. Millet, Joshua P. de Cesare, Anand Dalal
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Patent number: 10031000Abstract: In an embodiment, a system on a chip (SOC) includes a component that remains powered when the remainder of the SOC is powered off. The component may include a sensor capture unit to capture data from various device sensors, and may filter the captured sensor data. Responsive to the filtering, the component may wake up the remainder of the SOC to permit the processing. The component may store programmable configuration data, matching the state at the time the SOC was most recently powered down, for the other components of the SOC, in order to reprogram them after wakeup. In some embodiments, the component may be configured to wake up the memory controller within the SOC and the path to the memory controller, in order to write the data to memory. The remainder of the SOC may remain powered down.Type: GrantFiled: August 13, 2014Date of Patent: July 24, 2018Assignee: Apple Inc.Inventors: Brijesh Tripathi, Shane J. Keil, Manu Gulati, Jung Wook Cho, Erik P. Machnicki, Gilbert H. Herbeck, Timothy J. Millet, Joshua P. de Cesare, Anand Dalal
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Patent number: 9852084Abstract: Systems, apparatuses, and methods for modifying access permissions in a processor. A processor may include one or more permissions registers for managing access permissions. A first permissions register may be utilized to override access permissions embedded in the page table data. A plurality of bits from the page table data may be utilized as an index into the first permissions register for the current privilege level. An attribute field may be retrieved from the first permissions register to determine the access permissions for a given memory request. A second permissions register may also be utilized to set the upper and lower boundary of a region in physical memory where the kernel is allowed to execute. A lock register may prevent any changes from being made to the second permissions register after the second permissions register has been initially programmed.Type: GrantFiled: February 5, 2016Date of Patent: December 26, 2017Assignee: Apple Inc.Inventors: Peter G. Soderquist, Pradeep Kanapathipillai, Bernard J. Semeria, Joshua P. de Cesare, David J. Williamson, Gerard R. Williams, III
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Publication number: 20170364139Abstract: In an embodiment, a system on a chip (SOC) includes a component that remains powered when the remainder of the SOC is powered off. The component may include a sensor capture unit to capture data from various device sensors, and may filter the captured sensor data. Responsive to the filtering, the component may wake up the remainder of the SOC to permit the processing. The component may store programmable configuration data, matching the state at the time the SOC was most recently powered down, for the other components of the SOC, in order to reprogram them after wakeup. In some embodiments, the component may be configured to wake up the memory controller within the SOC and the path to the memory controller, in order to write the data to memory. The remainder of the SOC may remain powered down.Type: ApplicationFiled: August 31, 2017Publication date: December 21, 2017Inventors: Anand Dalal, Joshua P. de Cesare
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Patent number: 9778728Abstract: In an embodiment, a system on a chip (SOC) includes a component that remains powered when the remainder of the SOC is powered off. The component may include a sensor capture unit to capture data from various device sensors, and may filter the captured sensor data. Responsive to the filtering, the component may wake up the remainder of the SOC to permit the processing. The component may store programmable configuration data, matching the state at the time the SOC was most recently powered down, for the other components of the SOC, in order to reprogram them after wakeup. In some embodiments, the component may be configured to wake up the memory controller within the SOC and the path to the memory controller, in order to write the data to memory. The remainder of the SOC may remain powered down.Type: GrantFiled: May 29, 2014Date of Patent: October 3, 2017Assignee: Apple Inc.Inventors: Anand Dalal, Joshua P. de Cesare
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Patent number: 9740645Abstract: A method and system are described for reducing latency in a peripheral component interconnect express (PCIe) link between a host and an endpoint. In the described embodiments, an interrupt is issued from the endpoint to the host using the PCIe link. Then, while the interrupt is pending at the host, the PCIe link is prevented from entering a power-saving mode with an exit latency greater than a predetermined time period.Type: GrantFiled: April 20, 2015Date of Patent: August 22, 2017Assignee: Apple Inc.Inventors: Michael W. Murphy, Joshua P. de Cesare, Timothy R. Paaske
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Publication number: 20170177256Abstract: In an embodiment, a system on a chip (SOC) includes a component that remains powered when the remainder of the SOC is powered off. The component may include a sensor capture unit to capture data from various device sensors, and may filter the captured sensor data. Responsive to the filtering, the component may wake up the remainder of the SOC to permit the processing. The component may store programmable configuration data, matching the state at the time the SOC was most recently powered down, for the other components of the SOC, in order to reprogram them after wakeup. In some embodiments, the component may be configured to wake up the memory controller within the SOC and the path to the memory controller, in order to write the data to memory. The remainder of the SOC may remain powered down.Type: ApplicationFiled: March 2, 2017Publication date: June 22, 2017Inventors: Brijesh Tripathi, Shane J. Keil, Manu Gulati, Jung Wook Cho, Erik P. Machnicki, Gilbert H. Herbeck, Timothy J. Millet, Joshua P. de Cesare, Anand Dalal
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Publication number: 20170169763Abstract: This application relates to systems, methods, and apparatus for transitioning a display device between operating modes using a single dedicated pin of a circuit connected to the display device. The dedicated pin can receive a packet signal corresponding to an operating mode for the display device, and the circuit can thereafter cause the display device to transition into the desired operating mode in response to receiving the packet signal. The operating mode can be a low power on mode where an interface connected to the circuit is deactivated and at least some circuitry of the display device is throttled or powered off. The display device can be driven in an all black state while in the low power on mode, thereby allowing the display device to more quickly transition out of the low power on mode compared to when the display device is completely off.Type: ApplicationFiled: September 9, 2016Publication date: June 15, 2017Inventors: Yafei BI, Lei HE, Mohammad B. VAHID FAR, Mir B. GHADERI, Venu Madhav DUGGINENI, Vanessa C. HEPPOLETTE, Joshua P. DE CESARE, Hyuck-Jae LEE
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Patent number: 9652816Abstract: Systems, apparatuses, and methods for adjusting the frame refresh rate used for driving frames to a display. A display pipeline is configured to drive a display using a reduced frame refresh rate in certain scenarios. The reduced frame refresh rate may be specified in frame packets which contain configuration data for processing corresponding frames. The display pipeline may drive idle frames to the display to generate the reduced frame refresh rate. When a touch event is detected, the display pipeline may override the reduced frame refresh rate and instead utilize a standard frame refresh rate until all of the frames corresponding to stored frame packets have been processed.Type: GrantFiled: September 29, 2014Date of Patent: May 16, 2017Assignee: Apple Inc.Inventors: Peter F. Holland, Brijesh Tripathi, Joshua P. de Cesare, Arthur L. Spence, Christopher P. Tann, Paolo Sacchetto
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Patent number: 9632563Abstract: Data processing systems with interrupts and methods for operating such data processing systems and machine readable media for causing such methods and containing executable program instructions. In one embodiment, an exemplary data processing system includes a processing system, an interrupt controller coupled to the processing system and a timer circuit which is coupled to the interrupt controller. The interrupt controller is configured to provide a first interrupt signal and a second interrupt signal to the processing system. The processing system is configured to maintain a data structure (such as, e.g., a list) of time-related events for a plurality of processes, and the processing system is configured to calise the entry of a value, representing a period of time, into the timer circuit. The timer circuit is configured to cause an assertion of the first interrupt signal in response to an expiration of the time period.Type: GrantFiled: January 21, 2014Date of Patent: April 25, 2017Assignee: Apple Inc.Inventors: Joshua P. de Cesare, Bernard Joseph Semeria, Michael John Smith
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Patent number: 9619377Abstract: In an embodiment, a system on a chip (SOC) includes a component that remains powered when the remainder of the SOC is powered off. The component may include a sensor capture unit to capture data from various device sensors, and may filter the captured sensor data. Responsive to the filtering, the component may wake up the remainder of the SOC to permit the processing. The component may store programmable configuration data, matching the state at the time the SOC was most recently powered down, for the other components of the SOC, in order to reprogram them after wakeup. In some embodiments, the component may be configured to wake up the memory controller within the SOC and the path to the memory controller, in order to write the data to memory. The remainder of the SOC may remain powered down.Type: GrantFiled: August 13, 2014Date of Patent: April 11, 2017Assignee: Apple Inc.Inventors: Brijesh Tripathi, Shane J. Keil, Manu Gulati, Jung Wook Cho, Erik P. Machnicki, Gilbert H. Herbeck, Timothy J. Millet, Joshua P. de Cesare, Anand Dalal
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Publication number: 20170092236Abstract: Systems, apparatuses, and methods for implementing a timestamp based display update mechanism. A display control unit includes a timestamp queue for storing timestamps, wherein each timestamp indicates when a corresponding frame configuration set should be fetched from memory. At pre-defined intervals, the display control unit may compare the timestamp of the topmost entry of the timestamp queue to a global timer value. If the timestamp is earlier than the global timer value, the display control unit may pop the timestamp entry and fetch the frame next configuration set from memory. The display control unit may then apply the updates of the frame configuration set to its pixel processing elements. After applying the updates, the display control unit may fetch and process the source pixel data and then drive the pixels of the next frame to the display.Type: ApplicationFiled: September 29, 2015Publication date: March 30, 2017Inventors: Brijesh Tripathi, Arthur L. Spence, Joshua P. de Cesare, Ilie Garbacea, Guy Cote, Mahesh B. Chappalli, Malcolm D. Gray