Patents by Inventor Gregory Dardyk
Gregory Dardyk 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: 9536079Abstract: A system that safely executes a native code module on a computing device. During operation, the system receives the native code module, which is comprised of untrusted native program code expressed using native instructions in the instruction set architecture associated with the computing device. The system then loads the native code module into a secure runtime environment, and proceeds to execute a set of instructions from the native code module in the secure runtime environment. The secure runtime environment enforces code integrity, control flow integrity, and data integrity for the native code module. Furthermore, the secure runtime environment moderates which resources can be accessed by the native code module on the computing device and/or how these resources can be accessed. By executing the native code module in the secure runtime environment, the system facilitates achieving native code performance for untrusted program code without a significant risk of unwanted side effects.Type: GrantFiled: February 13, 2015Date of Patent: January 3, 2017Assignee: Google Inc.Inventors: J. Bradley Chen, Matthew T. Harren, Matthew Papakipos, David C. Sehr, Bennet S. Yee, Gregory Dardyk
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Patent number: 9300756Abstract: A method includes gathering a plurality of instances of online activity associated with a user, analyzing the plurality of instances of online activity to determine a characteristic that is likely to correspond to a profile attribute of the user and generating a profile enrichment suggestion for the user based on the determined characteristic.Type: GrantFiled: September 11, 2013Date of Patent: March 29, 2016Assignee: Google Inc.Inventors: Sara Lee Su, Gregory Dardyk, Michael Brandt, Jonathan McPhie, Umesh Shankar, Marlo James McGriff, II, Jose Javier Zuniga, Jr., Mor Miller, Travis Harrison Kroll Green, Tomer Amarilio, Brandon Kyle Trew, Hristo Stefanov Stefanov, Christoph Urs Oehler, Dan Fredinburg, Andrew Swerdlow, Etienne DeGuine, Giora Unger, Max Michiel Loubser, Kyle Garner Harrison, Lars Fabian Kruger, Peter Tomlinson Klein, Si-Wai Yan Lai, Joseph Adam Taylor, Alison Michelle Huml, Tilke Mary Judd, Bao Lam, Geva Rechav, Mark Russell Thomas, Lauren A. Schmidt
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Publication number: 20150161383Abstract: A system that safely executes a native code module on a computing device. During operation, the system receives the native code module, which is comprised of untrusted native program code expressed using native instructions in the instruction set architecture associated with the computing device. The system then loads the native code module into a secure runtime environment, and proceeds to execute a set of instructions from the native code module in the secure runtime environment. The secure runtime environment enforces code integrity, control flow integrity, and data integrity for the native code module. Furthermore, the secure runtime environment moderates which resources can be accessed by the native code module on the computing device and/or how these resources can be accessed. By executing the native code module in the secure runtime environment, the system facilitates achieving native code performance for untrusted program code without a significant risk of unwanted side effects.Type: ApplicationFiled: February 13, 2015Publication date: June 11, 2015Inventors: J. Bradley Chen, Matthew T. Harren, Matthew Papakipos, David C. Sehr, Bennet S. Yee, Gregory Dardyk
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Patent number: 9043870Abstract: An automated system for signing up users invited to join a site based on their existing identity includes an invitation generator, an invite processor, a federated authentication module, a user information retrieval module, an account population and creation module, and a user interface module. The automated sign up module is responsive to an invite request. The automated sign up module sends an authorization request, receives the authorization response, verifies the response and retrieves user data. The automated sign up module uses the retrieved data to populate a sign up form and initialize an account. The automated sign up module sends new account information to a user for confirmation. Once confirmation has been received, the automated sign up module creates the new account and allows the user to access the system. The present disclosure includes a method for signing up users invited to join a site based on their existing identity.Type: GrantFiled: October 11, 2012Date of Patent: May 26, 2015Assignee: Google Inc.Inventors: Tzvi Itzhak Barenholz, Ilan Caron, Gregory Dardyk, Ari Leichtberg, Mor Miller, David Oren, Eric Sachs, Yaniv Shuba
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Patent number: 8959632Abstract: A system that safely executes a native code module on a computing device. During operation, the system receives the native code module, which is comprised of untrusted native program code expressed using native instructions in the instruction set architecture associated with the computing device. The system then loads the native code module into a secure runtime environment, and proceeds to execute a set of instructions from the native code module in the secure runtime environment. The secure runtime environment enforces code integrity, control flow integrity, and data integrity for the native code module. Furthermore, the secure runtime environment moderates which resources can be accessed by the native code module on the computing device and/or how these resources can be accessed. By executing the native code module in the secure runtime environment, the system facilitates achieving native code performance for untrusted program code without a significant risk of unwanted side effects.Type: GrantFiled: March 6, 2013Date of Patent: February 17, 2015Assignee: Google Inc.Inventors: J. Bradley Chen, Matthew T. Harren, Matthew Papakipos, David C. Sehr, Bennet S. Yee, Gregory Dardyk
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Publication number: 20140095614Abstract: A method includes gathering a plurality of instances of online activity associated with a user, analyzing the plurality of instances of online activity to determine a characteristic that is likely to correspond to a profile attribute of the user and generating a profile enrichment suggestion for the user based on the determined characteristic.Type: ApplicationFiled: September 11, 2013Publication date: April 3, 2014Applicant: Google Inc.Inventors: Sara Lee Su, Gregory Dardyk, Michael Brandt, Jonathan Mcphie, Umesh Shankar, Marlo James McGriff, II, Jose Javier Zuniga, JR., Mor Miller, Travis Harrison Kroll Green, Tomer Amarilio, Brandon Kyle Trew, Hristo Stefanov Stefanov, Christoph Urs Oehler, Dan Fredinburg, Andrew Swerdlow, Etienne Deguine, Giora Unger, Max Michiel Loubser, Kyle Garner Harrison, Lars Fabian Kruger, Peter Tomlinson Klein, Si-Wai Yan Lai, Joseph Adam Taylor, Alison Michelle Huml, Tilke Mary Judd, Bao Lam, Geva Rechav, Mark Russell Thomas, Lauren A. Schmidt
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Publication number: 20130185787Abstract: A system that safely executes a native code module on a computing device. During operation, the system receives the native code module, which is comprised of untrusted native program code expressed using native instructions in the instruction set architecture associated with the computing device. The system then loads the native code module into a secure runtime environment, and proceeds to execute a set of instructions from the native code module in the secure runtime environment. The secure runtime environment enforces code integrity, control flow integrity, and data integrity for the native code module. Furthermore, the secure runtime environment moderates which resources can be accessed by the native code module on the computing device and/or how these resources can be accessed. By executing the native code module in the secure runtime environment, the system facilitates achieving native code performance for untrusted program code without a significant risk of unwanted side effects.Type: ApplicationFiled: March 6, 2013Publication date: July 18, 2013Inventors: J. Bradley Chen, Matthew T. Harren, Matthew Papakipos, David C. Sehr, Bennet S. Yee, Gregory Dardyk
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Patent number: 8424082Abstract: A system that safely executes a native code module on a computing device. During operation, the system receives the native code module, which is comprised of untrusted native program code expressed using native instructions in the instruction set architecture associated with the computing device. The system then loads the native code module into a secure runtime environment, and proceeds to execute a set of instructions from the native code module in the secure runtime environment. The secure runtime environment enforces code integrity, control-flow integrity, and data integrity for the native code module. Furthermore, the secure runtime environment moderates which resources can be accessed by the native code module on the computing device and/or how these resources can be accessed. By executing the native code module in the secure runtime environment, the system facilitates achieving native code performance for untrusted program code without a significant risk of unwanted side effects.Type: GrantFiled: May 8, 2008Date of Patent: April 16, 2013Assignee: Google Inc.Inventors: J. Bradley Chen, Matthew T. Harren, Matthew Papakipos, David C. Sehr, Bennet S. Yee, Gregory Dardyk
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Publication number: 20090282474Abstract: A system that safely executes a native code module on a computing device. During operation, the system receives the native code module, which is comprised of untrusted native program code expressed using native instructions in the instruction set architecture associated with the computing device. The system then loads the native code module into a secure runtime environment, and proceeds to execute a set of instructions from the native code module in the secure runtime environment. The secure runtime environment enforces code integrity, control-flow integrity, and data integrity for the native code module. Furthermore, the secure runtime environment moderates which resources can be accessed by the native code module on the computing device and/or how these resources can be accessed. By executing the native code module in the secure runtime environment, the system facilitates achieving native code performance for untrusted program code without a significant risk of unwanted side effects.Type: ApplicationFiled: May 8, 2008Publication date: November 12, 2009Applicant: GOOGLE INC.Inventors: J. Bradley Chen, Matthew T. Harren, Matthew Papakipos, David C. Sehr, Bennet S. Yee, Gregory Dardyk