Patents by Inventor Tzach Zemer
Tzach Zemer 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: 20240085968Abstract: A system for a given device may include a plurality of systems on a chip (SOCs). Each SOC may include an interface circuit and a bridge circuit for communicating with other SOCs. The interface circuit of an SOC may include a plurality of communication devices to transfer data packets from/to the SOC to the other SOCs. The bridge circuit may provide various control functions for the interface circuit. An indication may be generated when the system enters an idle mode. In response, the bridge circuit may generate signal(s) to cause some of the communication devices of the interface circuit into a low power state. The interface circuit may obtain the signal(s) and accordingly transition some of the communication devices to the low power state.Type: ApplicationFiled: February 28, 2023Publication date: March 14, 2024Applicant: Apple Inc.Inventors: Tzach Zemer, Lior Zimet, Sagi Lahav
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Publication number: 20230350828Abstract: In an embodiment, a system on a chip (SOC) comprises a semiconductor die on which circuitry is formed, wherein the circuitry comprises a plurality of agents and a plurality of network switches coupled to the plurality of agents. The plurality of network switches are interconnected to form a plurality of physical and logically independent networks. A first network of the plurality of physically and logically independent networks is constructed according to a first topology and a second network of the plurality of physically and logically independent networks is constructed according to a second topology that is different from the first topology. For example, the first topology may a ring topology and the second topology may be a mesh topology. In an embodiment, coherency may be enforced on the first network and the second network may be a relaxed order network.Type: ApplicationFiled: April 28, 2023Publication date: November 2, 2023Inventors: Sergio Kolor, Sergio V. Tota, Tzach Zemer, Sagi Lahav, Jonathan M. Redshaw, Per H. Hammarlund, Eran Tamari, James Vash, Gaurav Garg, Lior Zimet, Harshavardhan Kaushikkar, Steven Fishwick, Steven R. Hutsell, Shawn M. Fukami
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Publication number: 20230239252Abstract: In an embodiment, a system includes a plurality of integrated circuits have subsets of a plurality of agents. The plurality of integrated circuits may have network segments implemented wholly (e.g., entirely) within the respective integrated circuits and may have segment to segment (S2S) network interface circuits to couple to other network segments of a plurality of network segment forming a network among the plurality of agents.Type: ApplicationFiled: July 19, 2022Publication date: July 27, 2023Inventors: Sergio Kolor, Lior Zimet, Opher D. KAHN, Eran Tamari, Tzach Zemer, Per H. Hammarlund
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Publication number: 20230214350Abstract: A system includes a plurality of systems-on-a-chip (SoCs), connected by a network. The plurality of SoCs and the network are configured to operate as a single logical computing system. The plurality of SoCs may be configured to exchange local power information indicative of network activity occurring on their respective portions of the network. A given one of the plurality of SoCs may be configured to determine that a local condition for placing the respective portion of the network corresponding to the given SoC into a reduced power mode has been satisfied. The given SoC may be further configured to place the respective portion of the network into the reduced power mode in response to determining that a global condition for the reduced power mode is satisfied. The global condition may be assessed based upon current local power information for remaining ones of the plurality of SoCs.Type: ApplicationFiled: February 27, 2023Publication date: July 6, 2023Inventors: Dany Davidov, Misbah Ramadan, Itamar Rozen, Tzach Zemer
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Patent number: 11675722Abstract: In an embodiment, a system on a chip (SOC) comprises a semiconductor die on which circuitry is formed, wherein the circuitry comprises a plurality of agents and a plurality of network switches coupled to the plurality of agents. The plurality of network switches are interconnected to form a plurality of physical and logically independent networks. A first network of the plurality of physically and logically independent networks is constructed according to a first topology and a second network of the plurality of physically and logically independent networks is constructed according to a second topology that is different from the first topology. For example, the first topology may a ring topology and the second topology may be a mesh topology. In an embodiment, coherency may be enforced on the first network and the second network may be a relaxed order network.Type: GrantFiled: June 3, 2021Date of Patent: June 13, 2023Assignee: Apple Inc.Inventors: Sergio Kolor, Sergio V. Tota, Tzach Zemer, Sagi Lahav, Jonathan M. Redshaw, Per H. Hammarlund, Eran Tamari, James Vash, Gaurav Garg, Lior Zimet, Harshavardhan Kaushikkar, Steven Fishwick, Steven R. Hutsell, Shawn M. Fukami
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Patent number: 11592889Abstract: A system includes a plurality of systems-on-a-chip (SoCs), connected by a network. The plurality of SoCs and the network are configured to operate as a single logical computing system. The plurality of SoCs may be configured to exchange local power information indicative of network activity occurring on their respective portions of the network. A given one of the plurality of SoCs may be configured to determine that a local condition for placing the respective portion of the network corresponding to the given SoC into a reduced power mode has been satisfied. The given SoC may be further configured to place the respective portion of the network into the reduced power mode in response to determining that a global condition for the reduced power mode is satisfied. The global condition may be assessed based upon current local power information for remaining ones of the plurality of SoCs.Type: GrantFiled: May 12, 2021Date of Patent: February 28, 2023Assignee: Apple Inc.Inventors: Dany Davidov, Misbah Ramadan, Itamar Rozen, Tzach Zemer
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Publication number: 20220365579Abstract: A system includes a plurality of systems-on-a-chip (SoCs), connected by a network. The plurality of SoCs and the network are configured to operate as a single logical computing system. The plurality of SoCs may be configured to exchange local power information indicative of network activity occurring on their respective portions of the network. A given one of the plurality of SoCs may be configured to determine that a local condition for placing the respective portion of the network corresponding to the given SoC into a reduced power mode has been satisfied. The given SoC may be further configured to place the respective portion of the network into the reduced power mode in response to determining that a global condition for the reduced power mode is satisfied. The global condition may be assessed based upon current local power information for remaining ones of the plurality of SoCs.Type: ApplicationFiled: May 12, 2021Publication date: November 17, 2022Inventors: Dany Davidov, Misbah Ramadan, Itamar Rozen, Tzach Zemer
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Publication number: 20220334997Abstract: In an embodiment, a system on a chip (SOC) comprises a semiconductor die on which circuitry is formed, wherein the circuitry comprises a plurality of agents and a plurality of network switches coupled to the plurality of agents. The plurality of network switches are interconnected to form a plurality of physical and logically independent networks. A first network of the plurality of physically and logically independent networks is constructed according to a first topology and a second network of the plurality of physically and logically independent networks is constructed according to a second topology that is different from the first topology. For example, the first topology may a ring topology and the second topology may be a mesh topology. In an embodiment, coherency may be enforced on the first network and the second network may be a relaxed order network.Type: ApplicationFiled: June 3, 2021Publication date: October 20, 2022Inventors: Sergio Kolor, Sergio V. Tota, Tzach Zemer, Sagi Lahav, Jonathan M. Redshaw, Per H. Hammarlund, Eran Tamari, James Vash, Gaurav Garg
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Patent number: 10048893Abstract: An electronic circuit includes transmit-side circuitry and receive-side circuitry. The transmit-side circuitry belongs to a first domain of the circuit and is configured to transmit a data signal from the first domain to a second domain of the circuit. The receive-side circuitry belongs to the second domain and is configured to receive the transmitted data signal. The receive-side circuitry is configured to transfer to the transmit-side circuitry a read pointer value indicative of a readout position in a buffer memory that buffers the data signal, and to retain the read pointer value in a non-volatile element that is accessible to the transmit-side circuitry.Type: GrantFiled: May 7, 2015Date of Patent: August 14, 2018Assignee: APPLE INC.Inventors: Mark Goikhman, Tzach Zemer
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Patent number: 10038425Abstract: Systems, apparatuses, and methods for implementing a low power filter. A low power filter may generate a reference sum from a reference vector in order to reduce the number of additions which are needed to filter an input sample vector. The reference sum may be used as the starting point for filtering the input sample vector. Then, each input sample of the input sample vector may be compared to a corresponding reference vector sample. If an input sample is different from the corresponding reference vector sample, a correction value based on the corresponding filter coefficient value may be added or subtracted from the reference sum. After all input samples have been compared to corresponding reference vector values and all correction values applied to the reference sum, the modified reference sum may be the output of the filter.Type: GrantFiled: December 28, 2015Date of Patent: July 31, 2018Assignee: Apple Inc.Inventors: Tzach Zemer, Louie Matar, Emmanuel Elder
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Patent number: 9641158Abstract: Systems, apparatuses, and methods for implementing a low power decimator. A decimator may receive a plurality of input samples from a digital microphone. The decimator may include one or more coefficient tables for storing values combining two or more filter coefficients for filtering the received samples. The decimator may utilize a concatenation of multiple samples to perform a lookup of a corresponding coefficient table. The coefficient tables may store only the necessary non-redundant values for all coefficient combinations which can be applied to the multiple samples. The result of the lookup of the coefficient table may have its sign inverted or be zeroed based on the values of the multiple samples.Type: GrantFiled: August 20, 2015Date of Patent: May 2, 2017Assignee: Apple Inc.Inventors: Tzach Zemer, Joseph J. Cheng
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Publication number: 20170054433Abstract: Systems, apparatuses, and methods for implementing a low power decimator. A decimator may receive a plurality of input samples from a digital microphone. The decimator may include one or more coefficient tables for storing values combining two or more filter coefficients for filtering the received samples. The decimator may utilize a concatenation of multiple samples to perform a lookup of a corresponding coefficient table. The coefficient tables may store only the necessary non-redundant values for all coefficient combinations which can be applied to the multiple samples. The result of the lookup of the coefficient table may have its sign inverted or be zeroed based on the values of the multiple samples.Type: ApplicationFiled: August 20, 2015Publication date: February 23, 2017Inventors: Tzach Zemer, Joseph J. Cheng
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Publication number: 20160328182Abstract: An electronic circuit includes transmit-side circuitry and receive-side circuitry. The transmit-side circuitry belongs to a first domain of the circuit and is configured to transmit a data signal from the first domain to a second domain of the circuit. The receive-side circuitry belongs to the second domain and is configured to receive the transmitted data signal. The receive-side circuitry is configured to transfer to the transmit-side circuitry a read pointer value indicative of a readout position in a buffer memory that buffers the data signal, and to retain the read pointer value in a non-volatile element that is accessible to the transmit-side circuitry.Type: ApplicationFiled: May 7, 2015Publication date: November 10, 2016Inventors: Mark Goikhman, Tzach Zemer