Patents by Inventor Sumeer Arya
Sumeer Arya 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).
-
Patent number: 11900124Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. First and second address generator units may generate, based on different fields of the multi-part instruction, addresses from which to retrieve first and second data for use by an execution unit for the multi-part instruction or a subsequent multi-part instruction. The execution units may perform operations using a single pipeline or multiple pipelines based on third and fourth fields of the multi-part instruction.Type: GrantFiled: January 3, 2023Date of Patent: February 13, 2024Assignee: Coherent Logix, IncorporatedInventors: Michael B Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Publication number: 20230153117Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. First and second address generator units may generate, based on different fields of the multi-part instruction, addresses from which to retrieve first and second data for use by an execution unit for the multi-part instruction or a subsequent multi-part instruction. The execution units may perform operations using a single pipeline or multiple pipelines based on third and fourth fields of the multi-part instruction.Type: ApplicationFiled: January 3, 2023Publication date: May 18, 2023Inventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Patent number: 11544072Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. First and second address generator units may generate, based on different fields of the multi-part instruction, addresses from which to retrieve first and second data for use by an execution unit for the multi-part instruction or a subsequent multi-part instruction. The execution units may perform operations using a single pipeline or multiple pipelines based on third and fourth fields of the multi-part instruction.Type: GrantFiled: March 16, 2021Date of Patent: January 3, 2023Assignee: Coherent Logix, Inc.Inventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Publication number: 20210208895Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. First and second address generator units may generate, based on different fields of the multi-part instruction, addresses from which to retrieve first and second data for use by an execution unit for the multi-part instruction or a subsequent multi-part instruction. The execution units may perform operations using a single pipeline or multiple pipelines based on third and fourth fields of the multi-part instruction.Type: ApplicationFiled: March 16, 2021Publication date: July 8, 2021Inventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Patent number: 11016779Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. A first address generator unit may be configured to perform an arithmetic operation dependent upon a first field of the plurality of fields. A second address generator unit may be configured to generate at least one address of a plurality of addresses, wherein each address is dependent upon a respective field of the plurality of fields. A parallel assembly language may be used to control the plurality of address generator units and the plurality of pipelined datapaths.Type: GrantFiled: August 13, 2019Date of Patent: May 25, 2021Assignee: Coherent Logix, IncorporatedInventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Publication number: 20190369990Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. A first address generator unit may be configured to perform an arithmetic operation dependent upon a first field of the plurality of fields. A second address generator unit may be configured to generate at least one address of a plurality of addresses, wherein each address is dependent upon a respective field of the plurality of fields. A parallel assembly language may be used to control the plurality of address generator units and the plurality of pipelined datapaths.Type: ApplicationFiled: August 13, 2019Publication date: December 5, 2019Inventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Publication number: 20160328231Abstract: In some embodiments, an apparatus includes processing circuitry that includes a plurality of different components configured to perform operations to generate execution results for instructions executed by the apparatus. In some embodiments the apparatus includes front-end circuitry configured to retrieve a plurality of instructions for execution and, based on identification of one or more instruction characteristics of the plurality of instructions, selectively disable one or more portions of the processing circuitry for one or more cycles during execution of the plurality of instructions. In some embodiments, this may reduce power consumption by the apparatus.Type: ApplicationFiled: July 15, 2016Publication date: November 10, 2016Inventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Patent number: 9430369Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. A first address generator unit may be configured to perform an arithmetic operation dependent upon a first field of the plurality of fields. A second address generator unit may be configured to generate at least one address of a plurality of addresses, wherein each address is dependent upon a respective field of the plurality of fields. A parallel assembly language may be used to control the plurality of address generator units and the plurality of pipelined datapaths.Type: GrantFiled: May 23, 2014Date of Patent: August 30, 2016Assignee: Coherent Logix, IncorporatedInventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson
-
Publication number: 20140351551Abstract: Various embodiments are disclosed of a multiprocessor system with processing elements optimized for high performance and low power dissipation and an associated method of programming the processing elements. Each processing element may comprise a fetch unit and a plurality of address generator units and a plurality of pipelined datapaths. The fetch unit may be configured to receive a multi-part instruction, wherein the multi-part instruction includes a plurality of fields. A first address generator unit may be configured to perform an arithmetic operation dependent upon a first field of the plurality of fields. A second address generator unit may be configured to generate at least one address of a plurality of addresses, wherein each address is dependent upon a respective field of the plurality of fields. A parallel assembly language may be used to control the plurality of address generator units and the plurality of pipelined datapaths.Type: ApplicationFiled: May 23, 2014Publication date: November 27, 2014Applicant: COHERENT LOGIX, INCORPORATEDInventors: Michael B. Doerr, Carl S. Dobbs, Michael B. Solka, Michael R. Trocino, Kenneth R. Faulkner, Keith M. Bindloss, Sumeer Arya, John Mark Beardslee, David A. Gibson