- Mountain View CA, US Matthew Neeley - Goleta CA, US
International Classification:
G06F 16/23 G06N 10/00 G06F 9/38
Abstract:
Methods and apparatus for generating waveforms for application in a quantum computing device. In one aspect, a system comprises a batch generator that receives experiment data sets defining respective experiments, each experiment data set comprising a set of waveforms defined by respective waveform data; determines unique waveforms; generates a corresponding set of respective waveform data that includes the respective waveform data for each unique waveform; generates, for each of the experiments, a waveform list that references the respective waveform data in the set of respective waveform data that corresponds to the waveforms in the set; and batch instructions that are executable by waveform generator hardware and that cause the waveform generator hardware to process each waveform list by selecting each referenced waveform data in the waveform list; and generate, in response to the selected waveform data, a waveform that is suitable for application in a quantum computing device.
Efficient Communication For Devices Of A Home Network
- Mountain View CA, US Jay D. Logue - San Jose CA, US Christopher A. Boross - San Francisco CA, US Zachary B. Smith - San Francisco CA, US Osborne B. Hardison - Palo Alto CA, US Richard J. Schultz - Mountain View CA, US Sunny P. Gujjaru - Sunnyvale CA, US Matthew G. Neeley - San Mateo CA, US
Systems and methods are provided for efficient communication through a fabric network of devices in a home environment or similar environment. For example, an electronic device may efficiently control communication to balance power and reliability concerns, may efficiently communicate messages to certain preferred networks by analyzing Internet Protocol version 6 (IPv6) packet headers that use an Extended Unique Local Address (EULA), may efficiently communicate software updates and status reports throughout a fabric network, and/or may easily and efficiently join a fabric network.
Method and systems for controlling data remotely that includes connecting to a remote device within a fabric of smart devices. The remote device stores data locally. Controlling the data includes remotely controlling the data stored in the remote device from another device connected to the fabric by transmitting a message to the remote device. Moreover, the transmitted message includes a profile identifier that causes a data management entity of the remote device to perform an indicated data management action. Furthermore, the profile identifier identifies a data management profile, and the message includes a command tag that indicates the data management action to be performed.
- Mountain View CA, US Grant M. Erickson - Sunnyvale CA, US Zachary B. Smith - San Francisco CA, US Osborne B. Hardison - Palo Alto CA, US Richard J. Schultz - Mountain View CA, US Sunny P. Gujjaru - Sunnyvale CA, US Matthew G. Neeley - San Mateo CA, US
Systems and methods relating to communication within a fabric network are presented. The fabric network includes one or more logical networks that enables devices connected to the fabric to communicate with each other using various profiles known to the devices. A device sending a message may follow a general message format to encode the message so that other devices in the fabric may understand the message regardless of which logical networks the devices are connected to. Within the message format, a payload of data may be included for the receiving device to forward, store, or process the message. The format and the contents of the payload may vary according to a header within the payload that indicates a profile and a message type within the profile. Using the profile and message type, the receiving devices may decode the message to process the message.
Efficient Communication For Devices Of A Home Network
- Mountain View CA, US Jay D. Logue - San Jose CA, US Christopher A. Boross - San Francisco CA, US Zachary B. Smith - San Francisco CA, US Osborne B. Hardison - Palo Alto CA, US Richard J. Schultz - Mountain View CA, US Sunny P. Gujjaru - Sunnyvale CA, US Matthew G. Neeley - San Mateo CA, US
Systems and methods are provided for efficient communication through a fabric network of devices in a home environment or similar environment. For example, an electronic device may efficiently control communication to balance power and reliability concerns, may efficiently communicate messages to certain preferred networks by analyzing Internet Protocol version 6 (IPv6) packet headers that use an Extended Unique Local Address (EULA), may efficiently communicate software updates and status reports throughout a fabric network, and/or may easily and efficiently join a fabric network.
- Mountain View CA, US Grant M. Erickson - Sunnyvale CA, US Jay D. Logue - San Jose CA, US Matthew G. Neeley - San Mateo CA, US
International Classification:
H04L 29/08 H04L 29/06 H04L 12/28
Abstract:
Method and systems for controlling data remotely that includes connecting to a remote device within a fabric of smart devices. The remote device stores data locally. Controlling the data includes remotely controlling the data stored in the remote device from another device connected to the fabric by transmitting a message to the remote device. Moreover, the transmitted message includes a profile identifier that causes a data management entity of the remote device to perform an indicated data management action. Furthermore, the profile identifier identifies a data management profile, and the message includes a command tag that indicates the data management action to be performed.
Efficient Communication For Devices Of A Home Network
- Mountain View CA, US Jay D. Logue - San Jose CA, US Christopher Anthony Boross - San Francisco CA, US Zachary B. Smith - San Francisco CA, US Osborne B. Hardison - Palo Alto CA, US Richard J. Schultz - Mountain View CA, US Sunny P. Gujjaru - Sunnyvale CA, US Matthew G. Neeley - San Mateo CA, US
Assignee:
Google Inc. - Mountain View CA
International Classification:
H04W 60/00 H04L 29/12 H04L 29/06 H04W 52/38
Abstract:
Systems and methods are provided for efficient communication through a fabric network of devices in a home environment or similar environment. For example, an electronic device may efficiently control communication to balance power and reliability concerns, may efficiently communicate messages to certain preferred networks by analyzing Internet Protocol version 6 (IPv6) packet headers that use an Extended Unique Local Address (EULA), may efficiently communicate software updates and status reports throughout a fabric network, and/or may easily and efficiently join a fabric network.
- Mountain View CA, US Grant M. Erickson - Sunnyvale CA, US Zachary B. Smith - San Francisco CA, US Osborne B. Hardison - Palo Alto CA, US Richard J. Schultz - Mountain View CA, US Sunny P. Gujjaru - Sunnyvale CA, US Matthew G. Neeley - San Mateo CA, US
International Classification:
H04L 12/751 H04L 12/24
Abstract:
Systems and methods relating to communication within a fabric network are presented. The fabric network includes one or more logical networks that enables devices connected to the fabric to communicate with each other using various profiles known to the devices. A device sending a message may follow a general message format to encode the message so that other devices in the fabric may understand the message regardless of which logical networks the devices are connected to. Within the message format, a payload of data may be included for the receiving device to forward, store, or process the message. The format and the contents of the payload may vary according to a header within the payload that indicates a profile and a message type within the profile. Using the profile and message type, the receiving devices may decode the message to process the message.
Nest Oct 2012 - Jan 2015
Software Engineer
Google Oct 2012 - Jan 2015
Software Engineer
Netwallet Apr 2012 - Oct 2012
Software Engineer
Mit Lincoln Laboratory Oct 2010 - Mar 2012
Research Scientist
Uc Santa Barbara 2004 - Oct 2010
Graduate Student
Education:
Uc Santa Barbara 2004 - 2010
Master of Science, Doctorates, Masters, Doctor of Philosophy, Physics
Stanford University 1998 - 2004
Bachelors, Bachelor of Science, Physics
Idaho Falls High School
Skills:
Cfd Electromagnetics Information Theory Physics Matlab Fpga Information Extraction