Data From Cassini Helps Scientists Understand Saturn’s Atmosphere - Dual Dove
Data From Cassini Helps Scientists Understand Saturn’s Atmosphere Dual Dove
Active COVID-19 cases declining in Waterloo Region, numbers show
Data shows that the number of active confirmed COVID-19 cases in Waterloo Region is on the decline. Here's a look at those numbers.
Coronavirus takes a toll in Sweden's immigrant community
Data from Sweden's Public Health Agency confirmed that Somali Swedes made up almost 5 per cent of the country's COVID-19 cases, yet represented less than 1 per cent of its 10 million people.
Data: More students planning gap year
Data centre reveals it modeled interiors on <i>The Hunt for Red October</i> sets
Australia bit barn outfit NEXTDC adds classic film reference to usual mix of resilience, connectivity and security
Australian serial entrepreneur Bevan Slattery has revealed that he told the architects of a data centre he funded to make it resemble the sets used in classic submarine flick The Hunt for Red October.…
Data to improve roadway safety analysis
Exploring Crowdsourced Monitoring Data for Safety , released by the Virginia Tech Transportation Institute
Nearly 50 Percent of California Coronavirus Deaths in Nursing Homes
Data released from the California Departments of Health and Social Services on Friday show that nursing home deaths represent almost half of the coronavirus fatalities in the state.
Data in Libraries Webinar Recordings Available
Submitted by Nicole Hernandez: University Libraries participated in the RUSA Data in the Libraries webinar series this semester. The webinar recordings are now available online. The following webinar records are now available: Understanding and Working with APIs Data Processing and Visualization Open Data Data Basics and The Reference Interview Information on the webinar series, and […]
Data reveals why our isolation can't just end when we've flattened the curve
Data suggests Australia's strict physical-distancing measures are beginning to work — but the risks are huge if we relax too quickly.
An introduction to data science, Part 1: Data, structure, and the data science pipeline
Data is meaningless if you can't process it to gain insights. The field of data science gives you the tools and methods you need to process data sets effectively and so get the most from the data you collect. In this tutorial, you will Get the basics of machine learning, including data engineering, model learning, and operations.
Data (Amended)
Humans are not rational beings, and when it comes to data this is blindingly evident. On this episode of Two Guys on Your Head, Dr. Art Markman and Dr. Bob Duke talk about data and the brain.
Data Engineer, Enterprise Partnerships (Remote)
This is a direct hire to my team, which is the client-facing arm of Superconductive. We're a really great company - a distributed team of kind, smart, interesting people who treat each other like human beings. Full job description is below - feel free to reach out with questions!
Our mission
Superconductive’s mission is to revolutionize the speed and integrity of data collaboration. We are the team behind Great Expectations, the leading open source tool for defeating pipeline debt through data testing, documentation, and profiling. Data teams all over the world use Great Expectations to boost the confidence, integrity, and speed of their work.
About the role
As a Data Engineer on Superconductive’s Enterprise Partnerships team, you will directly contribute to the success of our partnerships with enterprise clients. You will be responsible for owning the end-to-end process of designing, building, and deploying data pipelines, using Great Expectations for data validation and testing. As part of this, you will be exposed to a wide variety of clients, industries, and types of data infrastructure.
You will be expected to:
Develop a deep understanding of client needs and goals, as well as their existing data infrastructure
Design, build, and deploy different pieces of data pipeline infrastructure, such as tools for ETL, data warehousing, and workflow orchestration
Train our clients in best practices for building, maintaining, and validating their data pipelines
Synthesize learnings from client work and identify high value product improvements to feed back into Great Expectations
As part of Superconductive, you will also have opportunities to evangelize Great Expectations through conference talks, workshops, and blog posts, if you choose to do so.
Why join Superconductive?
Glad you asked!
We offer…
A world class team, with deep roots in open source, cutting-edge software and data development. We are actively cultivating a new cultural blend of excellent data engineering and AI-enabled technical workflows.
A fast-growing company with lots of opportunity for learning and personal growth.
A front-row seat to the rapid evolution of data science and engineering. Data work is going through a renaissance, and—as the leading provider of a key piece in the new technology ecosystem—Superconductive is right in the middle of it.
A kind, curious, and open-minded company culture. We are always seeking ways to improve ourselves and our processes; we keep these conversations open to the whole team. We prioritize empowering our team members rather than a command and control hierarchy.
A distributed team with lots of flexibility around timing and individual work preferences. We currently have teammates in the San Francisco Bay Area, Salt Lake City, New York, Michigan, North Carolina, and other places. We’d love to add your town.
And of course, competitive compensation (base salary + equity package) with available Medical, Dental, Vision & 401K.
Job requirements
Minimum two years of work experience as a data engineer or in a role with responsibilities including:
Design, implementation, and maintenance/management of data pipelines
Implementation and management of SQL databases
Proficiency in SQL and Python
Proficiency in engineering tools and best practices, such as version control and testing
Experience with data analytics and relevant tooling (e.g. Python data stack, R)
An excitement for interacting with clients and digging deep into new (to you) technologies and domains
Strong candidates for this role will most likely come from backgrounds in either data engineering or data science. We are looking for people with substantial experience building data pipelines, or experience developing software with a close affinity to data and analytics.
Great engineering is more than just technical proficiency. Our team is set up to support and build the following cultural skills. We don’t expect black-belt virtuosity. We do expect everyone to bring good ideas and habits, so that they can contribute to a collective culture of best practices.
Have data in your blood - the more curiosity you have about a wide variety of data from all walks of life, the better.
Communicate well—in writing, in person, and on Slack.
Be good at time management (e.g. estimating timelines, prioritizing tasks, avoiding rabbit holes, speaking up when you need help).
Possess keen antennae for the lived experience of technical work. We constantly seek out opportunities for delightful refactors to tools, workflows, and collaboration, gathering ideas from all team members.
Commit to a culture of transparency, cooperation, and mutual support in an entirely distributed team.
Play nice with others. Assholes need not apply.
Nice to haves
Experience in a client-facing role, e.g. sales engineering, implementations, forward deployed engineering
Project management experience
Experience with domain-specific data in multiple industries (e.g. healthcare, ad-tech, e-commerce)
Advanced skills in data analytics, statistics, or machine learning
Devops and data infrastructure skills are a plus (e.g. workflow orchestration tools, containerization)
Experience with software engineering, and possibly contributions to open source projects
Superconductive Health, Inc. is an Equal Opportunity Employer. In compliance with Federal law and the Federal Acquisition Regulation (FAR) 22.1800, the selected candidate will be required to provide documentation that will verify their identity and eligibility to work in the United States.
Privacy by Design: Data Sharing
Data sharing is vital for online businesses. Companies share user data with vendors to help grow their business, boost user engagement, and personalize their products. In addition, companies often have to share data with governments and other regulatory bodies for compliance reasons. In this course, the final installment in the Privacy series, Nishant Bhajaria goes over various techniques you can apply to help bolster data privacy before you share data. Nishant begins by stepping through the various risks associated with data sharing, as well as common misconceptions related to privacy and data sharing. He then shares strategies for protecting data privacy and making more informed data sharing decisions, including how to leverage k-anonymity and l-diversity in your work. Along the way, Nishant shares challenges that allow you to put your new skills to the test.
Note: We recommend taking the previous course in this series, Privacy: How to Classify and Inventory Your Data, prior to beginning this course.
Episode 59: Miunau
Datassette presents a series of mixes intended for listening while programming to aid concentration and increase productivity (also compatible with other activities).
Episode 58: OliSUn
Datassette presents a series of mixes intended for listening while programming to aid concentration and increase productivity (also compatible with other activities).
Episode 57: Hainbach
Datassette presents a series of mixes intended for listening while programming to aid concentration and increase productivity (also compatible with other activities).
Episode 56: Forest Drive West
Datassette presents a series of mixes intended for listening while programming to aid concentration and increase productivity (also compatible with other activities).
Episode 55: 20 Jazz Funk Greats
Datassette presents a series of mixes intended for listening while programming to aid concentration and increase productivity (also compatible with other activities).
DATA SECURITY POCKET AND GARMENT
A data security pocket and garment is disclosed for better positioning and protecting data and information contained in a card or device for housing such information from its theft or misappropriation when it is placed in the pocket portion of the invention. The pocket portion of the invention is specially positioned on and secured to a portion of the garment or clothing surface near or adjacent to the arm-pit area with which it is used in combination, with its own design, to provide a more protective pocket environment for placement and transportation of a card, chip or other data/information carrying or storing device or means. The pocket and the garment in combination make up four layers from which the pocket is constructed, secured and positioned. These layers include the top pocket layer (12); the top security layer (14) and the bottom security layer (16), each fabricated from security anti-RFID material; and the garment, clothing or base layer (18). These layers are connected one to the other so that the pocket portion has a first accessible opening (40) and a second accessible opening (42) when secured in proper position on the garment (18). Further provided is the trim security flap cover (22), also fabricated from security anti-RFID material, and the upper cover enclosure (20), each of which is secured above the pocket portion on the garment layer (18), and which pivot and close over the top pocket layer (12). Coupling is provided for both the upper cover enclosure (20) and the top pocket layer (12); and the trim security flap cover (22) and the top pocket layer (12). In another aspect of the invention an auxiliary security area (39) is provided on the top pocket layer (12) adjacent or near the coupling for the trim security flap (22).
DATA RECOVERY UTILIZING OPTIMIZED CODE TABLE SIGNALING
A computer-implemented method, system, and apparatus for storing binary data is disclosed. A processor receives a digital bit stream and transforms the digital bit stream to an encoded digital bit stream. The encoded digital bit stream comprises a data message encoded by an OCTS-expanded table for storage. The processor stores the encoded digital bit stream on a digital data storage device or system.
DATABASE CACHING IN A DATABASE SYSTEM
A database system provides a non-volatile cache memory layer for caching pages for a set of database from the database system. The non-volatile cache memory layer may include a non-volatile cache for caching pages for a database from the set of database on the database system. The non-volatile cache may be configured through invoking a configuring stored procedure persistent on the database system. A request is received at the non-volatile cache memory layer for performing an operation on a page from the database on the database system. Based on the received request and an identification of the page, a caching operation is performed on the non-volatile cache memory layer. The caching operation is associated with the request. Data associated with the requested operation on the page is stored and organized on the NV cache memory layer.
DATA READOUT DEVICE FOR READING OUT DATA FROM A DATA CARRIER
A data readout device (114) for reading out data from at least one data carrier (112) having data modules (116) located at least two different depths within the at least one data carrier (112) is disclosed. The data readout device (114) comprises: —at least one illumination source (122) for directing at least one light beam (124) onto the data carrier (112); -at least one detector (130) adapted for detecting at least one modified light beam modified by at least one of the data modules (116), the detector (130) having at least one optical sensor (132), wherein the optical sensor (132)has at least one sensor region (134), wherein the optical sensor (132)is designed to generate at least one sensor signal in a manner dependent on an illumination of the sensor region (134)by the modified light beam, wherein the sensor signal, given the same total power of the illumination,is dependent on a beam cross-section of the modified light beam in the sensor region (134); and -at least one evaluation device (136) adapted for evaluating the at least one sensor signal and for deriving data stored in the at least one data carrier (112) from the sensor signal. Further, a data storage system (110), a method for reading out data from at least one data carrier (112) and a use of an optical sensor (132) for reading out data are disclosed.
DATA WRITER COIL HEATER
A data writer may suspend a transducing head from an actuator. The transducing head can consist of a writer coil positioned proximal a write pole. A protruding signal may be passed through the write coil to contact a data storage medium with the transducing head. A write signal can be passed through the write coil to write a data bit on the data storage medium.
Data conversion system and method for converting data that is distributed in a vehicle
A data conversion system for a vehicle includes an interface gateway device that is configured to be communicatively coupled with a data acquisition module and a client module. The data acquisition module obtains a value of a data parameter related to operation of the vehicle and communicates the value to the interface gateway device in a first message provided in a first format. The interface gateway device is configured to convert the first format of the first message into a different, second format to form a second message and to communicate the second message to the client module. The client module uses the second message to perform a function for the vehicle.
DATA TRANSMISSION LINK ESTABLISHMENT APPARATUS AND METHOD, AND COMMUNICATIONS SYSTEM
This application provides a data transmission link establishment apparatus. The apparatus includes: a selection unit, configured to select a target node; a determining unit, configured to determine a backhaul node that needs to establish a data transmission link with the target node selected by the selection unit; a setting unit, configured to set protocol stack roles, in the data transmission link, of the target node and the backhaul node that is determined by the determining unit; and a configuration unit, configured to perform configuration on the target node and the backhaul node according to the protocol stack roles that are set by the setting unit, to establish the data transmission link between the target node and the backhaul node.
DATA COMMUNICATION METHOD, COMMUNICATION SYSTEM AND MOBILE TERMINAL
In a communications system which complies with LTE including a base station which transmits data by using an OFDM (Orthogonal Frequency Division Multiplexing) method as a downlink access method, and a mobile terminal, in a case in which an uplink scheduling request signal is transmitted by using an S-RACH when an Ack/Nack signal is being transmitted by using an Ack/Nack exclusive channel, the transmission of the Ack/Nack signal is stopped while the uplink scheduling request signal is transmitted.
DATA SHIFT BY ELEMENTS OF A VECTOR IN MEMORY
Examples of the present disclosure provide apparatuses and methods for performing shift operations in a memory. An example method comprises performing a shift operation a first element stored in a first group of memory cells coupled to a first access line and a number of sense lines of a memory array and a second element stored in a second group of memory cells coupled to a second access line and the number of sense lines of the memory array. The method can include shifting the first element by a number of bit positions defined by the second element by performing a number of AND operations, OR operations, SHIFT operations, and INVERT operations performed without transferring data via an input/output (I/O) line.
AGGREGATING DATA FOR VISUALIZATION
Data items are aggregated based on information relating to a display capability of a display device, to produce aggregated data. The aggregated data is for display in a visualization presented by the display device. Responsive to user selection in the visualization, dynamically created data at a second hierarchical level different from a first hierarchical level of the aggregated data is for display in the visualization.
DATA RENDERING ON LOCAL AND REMOTE DISPLAYS
Described are an apparatus and method for interactively retrieving data from one or more data sources and rendering the data in a three dimensional (3D) format. The rendering may be displayed on a hand-held device, e.g., a smart phone or tablet computer, or on a remote display device such as another phone, tablet, screen, or a projector. The apparatus and method may operate in response to one or more inputs or orientation sensors, e.g., proximity, gravimeter, gyroscope, photo, and touch sensors.
Data flow programming of computing apparatus with vector estimation-based graph partitioning
In various embodiments, a spectral graph partitioner (“SP”) of a graph partitioning system (“GPS”) may partition a data flow graph associated with a program into a plurality of subgraphs to be used to perform analysis or debugging. The SP may generate estimated eigenvectors for a matrix representing the graph through minimization of a function on the vectors. The SP may generate multiple eigenvectors to perform the clustering in a multi-dimensional space described by the eigenvectors. The SP may refine the clustering by repeating generation of eigenvectors to describe higher-dimensional spaces and perform further clustering. The SP may also determine quality metrics for the clusters and may stop refinement based on the quality metrics. The GPS may select between utilizing the SP or utilizing one or more other partitioners based on various factors such as, for example, graph size or quality metrics. Other embodiments may be described and/or claimed.
Data valuation based on development and deployment velocity
One or more metrics indicative of velocity attributes associated with development and deployment of an application program are obtained. The one or more velocity metrics are stored in an application run-time environment in association with the application program and one or more data sets output by the application program. A valuation is computed for the one or more data sets based on the one or more velocity metrics.
DATA STRUCTURE FOR PHYSICAL LAYER ENCAPSULATION
Provided are a data structure including a header area, and a payload area comprising data, a method of generating the data structure, and extracting information from the data structure. At least one of the header area and the payload area includes at least one sub-area in which one or more signal fields are included. At least one signal field among the signal fields includes information for signalling presence or absence of one or more information fields located at least partly in the data structure, the one or more information fields corresponding to the one or more signal fields.
Data storage system and apparatus
A data storage system, having a data processor operable to convert digital data signals into ink dot patterns, and a data processor operable to receive the ink dot patterns and convert them into digital signals, the system having at least one print media receiving carrier or panel, a printing member operable to deposit ink dot patterns in a print medium on the carrier panel, and a print media reader operable to read the ink dot patterns and create data signals there from, and a method of storing and retrieving data.
Data communication system and method
A communication system for a vehicle consist may include a control module that interfaces with router transceiver units coupled to a cable bus, and can communicate network data between vehicles having a transceiver unit over a cable bus.
System and method for automated locomotive startup and shutdown recommendations
Data representative of a train consist (the train consist comprising a plurality of locomotives and a plurality of cars) and data representative of a route for the train consist can be processed by a processor to automatically determine which locomotives in the train consist should be powered on and which locomotives in the train consist should be shut down for each segment of the route. The processor can make these determinations based on an analysis of the train consist data and the route data with respect to a plurality of considerations that affect train efficiency. Recommendations for locomotive startups and shutdowns in accordance with such automated determinations can then be presented to the train crew for the crew to use during train operations. It is believed that when train crews are in compliance with such recommendations, significant improvements in efficiency, particularly with respect to fuel consumption, can be achieved.
Data communication in a multi-wire irrigation control system
An irrigation control device having a modulator that modulates data onto an alternating power signal by distorting amplitude of a first leading portion of selected cycles of the alternating power signal, and permit effectively a full amplitude of the alternating power signal on a following portion of the selected cycles, wherein the first leading portion and the following portion are either both on a high side of a cycle or both on a low side of a cycle of the alternating power signal. The irrigation control device further includes an interface configured to couple the modulator to a multi-wire interface coupled to a plurality of irrigation devices to permit the alternating power signal to be applied to the multi-wire interface.
Data transmission apparatus having frequency synthesizer with integer division factor, corresponding method, and data transmission system
A data transmission apparatus disposed within two network layers operative at different data rates is provided. The data transmission apparatus is coupled to a clock generator which provides a reference clock for a lower network layer and is coupled to a frequency synthesizer with an integer division factor that generates a divided clock for an upper network layer according to the reference clock and the integer division factor. The data transmission apparatus includes a first processing circuit and a second processing circuit. The first processing circuit corresponding to the upper network layer receives and transmits data by using the divided clock as its operation frequency. The second processing circuit corresponding to the lower network layer receives and transmits data from the first processing circuit by using the reference clock as an operation frequency for encoding data. The divided clock is generated from the frequency synthesizer with the integer division factor.
Data recovery circuit and operation method thereof
In a data recovery circuit, a sampling circuit is configured to sample data using a plurality of sampling clock signals having different phases relative to one another and to output a plurality of sampled data. A recovery data generation circuit is configured to perform a logic operation on the plurality of sampled data and to generate a plurality of intermediate recovery data according to a result of the logic operation. A recovery circuit is configured to check the plurality of intermediate recovery data for existence of an error and to output intermediate recovery data that is error-free, among the plurality of intermediate recovery data, as recovery data.
Data carrier card and method for manufacturing a data carrier card
A card body for a portable data carrier, in particular a chip card or magnetic strip card, and a method for manufacturing a card body. The card body includes at least a coextruded foil having at least two areas with different material properties. By using coextruded foils a card body consisting of a plurality of alternating opaque and transmissive strips as well as a card body with a window can be formed in a simple fashion.
Data processing apparatus, data processing system, method for controlling data processing apparatus, method for adding data converting function, program and medium
A data processing apparatus is monitoring the first port of itself and the second port of itself. If the data processing apparatus receives data via the second port, it conducts a specific process to the data regardless of a data format of the data so as to convert the data into the data format that can be processed regardless of a data format of the data and sends converted data to the first port.
Data creation device and playback device for video picture in video stream
A data creation device performing compression encoding on first frame images showing a view from a first viewpoint and second frame images showing a view from a second viewpoint generates a stream in an MPEG-2 format, and base-view/dependent-view video streams in a format conforming to an MPEG-4 MVC format. The stream in the MPEG-2 format is generated by performing compression encoding on the first frame images. The base-view video stream is a stream of dummy data having the same number of frames as and a smaller data amount than the stream in the MPEG-2 format. The dependent-view video stream is obtained by performing compression encoding on each frame of the second frame images, with reference to a frame of the stream in the MPEG-2 format to be presented at the same time as a frame of the base-view video stream corresponding to the frame of the second frame images.
System and method for remote reset of password and encryption key
Data is secured on a device in communication with a remote location using a password and content protection key. The device stores data encrypted using a content protection key, which itself may be stored in encrypted form using the password and a key encryption key. The remote location receives a public key from the device. The remote location uses the public key and a stored private key to generate a further public key. The further public key is sent to the device. The device uses the further public key to generate a key encryption key, which is then used to decrypt the encrypted content protection key. A new content encryption key may then be created.
Data distributing and accessing method and system
A data distributing and accessing method for sharing a file via a network system includes steps of: dividing the file into a plurality of blocks; distributing the blocks in a plurality of data hosts interconnected via the network system; one of the data hosts receiving a file-reading request from a user host and issuing collecting requests to other data hosts to collect the blocks from the data hosts; and transferring the collected blocks from the data hosts to the user host to be combined into the file.
Data processing device, microcontroller, and self-diagnosis method of data processing device
A data processing device includes a memory, an arithmetic circuit that accesses the memory by outputting an access control signal CTRL that controls access to the memory, a first data storage unit that stores first data used when a self-diagnosis is performed, a read-modify-write circuit that generates second data by replacing a part of the first data stored in the first data storage unit with modify data outputted from the arithmetic circuit, and a determination unit that diagnoses a failure of the read-modify-write circuit by comparing the second data with an expected value.
Data storage device adjusting laser input power to compensate for temperature variations
A data storage device is disclosed comprising a head actuated over a disk, wherein the head comprises a laser configured to heat the disk while writing data to the disk. A temperature is measured, and a first input power is generated based on a first function of the measured temperature, wherein the first function compensates for a temperature dependent output power of the laser. A second input power is generated based on a second function of the measured temperature, wherein the second function compensates for a temperature dependent coercivity of the disk. The first input power is combined with the second input power to generate a write power applied to the laser while writing data to the disk.
Data transmitting apparatus, data receiving apparatus, data transreceiving system, data transmitting method, data receiving method and data transreceiving method
A data transmitting apparatus is provided. The data transmitting apparatus includes a packet generator configured to generate a packet including a plurality of sub packets and a transmitter configured to transmit the generated packet to a data receiving apparatus. Each of the plurality of sub packets includes audio data corresponding to content among a plurality of contents.
Data transform method and data transformer
A data transform method and a data transformer. The method includes: importing a data transform rule; acquiring from the data transform rule a source data definition, a destination data definition and a data transform rule definition; predicting resource energy consumption parameters of a data transform node server according to the source data definition, the destination data definition and the data transform rule definition; and deploying a resource energy consumption optimization policy of the data transform node server according to the predicted resource energy consumption parameters of the data transform node server.
Data caching method
Data caching for use in a computer system including a lower cache memory and a higher cache memory. The higher cache memory receives a fetch request. It is then determined by the higher cache memory the state of the entry to be replaced next. If the state of the entry to be replaced next indicates that the entry is exclusively owned or modified, the state of the entry to be replaced next is changed such that a following cache access is processed at a higher speed compared to an access processed if the state would stay unchanged.
Data bus efficiency via cache line usurpation
Embodiments of the current invention permit a user to allocate cache memory to main memory more efficiently. The processor or a user allocates the cache memory and associates the cache memory to the main memory location, but suppresses or bypassing reading the main memory data into the cache memory. Some embodiments of the present invention permit the user to specify how many cache lines are allocated at a given time. Further, embodiments of the present invention may initialize the cache memory to a specified pattern. The cache memory may be zeroed or set to some desired pattern, such as all ones. Alternatively, a user may determine the initialization pattern through the processor.