An information technology (IT) network includes configuration items (CIs) that may constantly change, where the CIs describe hardware components or software components that are configured to operate on the IT network. A system comprising a server can determine a change associated with a CI, send, to a configuration management database (CMDB), a message that updates the CMDB based on the determined change associated with the CI, determine, for the CI, a monitor configuration that describes one or more variables and corresponding one or more parameters with which the CI is to be monitored, and send the CI with the monitor configuration to a plurality of monitoring software tools operating on a plurality of servers, where each monitoring software tool is configured to monitor the CI based on the monitor configuration.

Technologies for composing a managed node with multiple processors on multiple compute sleds to cooperatively execute a workload include a memory, one or more processors connected to the memory, and an accelerator. The accelerator further includes a coherence logic unit that is configured to receive a node configuration request to execute a workload. The node configuration request identifies the compute sled and a second compute sled to be included in a managed node. The coherence logic unit is further configured to modify a portion of local working data associated with the workload on the compute sled in the memory with the one or more processors of the compute sled, determine coherence data indicative of the modification made by the one or more processors of the compute sled to the local working data in the memory, and send the coherence data to the second compute sled of the managed node.

A central computer system receives a first plurality of event records, each event record identifying one or more events that have occurred in a device of a plurality of different devices. The central computer system identifies, from the first plurality of event records, a first group of event records that identify a same first set of one or more events that occurred on a first subset of the devices. The central computer system determines that a total number of the event records in the first group of event records exceeds a first threshold criterion. In response to determining that the total number of the event records in the first group of event records exceeds the first threshold criterion, the central computer system sends to a destination, information about the first set of one or more events.

A vehicle includes a sensor and a transmitter. The vehicle further includes a non-transitory computer readable medium configured to store instructions thereon. The vehicle further includes a processor connected to the non-transitory computer readable medium. The processor is configured to execute the instructions for receiving or generating a data collection command, wherein the data collection command includes processing instructions for processing data collected from at least one of the sensor, an application log, or a system log, the processing information includes a number of processing operations to be performed, and a type of processing for each of the processing operations. The processor is further configured to execute the instructions for collecting sensor information based on the data collection command. The processor is further configured to execute the instructions for processing the collected data based on the processing instructions; and instructing the transmitter to transmit the processed data.

Techniques for generating change notifications associated with applications based on application logs are disclosed. In one embodiment, a system may include a log analyzer to receive application logs generated by the applications running in a computing environment and analyze the received application logs to parse information about the applications. Further, the system may include a change detection unit communicatively coupled to the log analyzer to generate a change notification indicating that a change has been occurred to an application running on a compute node in the computing environment using the parsed information and send the change notification indicating the changed application to a subscriber.

A serial communication link receiver-transmitter with autonomous transmission error detection is described, and a communication peripherals including the same. Transmit data at a transmitter and transmitted data output by the transmitter and received by the receiver are observed by an error detector configured to generate an error indication in response to difference between the transmit data and corresponding observed transmit data of a transmitted data frame. If a difference is detected a transmit error indicator is asserted.

Methods, systems, and computer-readable media for analysis of code coverage differences across environments are disclosed. A code coverage profiling system determines a first code coverage profile associated with execution of program code in a first environment. The first code coverage profile indicates one or more portions of the program code that were executed in the first environment. The code coverage profiling system determines a second code coverage profile associated with execution of the program code in a second environment. The second code coverage profile indicates one or more portions of the program code that were executed in the second environment. The code coverage profiling system performs a comparison of the first code coverage profile and the second code coverage profile. The comparison determines a difference between the portions of the program code that were executed in the first and second environments.

An apparatus comprises a processing device configured to receive a request to boot a given computing device to a primary environment and, responsive to receiving the request, to obtain first inventory information for components of the given computing device utilizing a preinstallation environment of the given computing device. The processing device is also configured to analyze the first inventory information and second inventory information to determine whether there any changes in the components of the given computing device prior to booting the given computing device to the primary environment, the second inventory information being previously stored in a support environment of the given computing device. The processing device is further configured to generate notifications based at least in part on determining that there are one or more changes in the components of the given computing device, and to provide the notifications at a user interface of the given computing device.

Systems and methods detect and prevent changes in business applications that modify its state to non-secure and/or non-compliant. A system may include a processor set up to perform: defining a compliant state of a computer software configuration, monitoring a state of the computer software configuration, detecting a change in the state of the computer software configuration, wherein the change causes a changed state, and comparing the compliant state and the changed state, wherein if the changed state conflicts with the compliant state, stopping the change.

A method and systems for monitoring changes for a server system are disclosed. Data are obtained from the server system, and the data are processed to determine a first change for the server system. A record of the first determined change is stored. The first determined change is then compared to a second determined change for the server system, and the comparison is used to evaluate the second determined change for the server system. The second determined change may be a current change for the server system, and the first determined change a previously determined change; the step of comparing may compare the stored record of the previously determined change to the current change.