Systems and methods including one or more processors and one or more non-transitory computer-readable media storing computing instructions that, when executed on the one or more processors, cause the one or more processors to perform functions comprising: receiving in-session user activity comprising types of user interactions during a browsing session displayed by a graphical user interface (GUI) of an electronic device of a user; generating a distribution of interaction counts of interactions with the GUI over a period of time; predicting, using a set of predictive algorithms, one or more intents of the user based on the distribution of interaction counts; and transmitting instructions to display an altered GUI on the electronic device of the user based on the one or more intents of the user, as predicted. Other embodiments are disclosed herein.

A method can include obtaining information on at least one of the following: resource occupation of a reconfigurable functional unit associated with hardware accelerator resources or GPP resources, power consumption of a hardware accelerator associated with hardware accelerator resources, and power consumption of a server associated with GPP resources. The method can also include performing processing on the reconfigurable functional unit based on the obtained information, the processing including at least one of configuration, reconfiguration, and migration. The method and apparatus of certain embodiments may increase efficiency of resource management of the edge cloud, lower system energy consumption, and/or enable more efficient virtualization mechanisms for hardware accelerator resources.

A next generation antivirus (NGAV) security solution in a virtualized computing environment includes a security sensor at a virtual machine that runs on a host and a security engine remote from the host. The integrity of the NGAV security solution is increased, by providing a verification as to whether a verdict issued by the security engine has been successfully enforced by the security sensor to prevent execution of malicious code at the virtual machine.

A first storage system is configured as a proxy for a logical volume stored on a second storage system. Upon receiving a response from a second storage system verifying an availability of a logical volume for an input/output (I/O) request, the I/O request is conveyed to an identified port, a result of the I/O request is received from the identified port, the result is conveyed to a host computer.

In performance testing a data storage system, operating parameters and performance data are recorded as the system executes performance tests over a test period, where the performance data includes measures of a performance characteristic (e.g., latency) across a range of I/O operation rates or I/O data rates for each performance test. Subsets of recorded operating parameters and performance data are selected and applied to a machine learning model to train and use the model, and the model provides a model output indicative for each performance test of a level of validity of the corresponding performance data. Based on the model output indicating at least a predetermined level of validity for a given performance test, the performance data for the performance test are incorporated into a record of validated performance data for the data storage system, usable for benchmarking, regression analysis, hardware qualification, etc.

In some embodiments, a computer-implemented method includes receiving an input signal (e.g., cursor movement) from an input device communicatively paired with the first host computer, detecting when the cursor moves to an edge of the display of the first host computer and when the input signal corresponds to continued movement of the cursor beyond the edge of the display of the first host computer, sending a first control signal to switch the communicative pairing of the input device from the first host computer to a second host computer, and sending a second control signal to the second input device communicatively paired with the first host computer to switch the communicative pairing of the second input device from the first host computer to the second host computer. The first input device may be a computer mouse, and the second input device can be one of a keyboard, speaker, or microphone.

A method, computer program product, and computing system for allocating a portion of a storage system for storing input/output (IO) traces, thus defining an IO trace storage tier. The plurality of IO traces may be stored within the IO trace storage tier. It may be determined whether at least a threshold number of IO traces are stored within the IO trace storage tier. In response to determining that at least the threshold number of IO traces are stored within the IO trace storage tier, at least a portion of the plurality of IO traces may be offloaded to a client computing device.

A method for managing soft errors associated with one or more safety programmable logic controllers (PLCs) is provided. The method includes receiving an expected soft error rate for type(s) of input/output (I/O) modules over time, receiving respective soft error data that was aggregated by the respective safety PLCs based on soft errors detected by I/O modules coupled to the respective safety PLCs. Actual soft error rates are determined per I/O module type based on the received soft error data, and soft error rates are predicted for the safety PLC(s) per I/O module type. The actual and/or predicted soft error rates are compared to the expected soft error rate per I/O module type. The method further includes taking one or more actions in response to a threshold deviation between the actual and/or predicted soft error rates relative to the expected soft error rate for the corresponding I/O module type.

One or more techniques and/or systems are provided for collecting forensics associated with a failure of a storage controller. For example, a storage node, of a cluster environment, may comprise a service processor and a storage controller. The storage controller may manage a storage device accessible, through the storage controller, to one or more client devices. The service processor may manage the storage controller (e.g., collect operational statistics of the storage controller, perform software and/or firmware updates for the storage controller, etc.). The service processor may obtain forensics associated with a failure of the storage controller, and may provide the forensics to a cluster health monitor notwithstanding the storage controller being in an inoperable state (e.g., the service processor may send the forensics through a network interface controller of the storage node, over a non-client storage management network, to the cluster health monitor).

To provide a semiconductor device having a monitoring function with a higher degree of freedom. The semiconductor device includes: a function part that executes a predetermined process triggered according to an activation signal sent from an external device and outputs a completion signal after the predetermined process is completed; a first clocking part that monitors a first abnormality in the predetermined process based on the activation signal and the completion signal; and a branch part pair including a first branch part and a second branch part, wherein the first branch part branches the activation signal and then sends the branched activation signal to the function part and the first clocking part, and the second branch part branches the completion signal and then sends the branched completion signal to the first clocking part and the external device.