Abstract: Technologies for environment checkpointing include an orchestration node communicatively coupled to one or more working computing nodes. The orchestration node is configured to administer an environment checkpointing event by transmitting a checkpoint initialization signal to each of the one or more working computing nodes that have been registered with the orchestration node. Each working computing node is configured to pause and buffer any presently executing applications, save checkpointing data (an execution state of each of the one or more applications) and transmit the checkpointing data to the orchestration node. Other embodiments are described and claimed.

Abstract: Various systems and methods for tracking and analyzing emotional engagement of people while shopping are described herein. A system for tracking and analyzing emotional engagement of people while shopping includes an image processing module to: access image data from an electronic data storage, the image data including a person in a retail environment; and detect the person in the image data; an emotion detection module to determine an emotion expressed by the person; an object detection module to determine an object with which the person is interacting; and a marketing module to: select a sales action based on the emotion and the object; and execute the sales action.

Abstract: Various systems and methods for providing contextual information to a user while the user is wearing headphones are described herein. A system for providing contextual information while wearing headphones comprises an event detector module to detect an event external and proximate to a user device, the user device communicatively coupled to headphones worn by a user, the headphones producing sound at a first volume; a notification decision module to determine whether to notify the user of the event; and a notification module to notify the user of the event based on the determination.

Abstract: A mechanism is described for facilitating increased user experience and efficient power performance using intelligent segmentation on flexible display screens according to one embodiment. A method of embodiments, as described herein, includes detecting a plurality of segments on a flexible display screen, and detecting, via one or more capturing/sensing components, at least one of a touch, a lack of touch, a movement, and a gesture relative to the plurality of segments. The method may further include interpreting the touch to determine one or more active segments or one or more inactive segments of the plurality of segments, and turning-off the one or more inactive segments and keep active the one or more active segments of the plurality of segments of the flexible display screen.

Abstract: Technologies for hardware-assisted application checkpointing include a computing device having a processor with hardware checkpoint support. In response to encountering a checkpoint event during execution of an application, the computing device saves the execution state of the application to nonvolatile storage using the hardware checkpoint support. The computing device may also restore the execution state using the hardware checkpoint support. The hardware checkpoint support may save part or all of the virtual memory space of the application in a manner transparent to the executing process. The hardware checkpoint support may be invoked using one or more system hooks such as system calls or processor instructions. The computing device may monitor for checkpoint events using hardware event monitors of the processor, chipset, or other components of the computing device. The computing device may store execution state in a dedicated flash memory cache. Other embodiments are described and claimed.

Abstract: Technologies for controlling mobile communication devices in a low reception area includes predicting a future location of the mobile communication device and determining reception data for the predicted future location. The reception data is indicative of an expected level of reception by the mobile communication device while in the future location. Transmission power of a communication circuit of the mobile communication device may be reduced in response to a determination that the expected level of reception is less than a reference threshold.

Abstract: Technologies for hardware-assisted application checkpointing include a computing device having a processor with hardware checkpoint support. In response to encountering a checkpoint event during execution of an application, the computing device saves the execution state of the application to nonvolatile storage using the hardware checkpoint support. The computing device may also restore the execution state using the hardware checkpoint support. The hardware checkpoint support may save part or all of the virtual memory space of the application in a manner transparent to the executing process. The hardware checkpoint support may be invoked using one or more system hooks such as system calls or processor instructions. The computing device may monitor for checkpoint events using hardware event monitors of the processor, chipset, or other components of the computing device. The computing device may store execution state in a dedicated flash memory cache. Other embodiments are described and claimed.

Abstract: Various systems and methods for interaction with digital signage are described herein. A system for interacting with digital signage, includes an identification module to identify, at an onboard system in a vehicle, a first roadside digital signage, the first roadside digital signage having first content; a communication module to receive a first option to perform a first action related to the first content; and a presentation module to display the first option via the onboard system.

Abstract: Technologies for data center power management include a number of computing nodes in communication over a network. Each computing node establishes a firmware environment that monitors power consumption of the computing node and if the power consumption exceeds an optimal level broadcasts a request to offload tasks to the other nodes. The firmware environment of a receiving computing node traps the request and determines power requirements and/or compute requirements for the tasks based on the request. The firmware environment determines whether to accept the offloaded task based on the requirements and available resources of the computing node. If accepted, the requesting computing node offloads one or more tasks to the receiving nodes. The firmware environment may be established by a manageability engine of the computing node. Power consumption may be monitored on a per-component basis. Compute requirements may include processor requirements or other requirements. Other embodiments are described and claimed.

Abstract: Technologies for hardware-assisted application checkpointing include a computing device having a processor with hardware checkpoint support. In response to encountering a checkpoint event during execution of an application, the computing device saves the execution state of the application to nonvolatile storage using the hardware checkpoint support. The computing device may also restore the execution state using the hardware checkpoint support. The hardware checkpoint support may save part or all of the virtual memory space of the application in a manner transparent to the executing process. The hardware checkpoint support may be invoked using one or more system hooks such as system calls or processor instructions. The computing device may monitor for checkpoint events using hardware event monitors of the processor, chipset, or other components of the computing device. The computing device may store execution state in a dedicated flash memory cache. Other embodiments are described and claimed.

Abstract: Systems and methods may provide for receiving web content and identifying a language of the web content. Additionally, the language may be automatically assigned to a keyboard. In one example, the language of the web content is identified by identifying a meta tag such as a content language meta tag or a content type meta tag in one or more HTML (hypertext markup language) pages of the web content.