RESOURCE USER INTERFACE

Abstract
This document describes techniques for presenting a resource user interface. These techniques present, in a summary section of a user interface, multiple selectable resource tiles that each include real-time and/or static information corresponding to one of multiple resources of a computing device. Each of the multiple selectable resource tiles are presented simultaneously, which enables a user to compare live, real-time resource usage for different resources of the computing device. Further, these techniques present, in a detailed view section of the user interface, additional real-time resource information and/or a real-time resource graph corresponding to a selected one of the multiple resources.
Description
BACKGROUND

Conventional computer diagnostic tools display information corresponding to system resources, such as a processor and a memory, one system resource at a time. For example, a typical task-manager application may display information about processor performance separately from information about memory usage. Thus, conventional computer diagnostic tools make it difficult for users to compare overall system resource usage to determine the cause of a performance problem.


SUMMARY

This document describes techniques for presenting a resource user interface. These techniques present, in a summary section of a user interface, multiple selectable resource tiles that each include real-time and/or static information corresponding to one of multiple resources of a computing device. Each of the multiple selectable resource tiles are presented simultaneously, which enables a user to compare live, real-time resource usage for different resources of the computing device. Further, these techniques present, in a detailed view section of the user interface, additional real-time resource information and/or a real-time resource graph corresponding to a selected one of the multiple resources.


This summary is provided to introduce simplified concepts for a resource user interface that are further described below in the Detailed Description and/or shown in the Figures. This summary is not intended to identify essential features of the claimed subject matter, nor is it intended for use in determining the scope of the claimed subject matter. The term “techniques” as used herein can include devices, systems, apparatuses, operations, and/or methods as permitted by the context in which the term is used.





BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments for a resource user interface are described with reference to the following drawings. The same numbers are used throughout the drawings to reference like features and components:



FIG. 1 illustrates an example system in which techniques for presenting a resource user interface can be implemented.



FIG. 2 illustrates an example method for presenting a resource user interface.



FIG. 3 illustrates an example resource user interface having a summary section and a detailed view section.



FIG. 4 illustrates a larger view of a real-time resource graph illustrated in the interface of FIG. 3.



FIG. 5 illustrates an example device in which techniques for presenting a resource user interface can be implemented.





DETAILED DESCRIPTION

Overview


This document describes techniques for presenting a resource user interface. These techniques present, in a summary section of a user interface, multiple selectable resource tiles that each include real-time and/or static information corresponding to one of multiple resources of a computing device. Each of the multiple selectable resource tiles are presented simultaneously, which enables a user to compare live, real-time resource usage for different resources of the computing device. Further, these techniques present, in a detailed view section of the user interface, additional real-time resource information and/or a real-time resource graph corresponding to a selected one of the multiple resources.


The resource user interface may be presented in a performance tab of a task manager user interface or as a stand-alone user interface. A user can access the resource user interface to diagnose a performance problem of the user's computing device. As an example, the user may notice that the computing device is operating slowly, which may be caused by applications using too much of the central processing unit (CPU) or using too much of the memory of the computing device. The resource user interface enables the user to compare real-time usage of both the CPU and the memory at the same time to quickly and easily determine whether the CPU or the memory is causing the computing device to operate slowly.


While techniques for presenting a resource user interface can be implemented in any number of different devices, systems, environments, and/or configurations, example embodiments for presenting a resource user interface are described in the context of the following example devices, systems, and methods.


Example System



FIG. 1 illustrates an example system 100 in which techniques for a resource user interface can be embodied. System 100 includes a computing device 102, which is illustrated with six examples: a laptop computer 104, a tablet computer 106, a smart phone 108, a set-top box 110, a desktop computer 112, and a gaming device 114, though other computing devices and systems, such as servers and netbooks, may also be used.


Computing device 102 includes computer processor(s) 116 and computer-readable storage media 118 (media 118). Media 118 includes an operating system 120, resources 122, applications 124, and a resource manager 126. As described herein, resources 122 include any type of computer system resource, such as processors 116 (which includes a central processing unit (CPU)), media 118 (which includes a memory or any type of storage disk or spinning media), networks (such as a Wi-Fi connection), and/or a graphical processing unit (GPU). Applications 124 include applications, or processes, that use or utilize resources 122. For example, a word processing application uses processing resources and memory resources.


Resource manager 126 receives information corresponding to resources 122 and enables access to this information. As described in more detail below, this information may include both static information and real-time information. Static information includes information corresponding to the hardware capabilities or specifications of resource 122. For example, static information for a CPU may include the processor speed and manufacturer of the CPU. Real-time, or dynamic, information includes information corresponding to real-time usage of resource 122. For example, real-time information for a CPU may include a current core speed of the CPU or a portion of the CPU that is currently being utilized. As another example, real-time information for a memory may include the portion of the memory that is currently being used.


Resource manager 126 includes or has access to resource user interface 128, which presents the real-time and static information corresponding to resources 122, and enables interaction with this information. Computing device 102 also includes or has access to one or more displays 130, four examples of which are illustrated in FIG. 1. Operating system 120 and resource manager 126 can be separate from each other or combined or integrated in some form. Thus, in some cases operating system 120 includes resource manager 126.


Example Methods


This document now describes example methods of presenting a resource user interface. These methods are shown as sets of blocks that specify operations performed, but are not necessarily limited to the order shown. Portions of the following discussion reference system 100 of FIG. 1, reference to which is made for example only.



FIG. 2 depicts a method 200 for presenting a resource user interface. Block 202 presents selectable resource tiles within a summary section of a user interface. The selectable resource tiles include real-time and/or static information corresponding to resources of computing device 102. Each of the selectable resource tiles are presented simultaneously, which enables a user to compare live, real-time resource usage for a plurality of different resources of computing device 102.


By way of example, consider FIG. 3, which illustrates a detailed example of resource user interface 128 (FIG. 1). In this detailed example, resource manager 126 presents a resource user interface 128 that includes a summary section 302 having four selectable resource tiles 304, 306, 308, and 310. Each of these resource tiles includes real-time information corresponding to the resource 122 represented by the tile. In some embodiments, these resource tiles may also include static information corresponding to the resource 122 represented by the tile. Resource tiles 304, 306, 308, and 310 are just one example of resource tiles, other example of resource tiles includes the name of a represented resource, or any other type of symbol or shape that represents a resource and includes information corresponding to the represented resource.


In this example, resource tile 304 is directed to a CPU resource of computing device 102. Tile 304 presents real-time, or live, information corresponding to usage of the CPU, which in this example includes information indicating that the core speed of the CPU is 2.93 GHz and that 99% of the CPU is being utilized by one or more applications 124. Additionally, tile 304 includes a real-time resource graph that indicates a portion or a percentage of the CPU being utilized over various time periods. The real-time resource graph in resource tile 304 is just one example of a real-time resource graph. Other examples of the real-time resource graph include pie charts, bar charts, histograms, and any other type of graph, chart, or diagram that indicates resource usage.


Resource tile 306, in this example, is directed to a memory resource of computing device 102. Tile 306 includes real-time information corresponding to the memory resource, which in this case includes information indicating that 2.1 gigabytes of a total of 4.0 gigabytes of memory is being used by one or more applications 124, which is 52% of the available memory. Additionally, tile 306 includes a real-time resource graph that indicates a portion of the memory being utilized over various time periods.


Similarly, resource tile 308, in this example, is directed to a disk (e.g., storage disk or spinning media) of computing device 102 and includes real-time information corresponding to the disk as well as a real-time resource graph that indicates a portion of the disk being utilized over various time periods. Similarly, resource tile 310, in this example, is directed to a network connection (e.g., a Wi-Fi or wired network connection) of computing device 102 and includes real-time information corresponding to the network connection as well as a real-time resource graph that indicates a portion of the network bandwidth being utilized over various time periods.


Selectable resource tiles 304, 306, 308, and 310 are examples of just a few of the possible resource tiles that resource manager 126 can present in the summary section 302 of user interface 128. In an embodiment, resource manager 126 can present one selectable resource tile for each hardware resource and/or physical device that is connected to computing device 102. For example, if a computing device has four different disks, resource manager 126 presents a resource tile for each of the four different disks in summary section 302. As another example, if a computing device has more than one network connection (e.g., a wired and a wireless connection), resource manger 126 presents a resource tile for each of the different network connections in summary section 302. In an embodiment, resource manager 126 is configured to present reduced visuals of the resource tiles to optimize performance. For example, if more than four different resource tiles are presented, resource manager 126 may remove presentation of the real-time resource graph from the selectable resource tiles.


Note, therefore, that resource manager 126 presents summary section 302 of user interface 128 to enable a user to quickly compare live, real-time resource usage across a plurality of different resources 122 of computing device 102. This enables the user to diagnose a likely cause of a performance problem. Consider a case where a user notices that computing device 102 is running slowly. After accessing user interface 128, the user can quickly and easily determine that the CPU is being heavily utilized and is likely the cause of the poor performance of computing device 102. The user can then troubleshoot the problem by investigating the reasons for the CPU's heavy usage, which is described in more detail below.


Block 204 presents, within a detailed view section of the user interface, a real-time resource graph corresponding to a first resource. Resource manager 126 may present the real-time resource graph in response to receiving a selection of the selectable resource tile that corresponds to the first resource. By way of example, assume that a user wants to see more information regarding the CPU. To do so, the user selects, such as through a mouse click or tap gesture, selectable resource tile 304 corresponding to the CPU. In response, resource manager 126 presents a real-time resource graph 312 associated with the CPU in a detailed view section 314 of user interface 128. Various types of real-time resource graphs may be presented. For example, the resource graph may present overall CPU utilization, utilization by each logical processor of computing device 102, or utilization by each non-uniform memory access (NUMA) node. Resource manager 126 can scale graph 312 to the number of logical processors on computing device 102. Alternately, resource manager 126 may present real-time resource graph 312 when user interface 128 is opened as a default view. Note that the first resource may correspond to any resource 122, such as processors 116 (which includes a CPU), media 118 (which includes a memory or any type of storage disk or spinning media), networks (such as a Wi-Fi connection), or a GPU, to name just a few.


In various embodiments, resource manager 126 also presents static information and/or real-time information corresponding to the resource in detailed view section 314. For example, static information for the CPU may include the processor speed and the manufacturer of the CPU, which in this example is that the CPU is a 3.2 GHz Intel Core i7 6600M processor. Real-time information includes information corresponding to real-time usage of a resource. Resource manager 126 may present both the real-time information that is presented in summary section 302, as well as additional real-time information. The additional real-time information may be more detailed than the real-time information presented in summary section 302.


In this example, detailed view section 314 includes the real-time information that is presented in selectable resource tile 304, which includes that 99% of the CPU is being utilized and that the core speed is 2.93 GHz. In addition, detailed view section 314 includes additional real-time information that is not included in resource tile 304, which includes that the system time is 00:12:30 and that there are 82 processes, 500 handles, and 2045 threads currently being processed by the CPU. Note, therefore, that the selectable resource tiles provide a summary, or a subset, of the real-time information that is presented in detailed view section 314 of user interface 128.


In this example, real-time resource graph 312 is a larger version of the real-time resource graph presented in selectable resource tile 304, and similarly indicates a portion of the selected resource being utilized at a current time and over a previous time period. Graph 312 presents a percentage of the resource being used at a current time at the far right of the graph, and presents a percentage of the resource being used over a previous time period of 60 seconds. Graph 312 may be moving or paused. When graph 312 is paused, the user is presented with a static graph that does not change. Alternately, when graph 312 is moving, the user is presented with a continuously updating graph showing current resource usage. Graph 312 is just one example of a real-time resource graph. Other examples of real-time resource graph include pie charts, bar charts, histograms, and any other type of graph, chart, or diagram that indicates resource usage. In some embodiments, the detailed view section may include more than one real-time resource graph, such as a graph similar to graph 312 along with a bar chart that indicates other resource information.


Detailed view section 314 is just one example of the detailed view section of resource user interface 128. Generally, the information contained in detailed view section 314 is more detailed than the information contained in summary section 302. Thus, detailed view section 314 can include any configuration and type of information corresponding to a resource 122 that pertains to one of the selectable resource tiles in summary section 314 of resource user interface 128. For example, detailed view section 314 may include one or more real-time resource graphs without any additional real-time information or static information. Alternately, detailed view section 314 may include real-time information and/or static information without a real-time resource graph. In FIG. 3, summary section 302 and detailed view section 314 are presented in the same window of resource user interface 128. Alternately, summary section 302 and detailed view section 314 may be presented in different windows of resource user interface 128.


Block 206 enables selection of one or more data points on the real-time resource graph. For example, one or more data points of real-time resource graph 312 are selectable, such as example data points 316, 318, and 320. A user can select one of the data points of real-time resource graph 312 to view information regarding applications 124 or processes that are using the resource at a time period corresponding to the selected data point, as described in more detail below.


Block 208, responsive to selection of a selected data point, presents one or more applications using the first resource at a time corresponding to the selected data point. By way of example, consider FIG. 4, which illustrates real-time resource graph 312 when a data point in the graph is selected. In this example, a user selects data point 320, such as by clicking, double clicking, tapping, or moving a cursor and hovering over data point 320. Responsively, resource manager 126 presents a list 402 of one or more applications 124 using the first resource at the time corresponding to selected data point 320.


In this example, list 402 indicates that the total CPU utilization at the time corresponding to data point 320 is 99%. In addition, list 402 presents three applications that are using the resource at the time corresponding to data point 320, along with a portion or a percentage of the selected resource that each of the applications are using. In this example, a Web browser application is using 80% of the CPU, an email application is using 10% of the CPU, and a drawing application is using 9% of the CPU at the time corresponding to selected data point 320.


While list 402 is illustrated as a list of three different applications that are using the resource, it is to be appreciated that any number of applications and/or processes using the resource may be listed in list 402. In addition, list 402 may be embodied as a chart (e.g., a pie chart) or any other type of visual representation that indicates applications and/or processes that are using the resource.


Block 210 enables selection of the one or more applications using the first resource. For example, resource manager 126 may enable selection of the one or more applications in list 402. In this example, a user may click on the web browser application in list 402 because the web browser is using 80% of the CPU.


Block 212, responsive to selection of a selected application, enables shut down of the selected application. Continuing with the example above, when the user selects the web browser application from list 402, resource manager 126 may present the user with a list of actions regarding the selected application. For example, resource manager 126 may enable the user to shut down the web browser. Alternately or in addition, resource manager 126 may enable the user to further investigate the web browser application to determine the reason that the web browser is using 80% of the CPU. Alternately or in addition, resource manager 126 may switch to an application or process view to see all of the currently running applications and/or processes.


Note that detailed view section 314 is just one example of a detailed view section that corresponds to a CPU. In addition, detailed view sections may be presented for memory usage, disk activity, network connections, and any other type of resource of computing device 102. For example, if a user selects a second selectable resource tile, such as selectable resource tile 306, resource manager 126 presents real-time information, static information, and/or a real-time resource graph corresponding to the memory of computing device 102 in detailed view section 314. Similarly, if the user selects selectable resource tile 308, resource manager 126 presents real-time information, static information, and/or a real-time resource graph corresponding to the disk activity of computing device 102 in detailed view section 314. Similarly, if the user selects selectable resource tile 310, resource manager 126 presents real-time information, static information, and/or a real-time resource graph corresponding to the network connection of computing device 102 in detailed view section 314.


In accordance with various embodiments, the layout of the real-time information, the static information, and the real-time resource graph in detailed view section 314 is consistent for each resource 122. For example, the layout of detailed view section for the memory, the disk activity, and the network connection is similar to the layout of detailed view section 314 for the CPU in FIG. 3.


The preceding discussion describes a method in which the techniques may operate to present a resource user interface. Aspects of these methods may be implemented in hardware (e.g., fixed logic circuitry), firmware, software, manual processing, or any combination thereof. A software implementation represents program code that performs specified tasks when executed by a computer processor. The example methods can be performed through computer-executable instructions, which can include software, applications, routines, programs, objects, components, data structures, procedures, modules, functions, and the like. The program code can be stored in one or more computer-readable memory devices, both local and/or remote to a computer processor. The methods may also be practiced in a distributed computing mode by multiple computing devices. Further, the features described herein are platform-independent and can be implemented on a variety of computing platforms having a variety of processors.


By way of example, these techniques may be embodied on one or more of the entities shown in system 100 of FIG. 1 and/or example device 500 described below, which may be further divided, combined, and so on. Thus, system 100 and/or device 500 illustrate some of many possible systems or apparatuses capable of employing the described techniques. The entities of system 100 and/or device 500 generally represent software, firmware, hardware, whole devices or networks, or a combination thereof. In the case of a software implementation, for instance, the entities (e.g., resource manager 126 and resource user interface 128) represent program code that performs specified tasks when executed on a processor (e.g., processor(s) 116). The program code can be stored in one or more computer-readable memory devices, such as computer-readable storage media 118 or computer-readable media 514 of FIG. 5.


Example Device



FIG. 5 illustrates various components of an example device 500 that can be implemented as any of the devices, or services and operations implemented by the devices, described with reference to the previous FIGS. 1-4. In some embodiments, device 500 can be implemented as one or a combination of a wired and/or wireless device, as a form of television client device (e.g., television set-top box, digital video recorder (DVR), etc.), consumer device, computer device, server device, portable computer device, user device, communication device, video processing and/or rendering device, appliance device, gaming device, electronic device, and/or as another type of device. Device 500 may also be associated with a user (e.g., a person) and/or an entity that operates the device such that a device describes logical devices that include users, software, firmware, and/or a combination of devices.


Device 500 includes communication devices 502 that enable wired and/or wireless communication of device data 504 (e.g., received data, data that is being received, data scheduled for broadcast, data packets of the data, etc.). The device data 504 or other device content can include configuration settings of the device, media content stored on the device, and/or information associated with a user of the device. Media content stored on device 500 can include any type of audio, video, and/or image data. Device 500 includes one or more data inputs 506 via which any type of data, media content, and/or inputs can be received, such as user-selectable inputs, messages, music, television media content, recorded video content, and any other type of audio, video, and/or image data received from any content and/or data source.


Device 500 also includes communication interfaces 508, which can be implemented as any one or more of a serial and/or parallel interface, a wireless interface, any type of network interface, a modem, and as any other type of communication interface. The communication interfaces 508 provide a connection and/or communication links between device 500 and a communication network by which other electronic, computing, and communication devices communicate data with device 500.


Device 500 includes one or more processors 510 (e.g., any of microprocessors, controllers, and the like), which process various computer-executable instructions to control the operation of device 500 and for grouping selectable tiles. Alternatively or in addition, device 500 can be implemented with any one or combination of hardware, firmware, or fixed logic circuitry that is implemented in connection with processing and control circuits which are generally identified at 512. Although not shown, device 500 can include a system bus or data transfer system that couples the various components within the device. A system bus can include any one or combination of different bus structures, such as a memory bus or memory controller, a peripheral bus, a universal serial bus, and/or a processor or local bus that utilizes any of a variety of bus architectures.


Device 500 also includes computer-readable storage media 514, such as one or more memory devices that enable persistent and/or non-transitory data storage (i.e., in contrast to mere signal transmission), examples of which include random access memory (RAM), non-volatile memory (e.g., any one or more of a read-only memory (ROM), flash memory, EPROM, EEPROM, etc.), and a disk storage device. A disk storage device may be implemented as any type of magnetic or optical storage device, such as a hard disk drive, a recordable and/or rewriteable compact disc (CD), any type of a digital versatile disc (DVD), and the like. Device 500 can also include a mass storage media device 516.


Computer-readable storage media 514 provides data storage mechanisms to store the device data 504, as well as various device applications 518 and any other types of information and/or data related to operational aspects of device 500. For example, an operating system 520 can be maintained as a computer application with the computer-readable storage media 514 and executed on processors 510. The device applications 518 may include a device manager, such as any form of a control application, software application, signal-processing and control module, code that is native to a particular device, a hardware abstraction layer for a particular device, and so on.


The device applications 518 also include any system components or modules to implement techniques for presenting a resource user interface. In this example, the device applications 518 can include resource manager 126 and resource user interface 128.


CONCLUSION

Although embodiments of techniques and apparatuses for presenting a resource user interface have been described in language specific to features and/or methods, the appended claims are not necessarily limited to the specific features or methods described. Rather, the specific features and methods are disclosed as example implementations for a resource user interface.

Claims
  • 1. A computer-implemented method comprising: presenting selectable resource tiles within a summary section of a user interface, a first selectable resource tile displaying real-time information of a first resource, and a second selectable resource tile displaying real-time information of a second resource; andpresenting, within a detailed view section of the user interface, a real-time resource graph corresponding to the first resource.
  • 2. A computer-implemented method as described in claim 1, wherein the first resource comprises a central processing unit (CPU), and wherein the second resource comprises one of a memory, a storage disk, or a network connection.
  • 3. A computer-implemented method as described in claim 1, wherein the real-time resource graph is presented in response to receiving a selection of the first selectable resource tile.
  • 4. A computer-implemented method as described in claim 1, further comprising: receiving a selection of the second selectable resource tile, and presenting, within the detailed view section of the user interface, an additional real-time resource graph corresponding to the second resource.
  • 5. A computer-implemented method as described in claim 1, wherein the detailed view section further includes the real-time information corresponding to the first resource, additional real-time information corresponding to the first resource, and static information corresponding to the first resource.
  • 6. A computer-implemented method as described in claim 1, wherein the real-time resource graph presents a portion of the first resource that is being utilized at a current time and over a previous time period.
  • 7. A computer-implemented method as described in claim 1, further comprising enabling selection of one or more data points on the real-time resource graph, and responsive to selection of a selected data point, presenting one or more applications using the first resource at a time corresponding to the selected data point.
  • 8. A computer-implemented method as described in claim 7, further comprising enabling selection of the one or more applications using the first resource, and responsive to selection of a selected application, enable shut down of the selected application.
  • 9. A computing device comprising: at least a processor and a memory to implement a resource user interface, the resource user interface comprising: a detailed view section that presents a real-time resource graph corresponding to a resource of the computing device, the real-time resource graph: presenting a portion of the resource that is being utilized at a current time and over a previous time period; andpresenting applications consuming the resource at a specific time responsive to selection of the specific time on the real-time resource graph.
  • 10. The computing device as described in claim 9, wherein the detailed view section further presents real-time information and static information corresponding to the resource.
  • 11. The computing device as described in claim 9, wherein the resource user interface further includes a summary section that presents a selectable resource tile that displays real-time information corresponding to the resource and an additional selectable resource tile that displays real-time information corresponding to an additional resource of the computing device.
  • 12. The computing device as described in claim 11, wherein the summary section is configured to present one selectable resource tile for each hardware resource that is connected to the computing device.
  • 13. The computing device as described in claim 11, wherein the detailed view section further presents an additional real-time resource graph corresponding to the additional resource responsive to receiving a selection of the additional selectable resource tile.
  • 14. The computing device as described in claim 11, wherein the resource comprises the processor, and wherein the additional resource comprises the memory.
  • 15. A computer-implemented method comprising: presenting, within a summary section of a resource user interface, at least a first selectable tile corresponding to a central processing unit (CPU) of a computing device and a second selectable tile corresponding to a memory of the computing device, the first selectable tile including real-time usage information associated with the CPU and the second selectable tile including real-time usage information associated with the memory;responsive to receiving a selection of the first selectable tile, presenting, within a detailed view section of the resource user interface, a real-time CPU usage graph that presents a portion of the CPU that is being utilized at a current time and over a previous time period; andresponsive to receiving a selection of the second selectable tile, presenting, within a detailed view section of the resource user interface, a real-time memory usage graph that presents a portion of the memory that is being used at a current time and over a previous time period.
  • 16. A computer-implemented method as described in claim 15, further comprising, responsive to receiving a selection of the first selectable tile, presenting within the detailed view section of the resource user interface, the real-time usage information corresponding to the CPU, additional real-time usage information corresponding to the CPU, and static information corresponding to the CPU.
  • 17. A computer-implemented method as described in claim 15, further comprising responsive to receiving a selection of the second selectable tile, presenting within the detailed view section of the resource user interface, the real-time usage information corresponding to the memory, additional real-time usage information corresponding to the memory, and static information corresponding to the memory.
  • 18. A computer-implemented method as described in claim 15, further comprising enabling selection of one or more data points on the real-time CPU usage graph, and responsive to selection of a selected data point, present one or more applications using the CPU at a time corresponding to the selected data point.
  • 19. A computer-implemented method as described in claim 15, further comprising enabling selection of one or more data points on the real-time memory usage graph, and responsive to selection of a selected data point, presenting one or more applications using the memory at a time corresponding to the selected data point.
  • 20. The computer-implemented method as described in claim 15, wherein the summary section and the detailed view section are presented in a same window of the resource user interface.