Intel® VTune™ Amplifier XE and Intel® VTune™ Amplifier for Systems Help
Use the Summary window as your starting point of the performance analysis with the Intel® VTune™ Amplifier. To access this window, select the Hotspots by CPU Usageviewpoint and click the Summary sub-tab in the result tab.
Depending on the analysis type, the Summary window provides the following application-level statistics in the Hotspots by CPU Usage viewpoint:
You may click the Copy to Clipboard button to copy the content of the selected summary section to the clipboard.
The Summary window displays a list of CPU metrics that help you estimate an overall application execution. For a metric description, hover over the corresponding question mark icon to read the pop-up help:
Use the Elapsed Time metric as your primary indicator and a baseline for comparison of results before and after optimization. Note that for multithreaded applications, the CPU Time is different from the Elapsed Time since the CPU Time is the sum of CPU time for all application threads.
Effective CPU Time and Wait Time metrics are classified per CPU utilization as follows:
Utilization Type |
Description |
---|---|
Idle |
Idle usage. By default, if the CPU Time is insignificant (less than 50% of 1 CPU), such CPU usage is classified as idle. |
Poor |
Poor usage. By default, poor usage is when the number of simultaneously running CPUs is less than or equal to 50% of the target CPU usage. |
OK |
Acceptable (OK) usage. By default, OK usage is when the number of simultaneously running CPUs is between 51-85% of the target CPU usage. |
Ideal |
Ideal usage. By default, Ideal usage is when the number of simultaneously running CPUs is between 86-100% of the target CPU usage. |
Depending on the analysis type, the VTune Amplifier may analyze a metric, compare its value with the threshold value provided by Intel architects, and highlight the metric value in pink as a performance issue for an application as a whole. The issue description for such a value may be provided below the critical metric or when you hover over the highlighted metric.
Each metric in the list shows up as a hyperlink. Clicking a hyperlink opens the Bottom-up window and sorts the grid by the selected metric or highlights the selected object in the grid.
VTune Amplifier displays the most performance-critical functions and their CPU Time in the Top Hotspots section. Optimizing these functions typically results in improving overall application performance. Clicking a function in the list opens the Bottom-up window with this function selected.
The grayed-out [Others] module, if provided, displays the total value for all other functions in the application that are not included into this table.
You can control the number of objects in this list and displayed metrics via the viewpoint configuration file.
This section provides a list of tasks that took most of the time to execute, where tasks are either code regions marked with Task API, or system tasks enabled to monitor Ftrace* events, Atrace* events, Intel Media SDK programs, OpenCL™ kernels, and so on.
Clicking a task type in the table opens the grid view (for example, Bottom-up or Event Count) grouped by the Task Type granularity. See Interpreting Task Analysis Data for more information.
Explore the CPU Usage Histogram to analyze the percentage of the wall time the specific number of CPUs were running simultaneously.
Use This | To Do This |
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Vertical bars |
Hover over the bar to identify the amount of Elapsed time the application spent using the specified number of logical CPU cores. |
Target Utilization |
Identify the target CPU usage. This number is equal to the number of logical CPU cores. Consider this number as your optimization goal. |
Average CPU Usage |
Identify the average number of CPUs used aggregating the entire run. It is calculated as CPU time / Elapsed time. CPU usage at any point in time cannot surpass the available number of logical CPU cores. Even when the system is oversubscribed, and there are more threads running then CPUs, the CPU usage is the same as the number of CPUs. Use this number as a baseline for your performance measurements. The closer this number to the number of logical CPU cores, the better, except for the case when the CPU time goes to spinning. |
Utilization Indicator bar |
Analyze how the various utilization levels map to the number of simultaneously utilized logical CPU cores. NoteIn the CPU Usage histogram, the VTune Amplifier treats the Spin and Overhead time as Idle CPU usage. Different analysis types may recognize Spin and Overhead time differently depending on availability of call stack information. This may result in a difference of CPU Usage graphical representation per analysis type. |
If you used the Frame API to mark the start and finish of the code regions executed repeatedly (frames) in your graphics application, the VTune Amplifier analyzes this data and helps you identify regions that ran slowly. Explore the Frame Rate Histogram section and identify slow and fast frame domains.
Use This |
To Do This |
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Domain drop-down menu |
Choose a frame domain to analyze with the frame rate histogram. If only one domain is available, the drop-down menu is grayed out. Then, you can switch to the Bottom-up window grouped by Frame Domain, filter the data by slow frames and switch to the Function grouping to identify functions in the slow frame domains. Try to optimize your code to keep the frame rate constant (for example, from 30 to 60 frames per second). |
Vertical bars |
Hover over a bar to see the total number of frames in your application executed with a specific frame rate. High number of slow or fast frames signals a performance bottleneck. |
Frame rate bar |
Use the sliders to adjust the frame rate threshold (in frames per second) for the currently open result and all subsequent results in the project. |
This section provides the following data:
Application Command Line |
Path to the target application. |
Operating System |
Operating system used for the collection. |
Computer Name |
Name of the computer used for the collection. |
Result Size |
Size of the result collected by the VTune Amplifier. |
Collection start time |
Start time (in UTC format) of the external collection. Explore the Timeline pane to track the performance statistics provided by the custom collector over time. |
Collection stop time |
Stop time (in UTC format) of the external collection. Explore the Timeline pane to track the performance statistics provided by the custom collector over time. |
CPU Information |
|
Name |
Name of the processor used for the collection. |
Frequency |
Frequency of the processor used for the collection. |
Logical CPU Count |
Logical CPU count for the machine used for the collection. |
Physical Core Count |
Number of physical cores on the system. |
User Name |
User launching the data collection. This field is available if you enabled the per-user event-based sampling collection mode during the product installation. |
GPU Information |
|
Name |
Name of the Graphics installed on the system. |
Vendor |
GPU vendor. |
Driver |
Version of the graphics driver installed on the system. |
Stepping |
Microprocessor version. |
EU Count |
Number of execution units (EUs) in the Render and GPGPU engine. This data is Intel® HD Graphics and Intel® Iris™ Graphics (further: Intel Graphics) specific. |
Max EU Thread Count |
Maximum number of threads per execution unit. This data is Intel Graphics specific. |
Max Core Frequency |
Maximum frequency of the Graphics processor. This data is Intel Graphics specific. |
Graphics Performance Analysis |
GPU metrics collection is enabled on the hardware level. This data is Intel Graphics specific. NoteSome systems disable collection of extended metrics such as L3 misses, memory accesses, sampler busyness, SLM accesses, and others in the BIOS. On some systems you can set a BIOS option to enable this collection. The presence or absence of the option and its name are BIOS vendor specific. Look for the Intel® Graphics Performance Analyzers option (or similar) in your BIOS and set it to Enabled. |