The Physics Profiler module displays information about the physics that the physics engine has processed in your Scene. This information can help you diagnose and resolve performance issues or unexpected discrepancies related to the physics in your Scene. For more information on debugging physics in your application, see the documentation on the Physics Debug Visualization.
The Physics Profiler module’s chart tracks the time your application spends on physics. The timings are divided into seven categories. To change the order of the categories in the chart, you can drag and drop them in the chart’s legend. You can also click a category’s colored legend to toggle its display.
When you click on the chart, you can see the exact numerical values of each chart category in the module details pane below the chart.
|Active Dynamic||The number of active non-Kinematic Rigidbody components. An active Rigidbody is one that isn’t sleeping.|
|Active Kinematic||The number of active Kinematic Rigidbody components. A Kinematic Rigidbody is active when MovePosition or MoveRotation is called in a frame, and remains active in the next frame.
Note: Unity might process Kinematic Rigidbody components that have joints attached multiple times per frame, and this contributes to the value displayed.
|Static Colliders||The number of Collider components on GameObjects that don’t have Rigidbody components attached to the GameObjects or their parent GameObjects.
Collider components on GameObjects or parent GameObjects that have Rigidbody components do not count as Static Colliders. These are called Compound Colliders. Compound Colliders arrange multiple Colliders of a body in a convenient way, rather than having all of the Colliders on the same GameObject as the Rigidbody component.
|Rigidbody||物理演算エンジンが処理する Rigidbody コンポーネントの数。コンポーネントのスリープ状態には関係ありません。|
|Trigger Overlaps||重複するトリガーの数 (ペアの数)|
|Active Constraints||The number of primitive constraints the physics engine has processed. Constraints are used as a building block of Joints as well as collision response. For example, restricting a linear or rotational degree of freedom of a ConfigurableJoint involves a primitive constraint per each restriction.|
|Contacts||The total number of contact pairs between all Colliders in the Scene, including the amount of trigger overlap pairs. A contact is a pair of Colliders that either touch or overlap. Note: Unity creates contact pairs per Collider pair once the distance between them is below a certain user configurable limit. As such, you might see contacts generated for Rigidbody components that are not yet touching or overlapping. See documentation on Collider.contactOffset and ContactPoint.separation for more details.|
The numbers displayed in the Profiler might not correspond to the exact number of GameObjects with physics components in your Scene. This is because Unity processes some physics components at a different rate depending on which other components affect it (for example, an attached Joint component). To calculate the exact number of GameObjects with specific physics components attached, you must write a custom script with the FindObjectsOfType function.
The Physics Profiler module does not show the number of sleeping Rigidbody components. These are components which do not engage with the physics engine, and are therefore not processed by the Profiler. For more information on sleeping Rigidbody components, see the documentation on Rigidbody.
The physics simulation runs on a separate fixed frequency update cycle from the main logic’s update loop, and can only advance time via a Time.fixedDeltaTime per call. This is similar to the difference between Update and FixedUpdate. For more information on this, see the documentation on the Time window.
When a heavy logics or graphics frame takes a long amount of time, the Profiler has to call the physics simulation multiple times per frame. This means that an already resource-intensive frame takes even more time and resources. This might cause the physics simulation to temporarily stop according to the Maximum Allowed Timestep value, which you can set in the Project Settings window (menu: Edit > Project Settings > Time)
To detect this in your Project, select the CPU Usage Profiler module and check the number of calls for Physics.Processing or Physics.Simulate in the Overview section in the Hierarchy view.
In this example image, the value of 1 in the Calls column indicates that the physics simulation was called one time over the last logical frame.
A call count close to 10 might indicate an issue. As a first solution, reduce the frequency of the physics simulation, and if the issue continues, check what might have caused the heavy frame before the physics engine had to use a lot of simulation calls to catch up with the game time. Sometimes, a heavy graphics frame might cause more physics simulation calls later on in a Scene.
For more detailed information about the physics simulation in your Scene, select the search box at the top of the module details pane, search for Physics.Processing, and then select Show Calls from the dropdown at the top right of the pane. This displays the names of the physics engine tasks that run to update your Scene. The two most common names you’re likely to see are: