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A fast, interactive web-based viewer for performance profiles. Supports import from a variety of profiles in a variety of languages (JS, Ruby, Python, Go & more). Try it here: https://www.speedscope.app
Given raw profiling data, speedscope allows you to interactively explore the data to get insight into what's slow in your application, or allocating all the memory, or whatever data is represented in the profiling data.
speedscope is designed to ingest profiles from a variety of different profilers for different programming languages & environments. Click the links below for documentation on how to import from a specific source.
perf
(linux)Contributions to add support for additional formats are welcome! See issues with the "import source" tag.
Visit https://www.speedscope.app, then either browse to find a profile file or drag-and-drop one onto the page. The profiles are not uploaded anywhere -- the application is totally in-browser.
For offline use, or convenience in the terminal, you can also install speedscope via npm:
npm install -g speedscope
Invoking speedscope /path/to/profile
will load speedscope in your default browser.
If you don't have npm or node installed, you can also download a
self-contained version from https://github.com/jlfwong/speedscope/releases.
After you download the zip file from a release, simply unzip it and open the
contained index.html
in Chrome or Firefox.
To load a specific profile by URL, you can append a hash fragment like #profileURL=[URL-encoded profile URL]&title=[URL-encoded custom title]
. Note that the server hosting the profile must have CORS configured to allow AJAX requests from speedscope.
In the "Time Order" view (the default), call stacks are ordered left-to-right in the same order as they occurred in the input file, which is usually going to be the chronological order they were recorded in. This view is most helpful for understanding the behavior of an application over time, e.g. "first the data is fetched from the database, then the data is prepared for serialization, then the data is serialized to JSON".
The horizontal axis represents the "weight" of each stack (most commonly CPU time), and the vertical axis shows you the stack active at the time of the sample. If you click on one of the frames, you'll be able to see summary statistics about it.
In the "Left Heavy" view, identical stacks are grouped together, regardless of whether they were recorded sequentially. Then, the stacks are sorted so that the heaviest stack for each parent is on the left -- hence "left heavy". This view is useful for understanding where all the time is going in situations where there are hundreds or thousands of function calls interleaved between other call stacks.
The Sandwich view is a table view in which you can find a list of all functions and their associated times. You can sort by self time or total time. It's called "Sandwich" view because if you select one of the rows in the table, you can see flamegraphs for all the callers and callees of the selected row.
Once a profile has loaded, the main view is split into two: the top area is the "minimap", and the bottom area is the "stack view".
+
: zoom in-
: zoom out0
: zoom out to see the entire profilew
/a
/s
/d
or arrow keys: pan around the profile1
: Switch to the "Time Order" view2
: Switch to the "Left Heavy" view3
: Switch to the "Sandwich" viewr
: Collapse recursion in the flamegraphsCmd+S
/Ctrl+S
to save the current profileCmd+O
/Ctrl+O
to open a new profilen
: Go to next profile/thread if one is availablep
: Go to previous profile/thread if one is availablet
: Open the profile/thread selector if availableCmd+F
/Ctrl+F
: to open search. While open, Enter
and Shift+Enter
cycle through resultsDo you want to contribute to speedscope? Sweeeeet. Check out CONTRIBUTING.md for instructions on setting up your dev environment.