Find Linux* Memory and Threading Errors with Intel® Inspector

Published: 12/19/2014, Last Updated: 12/19/2014

What memory and threading errors in Linux* can Inspector find?

Linux Memory and Threading Errors

Threading Error Analysis Type Configuration Setting Descriptions

The following table describes the purpose, usefulness, and cost (low, medium, high, or proportional in terms of time and resources) for each analysis type configuration setting. (The settings are listed in alphabetical order.)



Purpose, Usefulness, and Cost

Cross-thread stack access detection

Use to set the alert mechanism for when a thread accesses stack memory of another thread.

The alert mechanism helps you decide if this is an issue that requires handling.

All options are low cost if Detect data races is selected.


  • Use Hide problems/Hide warnings if using an OpenMP*, Intel® Threading Building Blocks, or Intel® Cilk™ Plus programming model; or if cross-thread stack accesses are anticipated. Also select Detect races on stack.
  • Use Hide problems/Show warnings if cross-thread stack accesses are not anticipated. Also deselect Detect data races on stack.
  • Use Show problems/Hide warnings if cross-thread stack accesses are not anticipated but a previous analysis indicated they exist and you are not using an OpenMP*, Intel Threading Building Blocks, or Intel Cilk Plus programming model. Also deselect Detect data races on stack.

Detect data races

Select to detect problems where multiple threads access the same memory location without proper synchronization and at least one access is a write.

Selecting is useful when you suspect data races that are not yet evident.

High cost.

Recommendation: Select. Consider also deselecting Use maximum resources to reduce cost.

Detect data races on stack (previously called Detect data races on stack accesses)

Available only if Detect data races is selected.

Select to detect data races for variables allocated on the stack.

Selecting is useful when threads in an application share variables from the stack and you suspect data races on the variables.

High cost.

Recommendation: Deselect. If you select, consider also deselecting Use maximum resources to reduce cost.

Detect deadlocks

Select to detect problems where two or more threads are waiting for the other to release resources, but none of the threads releases the resources. Thus no thread can proceed.

Selecting is useful when you want to troubleshoot the location of a deadlock.

Low cost.

Detect lock hierarchy violations

Select to detect problems where the acquisition hierarchy order of multiple synchronization objects in one thread differs from the acquisition hierarchy order in another thread, and could cause a deadlock under certain conditions.

Selecting is useful when an application has complicated synchronization and it is hard to verify correctness.

Low cost unless an application has a significant number of locks.

Race analysis byte granularity(previously called Memory access byte granularity)

Available only if Detect data races is selected.

Use to set the size of the smallest memory block the Intel Inspector considers a single block of memory when determining if non-synchronized accesses to a memory block constitute a data race.

Selecting is useful to control memory consumption during analysis for some applications.

High cost when set to 1 byte.

Recommendation: Set to 4 unless you continually see data races based on safe access to smaller memory blocks. If so, reset to 1.

Remove duplicates

Deselect to show all occurrences of a detected problem in the Code Locations pane.

Deselecting is:

  • Useful when you need to fully visualize all threads and problem occurrences in relation to time
  • Low cost in terms of time; however, the number of duplicate errors could crowd out the number of unique errors.

Recommendation: Select.

Save stack on first access

Available only if Detect data races is selected.

Select to show as much information as possible on all threads involved in a data race.

Selecting is useful when investigating complex data race problems.

High cost.

Recommendation: Deselect on initial analysis runs. Select only when you need the maximum information and context about all threads involved in a data race to solve the problem.

Save stack on lock creation

Select to show creation information on synchronization objects involved in deadlocks, lock hierarchy violations, and data races.

Selecting is useful when acquisition stacks are not sufficient to understand the problem.

Low cost.

Save stack on memory allocation(previously called Save stack on allocation)

Available only if Detect data races is selected.

Select to identify the allocation site of dynamically allocated memory objects involved in data races.

Medium cost.

Recommendation: Select when you need to identify the object hierarchy of low-level objects involved in data races. For example: If object R is involved in a data race and is instantiated within objects O1, O2, and O3, the allocation call stack can help you identify which encapsulating object is not properly protecting access to object R.

Stack frame depth

Use to provide more or less call stack context for detected errors.

A high setting is useful when analyzing highly object-oriented applications.

A higher number does not significantly impact cost with one exception: Choosing a higher number plus selecting Save stack on first access increases cost.

Recommendation: Use only as large a value as an application requires to display complete call paths.

Terminate on deadlock

Available only if Detect deadlocks is selected.

Select to stop analysis and application execution if the Intel Inspector detects a deadlock.

Selecting is useful when running your application as part of a kernel or unit testing suite.

Low cost.

Recommendation: Deselect. Instead, use the corresponding knob in the command line interface to perform kernel or unit testing in a nightly scenario. If the Intel Inspector identifies a deadlock, decide if it is appropriate to continue analysis.

Use maximum resources

Select to potentially find more problems.

High cost.

Recommendation: Deselect to run a quicker analysis that should find most of your data race and cross-thread stack access problems. Once you have found and fixed these problems, select to get more complete analysis coverage of possible data race and cross-thread stack access problems.

Product and Performance Information


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