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@@ -90,6 +90,15 @@ Options
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See `Label and Subproject Summary`_.
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+``--hardware-spec-file <file>``
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+ Run CTest with :ref:`hardware allocation <ctest-hardware-allocation>` enabled,
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+ using the
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+ :ref:`hardware specification file <ctest-hardware-specification-file>`
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+ specified in ``<file>``.
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+
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+ When ``ctest`` is run as a `Dashboard Client`_ this sets the
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+ ``HardwareSpecFile`` option of the `CTest Test Step`_.
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+
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``--test-load <level>``
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While running tests in parallel (e.g. with ``-j``), try not to start
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tests when they may cause the CPU load to pass above a given threshold.
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@@ -958,6 +967,11 @@ Arguments to the command may specify some of the step settings.
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Configuration settings include:
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+``HardwareSpecFile``
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+ Specify a
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+ :ref:`hardware specification file <ctest-hardware-specification-file>`. See
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+ :ref:`ctest-hardware-allocation` for more information.
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+
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``LabelsForSubprojects``
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Specify a semicolon-separated list of labels that will be treated as
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subprojects. This mapping will be passed on to CDash when configure, test or
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@@ -1267,6 +1281,221 @@ model is defined as follows:
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Test properties.
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Can contain keys for each of the supported test properties.
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+.. _`ctest-hardware-allocation`:
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+
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+Hardware Allocation
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+===================
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+
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+CTest provides a mechanism for tests to specify the hardware that they need and
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+how much of it they need, and for users to specify the hardware availiable on
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+the running machine. This allows CTest to internally keep track of which
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+hardware is in use and which is free, scheduling tests in a way that prevents
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+them from trying to claim hardware that is not available.
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+
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+A common use case for this feature is for tests that require the use of a GPU.
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+Multiple tests can simultaneously allocate memory from a GPU, but if too many
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+tests try to do this at once, some of them will fail to allocate, resulting in
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+a failed test, even though the test would have succeeded if it had the memory
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+it needed. By using the hardware allocation feature, each test can specify how
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+much memory it requires from a GPU, allowing CTest to schedule tests in a way
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+that running several of these tests at once does not exhaust the GPU's memory
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+pool.
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+
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+Please note that CTest has no concept of what a GPU is or how much memory it
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+has, nor does it have any way of communicating with a GPU to retrieve this
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+information or perform any memory management. CTest simply keeps track of a
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+list of abstract resource types, each of which has a certain number of slots
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+available for tests to use. Each test specifies the number of slots that it
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+requires from a certain resource, and CTest then schedules them in a way that
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+prevents the total number of slots in use from exceeding the listed capacity.
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+When a test is executed, and slots from a resource are allocated to that test,
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+tests may assume that they have exclusive use of those slots for the duration
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+of the test's process.
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+
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+The CTest hardware allocation feature consists of two inputs:
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+
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+* The :ref:`hardware specification file <ctest-hardware-specification-file>`,
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+ described below, which describes the hardware resources available on the
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+ system, and
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+* The :prop_test:`PROCESSES` property of tests, which describes the resources
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+ required by the test
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+
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+When CTest runs a test, the hardware allocated to that test is passed in the
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+form of a set of
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+:ref:`environment variables <ctest-hardware-environment-variables>` as
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+described below. Using this information to decide which resource to connect to
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+is left to the test writer.
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+
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+Please note that these processes are not spawned by CTest. The ``PROCESSES``
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+property merely tells CTest what processes the test expects to launch. It is up
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+to the test itself to do this process spawning, and read the :ref:`environment
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+variables <ctest-hardware-environment-variables>` to determine which resources
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+each process has been allocated.
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+
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+.. _`ctest-hardware-specification-file`:
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+
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+Hardware Specification File
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+---------------------------
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+
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+The hardware specification file is a JSON file which is passed to CTest, either
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+on the :manual:`ctest(1)` command line as ``--hardware-spec-file``, or as the
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+``HARDWARE_SPEC_FILE`` argument of :command:`ctest_test`. The hardware
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+specification file must be a JSON object. All examples in this document assume
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+the following hardware specification file:
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+
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+.. code-block:: json
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+
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+ {
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+ "local": [
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+ {
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+ "gpus": [
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+ {
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+ "id": "0",
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+ "slots": 2
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+ },
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+ {
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+ "id": "1",
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+ "slots": 4
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+ },
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+ {
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+ "id": "2",
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+ "slots": 2
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+ },
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+ {
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+ "id": "3"
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+ }
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+ ],
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+ "crypto_chips": [
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+ {
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+ "id": "card0",
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+ "slots": 4
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+ }
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+ ]
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+ }
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+ ]
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+ }
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+
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+The members are:
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+
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+``local``
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+ A JSON array consisting of CPU sockets present on the system. Currently, only
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+ one socket is supported.
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+
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+ Each socket is a JSON object with members whose names are equal to the
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+ desired resource types, such as ``gpu``. These names must start with a
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+ lowercase letter or an underscore, and subsequent characters can be a
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+ lowercase letter, a digit, or an underscore. Uppercase letters are not
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+ allowed, because certain platforms have case-insensitive environment
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+ variables. See the `Environment Variables`_ section below for
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+ more information. It is recommended that the resource type name be the plural
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+ of a noun, such as ``gpus`` or ``crypto_chips`` (and not ``gpu`` or
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+ ``crypto_chip``.)
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+
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+ Please note that the names ``gpus`` and ``crypto_chips`` are just examples,
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+ and CTest does not interpret them in any way. You are free to make up any
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+ resource type you want to meet your own requirements.
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+
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+ The value for each resource type is a JSON array consisting of JSON objects,
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+ each of which describe a specific instance of the specified resource. These
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+ objects have the following members:
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+
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+ ``id``
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+ A string consisting of an identifier for the resource. Each character in
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+ the identifier can be a lowercase letter, a digit, or an underscore.
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+ Uppercase letters are not allowed.
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+
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+ Identifiers must be unique within a resource type. However, they do not
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+ have to be unique across resource types. For example, it is valid to have a
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+ ``gpus`` resource named ``0`` and a ``crypto_chips`` resource named ``0``,
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+ but not two ``gpus`` resources both named ``0``.
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+
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+ Please note that the IDs ``0``, ``1``, ``2``, ``3``, and ``card0`` are just
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+ examples, and CTest does not interpret them in any way. You are free to
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+ make up any IDs you want to meet your own requirements.
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+
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+ ``slots``
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+ An optional unsigned number specifying the number of slots available on the
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+ resource. For example, this could be megabytes of RAM on a GPU, or
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+ cryptography units available on a cryptography chip. If ``slots`` is not
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+ specified, a default value of ``1`` is assumed.
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+
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+In the example file above, there are four GPUs with ID's 0 through 3. GPU 0 has
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+2 slots, GPU 1 has 4, GPU 2 has 2, and GPU 3 has a default of 1 slot. There is
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+also one cryptography chip with 4 slots.
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+
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+``PROCESSES`` Property
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+----------------------
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+
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+See :prop_test:`PROCESSES` for a description of this property.
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+
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+.. _`ctest-hardware-environment-variables`:
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+
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+Environment Variables
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+---------------------
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+
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+Once CTest has decided which resources to allocate to a test, it passes this
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+information to the test executable as a series of environment variables. For
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+each example below, we will assume that the test in question has a
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+:prop_test:`PROCESSES` property of ``2,gpus:2;gpus:4,gpus:1,crypto_chips:2``.
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+
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+The following variables are passed to the test process:
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+
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+.. envvar:: CTEST_PROCESS_COUNT
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+
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+ The total number of processes specified by the :prop_test:`PROCESSES`
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+ property. For example:
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+
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+ * ``CTEST_PROCESS_COUNT=3``
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+
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+ This variable will only be defined if :manual:`ctest(1)` has been given a
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+ ``--hardware-spec-file``, or if :command:`ctest_test` has been given a
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+ ``HARDWARE_SPEC_FILE``. If no hardware specification file has been given,
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+ this variable will not be defined.
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+
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+.. envvar:: CTEST_PROCESS_<num>
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+
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+ The list of resource types allocated to each process, with each item
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+ separated by a comma. ``<num>`` is a number from zero to
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+ ``CTEST_PROCESS_COUNT`` minus one. ``CTEST_PROCESS_<num>`` is defined for
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+ each ``<num>`` in this range. For example:
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+
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+ * ``CTEST_PROCESS_0=gpus``
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+ * ``CTEST_PROCESS_1=gpus``
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+ * ``CTEST_PROCESS_2=crypto_chips,gpus``
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+
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+.. envvar:: CTEST_PROCESS_<num>_<resource-type>
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+
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+ The list of resource IDs and number of slots from each ID allocated to each
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+ process for a given resource type. This variable consists of a series of
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+ pairs, each pair separated by a semicolon, and with the two items in the pair
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+ separated by a comma. The first item in each pair is ``id:`` followed by the
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+ ID of a resource of type ``<resource-type>``, and the second item is
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+ ``slots:`` followed by the number of slots from that resource allocated to
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+ the given process. For example:
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+
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+ * ``CTEST_PROCESS_0_GPUS=id:0,slots:2``
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+ * ``CTEST_PROCESS_1_GPUS=id:2,slots:2``
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+ * ``CTEST_PROCESS_2_GPUS=id:1,slots:4;id:3,slots:1``
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+ * ``CTEST_PROCESS_2_CRYPTO_CHIPS=id:card0,slots:2``
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+
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+ In this example, process 0 gets 2 slots from GPU ``0``, process 1 gets 2 slots
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+ from GPU ``2``, and process 2 gets 4 slots from GPU ``1`` and 2 slots from
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+ cryptography chip ``card0``.
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+
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+ ``<num>`` is a number from zero to ``CTEST_PROCESS_COUNT`` minus one.
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+ ``<resource-type>`` is the name of a resource type, converted to uppercase.
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+ ``CTEST_PROCESS_<num>_<resource-type>`` is defined for the product of each
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+ ``<num>`` in the range listed above and each resource type listed in
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+ ``CTEST_PROCESS_<num>``.
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+
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+ Because some platforms have case-insensitive names for environment variables,
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+ the names of resource types may not clash in a case-insensitive environment.
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+ Because of this, for the sake of simplicity, all resource types must be
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+ listed in all lowercase in the
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+ :ref:`hardware specification file <ctest-hardware-specification-file>` and in
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+ the :prop_test:`PROCESSES` property, and they are converted to all uppercase
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+ in the ``CTEST_PROCESS_<num>_<resource-type>`` environment variable.
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+
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See Also
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========
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Kyle Edwards