The PSM2 Fabric Provider


The psm2 provider runs over the PSM 2.x interface that is supported by the Intel Omni-Path Fabric. PSM 2.x has all the PSM 1.x features plus a set of new functions with enhanced capabilities. Since PSM 1.x and PSM 2.x are not ABI compatible the psm2 provider only works with PSM 2.x and doesn’t support Intel TrueScale Fabric.


The psm2 provider doesn’t support all the features defined in the libfabric API. Here are some of the limitations:

Endpoint types
Only support non-connection based types FI_DGRAM and FI_RDM
Endpoint capabilities
Endpoints can support any combination of data transfer capabilities FI_TAGGED, FI_MSG, FI_ATOMICS, and FI_RMA. These capabilities can be further refined by FI_SEND, FI_RECV, FI_READ, FI_WRITE, FI_REMOTE_READ, and FI_REMOTE_WRITE to limit the direction of operations.

FI_MULTI_RECV is supported for non-tagged message queue only.

Other supported capabilities include FI_TRIGGER, FI_REMOTE_CQ_DATA, and FI_SOURCE.

FI_CONTEXT is required for the FI_TAGGED and FI_MSG capabilities. That means, any request belonging to these two categories that generates a completion must pass as the operation context a valid pointer to type struct fi_context, and the space referenced by the pointer must remain untouched until the request has completed. If none of FI_TAGGED and FI_MSG is asked for, the FI_CONTEXT mode is not required.
The psm2 provider requires manual progress. The application is expected to call fi_cq_read or fi_cntr_read function from time to time when no other libfabric function is called to ensure progress is made in a timely manner. The provider does support auto progress mode. However, the performance can be significantly impacted if the application purely depends on the provider to make auto progress.
Unsupported features
These features are unsupported: connection management, scalable endpoint, passive endpoint, shared receive context, and send/inject with immediate data over tagged message queue.


The psm2 provider checks for the following environment variables:

PSM requires that each job has a unique ID (UUID). All the processes in the same job need to use the same UUID in order to be able to talk to each other. The PSM reference manual advises to keep UUID unique to each job. In practice, it generally works fine to reuse UUID as long as (1) no two jobs with the same UUID are running at the same time; and (2) previous jobs with the same UUID have exited normally. If running into “resource busy” or “connection failure” issues with unknown reason, it is advisable to manually set the UUID to a value different from the default.

The default UUID is 00FF00FF-0000-0000-0000-00FF0F0F00FF.

The psm2 provider has a simple built-in name server that can be used to resolve an IP address or host name into a transport address needed by the fi_av_insert call. The main purpose of this name server is to allow simple client-server type applications (such as those in fabtest) to be written purely with libfabric, without using any out-of-band communication mechanism. For such applications, the server would run first, and the client would call fi_getinfo with the node parameter set to the IP address or host name of the server. The resulting fi_info structure would have the transport address of the server in the dest_addr field.

The name server won’t work properly if there are more than one processes from the same job (i.e. with the same UUID) running on the same node and acting as servers. For such scenario it is recommended to have each process getting local transport address with fi_getname and exchanging the addresses with out-of-band mechanism.

The name server is on by default. It can be turned off by setting the variable to 0. This may save a small amount of resource since a separate thread is created when the name server is on.

The provider detects OpenMPI and MPICH runs and changes the default setting to off.

The RMA functions are implemented on top of the PSM Active Message functions. The Active Message functions have limit on the size of data can be transferred in a single message. Large transfers can be divided into small chunks and be pipe-lined. However, the bandwidth is sub-optimal by doing this way.

The psm2 provider use PSM tag-matching message queue functions to achieve higher bandwidth for large size RMA. It takes avdantage of the extra tag bits available in PSM2 to separate the RMA traffic from the regular tagged message queue.

The option is on by default. To turn it off set the variable to 0.

Time (seconds) to sleep before closing PSM endpoints. This is a workaround for a bug in some versions of PSM library.

The default setting is 1.

Timeout (seconds) for gracefully closing PSM endpoints. A forced closing will be issued if timeout expires.

The default setting is 5.

When auto progress is enabled (asked via the hints to fi_getinfo), a progress thread is created to make progress calls from time to time. This option set the interval (microseconds) between progress calls.

The default setting is 1 if affininty is set, or 1000 if not. See FI_PSM2_PROG_AFFINITY.

When set, specify the set of CPU cores to set the progress thread affinity to. The format is <start>[:<end>[:<stride>]][,<start>[:<end>[:<stride>]]]*, where each triplet <start>:<end>:<stride> defines a block of core_ids. Both <start> and <end> can be either the core_id (when >=0) or core_id - num_cores (when <0).

By default affinity is not set.


fabric(7), fi_provider(7), fi_psm(7),