Provided by: opensm_3.3.23-3_amd64 bug

NAME

       torus-2QoS.conf - Torus-2QoS configuration for OpenSM subnet manager

DESCRIPTION

       The file torus-2QoS.conf contains configuration information that is specific to the OpenSM
       routing engine torus-2QoS.  Blank lines and lines where the first non-whitespace character
       is  "#"  are  ignored.  A token is any contiguous group of non-whitespace characters.  Any
       tokens on a line  following  the  recognized  configuration  tokens  described  below  are
       ignored.

       [torus|mesh] x_radix[m|M|t|T] y_radix[m|M|t|T] z_radix[m|M|t|T]
              Either  torus  or mesh must be the first keyword in the configuration, and sets the
              topology that torus-2QoS will try to construct.  A 2D topology can be configured by
              specifying  one  of x_radix, y_radix, or z_radix as 1.  An individual dimension can
              be configured as mesh (open) or torus (looped) by suffixing its radix specification
              with  one  of  m, M, t, or T.  Thus, "mesh 3T 4 5" and "torus 3 4M 5M" both specify
              the same topology.

              Note that although torus-2QoS can route mesh fabrics, its ability to  route  around
              failed  components  is  severely  compromised  on  such  fabrics.   A failed fabric
              component is very  likely  to  cause  a  disjoint  ring;  see  UNICAST  ROUTING  in
              torus-2QoS(8).

       xp_link sw0_GUID sw1_GUID
       yp_link sw0_GUID sw1_GUID
       zp_link sw0_GUID sw1_GUID
       xm_link sw0_GUID sw1_GUID
       ym_link sw0_GUID sw1_GUID
       zm_link sw0_GUID sw1_GUID
              These  keywords  are  used  to seed the torus/mesh topology.  For example, "xp_link
              0x2000 0x2001" specifies that a link from the switch with node GUID 0x2000  to  the
              switch  with  node  GUID  0x2001  would  point  in  the positive x direction, while
              "xm_link 0x2000 0x2001" specifies that a link from the switch with node GUID 0x2000
              to  the  switch with node GUID 0x2001 would point in the negative x direction.  All
              the link keywords for a given seed must specify the same "from" switch.

              In general, it is not  necessary  to  configure  both  the  positive  and  negative
              directions  for  a  given coordinate; either is sufficient.  However, the algorithm
              used for topology discovery needs extra information for torus dimensions  of  radix
              four  (see  TOPOLOGY DISCOVERY in torus-2QoS(8)).  For such cases both the positive
              and negative coordinate directions must be specified.

              Based on the topology specified via the torus/mesh keyword, torus-2QoS will  detect
              and log when it has insufficient seed configuration.

       x_dateline position
       y_dateline position
       z_dateline position
              In  order for torus-2QoS to provide the guarantee that path SL values do not change
              under any conditions for which it can still route the fabric, its idea of  dateline
              position  must  not  change  relative  to  physical switch locations.  The dateline
              keywords provide the means to configure such behavior.

              The dateline for a torus dimension is always between the switch with  coordinate  0
              and  the switch with coordinate radix-1 for that dimension.  By default, the common
              switch in a torus seed is taken as the origin of  the  coordinate  system  used  to
              describe  switch location.  The position parameter for a dateline keyword moves the
              origin (and hence the dateline) the specified amount relative to the common  switch
              in a torus seed.

       next_seed
              If  any  of  the  switches  used to specify a seed were to fail torus-2QoS would be
              unable  to  complete  topology  discovery  successfully.   The  next_seed   keyword
              specifies  that  the  following  link  and  dateline  keywords  apply to a new seed
              specification.

              For maximum resiliency, no seed specification should share a switch with any  other
              seed specification.  Multiple seed specifications should use dateline configuration
              to ensure that torus-2QoS can grant path SL values that are constant, regardless of
              which seed was used to initiate topology discovery.

       portgroup_max_ports max_ports
              This  keyword specifies the maximum number of parallel inter-switch links, and also
              the maximum number of host ports per switch, that torus-2QoS can accommodate.   The
              default  value  is  16.   Torus-2QoS  will  log  an  error  message during topology
              discovery if this parameter  needs  to  be  increased.   If  this  keyword  appears
              multiple times, the last instance prevails.

              Note  that  the  switch management port (switch port 0) gets put into the same port
              group  with  the  host  ports,  so  if  you  have  16  host   ports   per   switch,
              portgroup_max_ports would need to be at least 17.

       port_order p1 p2 p3 ...
              This  keyword  specifies  the  order  in which CA ports on a destination switch are
              visited when computing routes. When the fabric  contains  switches  connected  with
              multiple  parallel  links,  routes  are distributed in a round-robin fashion across
              such links, and so changing the  order  that  CA  ports  are  visited  changes  the
              distribution  of  routes  across  such  links.   This  may be advantageous for some
              specific traffic patterns.

              The default is to visit CA ports in increasing port order on destination switches.

              Duplicate values in the list will be ignored.

       max_changes max
              This keyword specifies the maximum number of torus changes reported.   The  default
              value is 32.

EXAMPLE


       # Look for a 2D (since x radix is one) 4x5 torus.
       torus 1 4 5

       # y is radix-4 torus dimension, need both
       # ym_link and yp_link configuration.
       yp_link 0x200000 0x200005  # sw @ y=0,z=0 -> sw @ y=1,z=0
       ym_link 0x200000 0x20000f  # sw @ y=0,z=0 -> sw @ y=3,z=0

       # z is not radix-4 torus dimension, only need one of
       # zm_link or zp_link configuration.
       zp_link 0x200000 0x200001  # sw @ y=0,z=0 -> sw @ y=0,z=1

       next_seed

       yp_link 0x20000b 0x200010  # sw @ y=2,z=1 -> sw @ y=3,z=1
       ym_link 0x20000b 0x200006  # sw @ y=2,z=1 -> sw @ y=1,z=1
       zp_link 0x20000b 0x20000c  # sw @ y=2,z=1 -> sw @ y=2,z=2

       y_dateline -2  # Move the dateline for this seed
       z_dateline -1  # back to its original position.

       # If OpenSM failover is configured, for maximum resiliency
       # one instance should run on a host attached to a switch
       # from the first seed, and another instance should run
       # on a host attached to a switch from the second seed.
       # Both instances should use this torus-2QoS.conf to ensure
       # path SL values do not change in the event of SM failover.

       # port_order defines the order on which the ports would be
       # chosen for routing.
       port_order 7 10 8 11 9 12 25 28 26 29 27 30

FILES

       /etc/opensm/torus-2QoS.conf
              Default torus-2QoS config file.

SEE ALSO

       opensm(8), torus-2QoS(8).