[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] [PATCH v9 13/13] docs: add xl-psr.markdown
Add document to introduce basic concepts and terms in PSR family technologies and the xl interfaces. Signed-off-by: Chao Peng <chao.p.peng@xxxxxxxxxxxxxxx> Acked-by: Ian Campbell <ian.campbell@xxxxxxxxxx> --- Changes in v7: * Correct 'xl psr-hwinfo'. Changes in v6: * Address comments from Ian. Changes in v5: * Address comments from Andrew/Ian. --- docs/man/xl.pod.1 | 7 ++- docs/misc/xl-psr.markdown | 133 ++++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 139 insertions(+), 1 deletion(-) create mode 100644 docs/misc/xl-psr.markdown diff --git a/docs/man/xl.pod.1 b/docs/man/xl.pod.1 index d77ce77..45600e8 100644 --- a/docs/man/xl.pod.1 +++ b/docs/man/xl.pod.1 @@ -1490,6 +1490,9 @@ Intel Haswell and later server platforms offer shared resource monitoring and control technologies. The availability of these technologies and the hardware capabilities can be shown with B<psr-hwinfo>. +See L<http://xenbits.xen.org/docs/unstable/misc/xl-psr.html> for more +information. + =over 4 =item B<psr-hwinfo> [I<OPTIONS>] @@ -1573,7 +1576,8 @@ on VM basis. To enforce cache on a specific domain, just set capacity bitmasks =item B<psr-cat-cbm-set> [I<OPTIONS>] I<domain-id> I<cbm> -Set cache capacity bitmasks(CBM) for a domain. +Set cache capacity bitmasks(CBM) for a domain. For how to specify I<cbm> +please refer to L<http://xenbits.xen.org/docs/unstable/misc/xl-psr.html>. B<OPTIONS> @@ -1614,6 +1618,7 @@ And the following documents on the xen.org website: L<http://xenbits.xen.org/docs/unstable/misc/xl-network-configuration.html> L<http://xenbits.xen.org/docs/unstable/misc/xl-disk-configuration.txt> L<http://xenbits.xen.org/docs/unstable/misc/xsm-flask.txt> +L<http://xenbits.xen.org/docs/unstable/misc/xl-psr.html> For systems that don't automatically bring CPU online: diff --git a/docs/misc/xl-psr.markdown b/docs/misc/xl-psr.markdown new file mode 100644 index 0000000..3545912 --- /dev/null +++ b/docs/misc/xl-psr.markdown @@ -0,0 +1,133 @@ +# Intel Platform Shared Resource Monitoring/Control in xl + +This document introduces Intel Platform Shared Resource Monitoring/Control +technologies, their basic concepts and the xl interfaces. + +## Cache Monitoring Technology (CMT) + +Cache Monitoring Technology (CMT) is a new feature available on Intel Haswell +and later server platforms that allows an OS or Hypervisor/VMM to determine +the usage of cache (currently only L3 cache supported) by applications running +on the platform. A Resource Monitoring ID (RMID) is the abstraction of the +application(s) that will be monitored for its cache usage. The CMT hardware +tracks cache utilization of memory accesses according to the RMID and reports +monitored data via a counter register. + +For more detailed information please refer to Intel SDM chapter +"17.14 - Platform Shared Resource Monitoring: Cache Monitoring Technology". + +In Xen's implementation, each domain in the system can be assigned a RMID +independently, while RMID=0 is reserved for monitoring domains that don't +have CMT service attached. RMID is opaque for xl/libxl and is only used in +hypervisor. + +### xl interfaces + +A domain is assigned a RMID implicitly by attaching it to CMT service: + +`xl psr-cmt-attach <domid>` + +After that, cache usage for the domain can be shown by: + +`xl psr-cmt-show cache-occupancy <domid>` + +Once monitoring is not needed any more, the domain can be detached from the +CMT service by: + +`xl psr-cmt-detach <domid>` + +An attach may fail because of no free RMID available. In such case unused +RMID(s) can be freed by detaching corresponding domains from CMT service. + +Maximum RMID and supported monitor types in the system can be obtained by: + +`xl psr-hwinfo --cmt` + +## Memory Bandwidth Monitoring (MBM) + +Memory Bandwidth Monitoring(MBM) is a new hardware feature available on Intel +Broadwell and later server platforms which builds on the CMT infrastructure to +allow monitoring of system memory bandwidth. It introduces two new monitoring +event type to monitor system total/local memory bandwidth. The same RMID can +be used to monitor both cache usage and memory bandwidth at the same time. + +For more detailed information please refer to Intel SDM chapter +"17.14 - Platform Shared Resource Monitoring: Cache Monitoring Technology". + +In Xen's implementation, MBM shares the same set of underlying monitoring +service with CMT and can be used to monitor memory bandwidth on a per domain +basis. + +The xl interfaces are the same with that of CMT. The difference is the +monitor type is corresponding memory monitoring type (local-mem-bandwidth/ +total-mem-bandwidth instead of cache-occupancy). E.g. after a `xl psr-cmt-attach`: + +`xl psr-cmt-show local-mem-bandwidth <domid>` + +`xl psr-cmt-show total-mem-bandwidth <domid>` + +## Cache Allocation Technology (CAT) + +Cache Allocation Technology (CAT) is a new feature available on Intel +Broadwell and later server platforms that allows an OS or Hypervisor/VMM to +partition cache allocation (i.e. L3 cache) based on application priority or +Class of Service (COS). Each COS is configured using capacity bitmasks (CBM) +which represent cache capacity and indicate the degree of overlap and +isolation between classes. System cache resource is divided into numbers of +minimum portions which is then made up into subset for cache partition. Each +portion corresponds to a bit in CBM and the set bit represents the +corresponding cache portion is available. + +For example, assuming a system with 8 portions and 3 domains: + + * A CBM of 0xff for every domain means each domain can access the whole cache. + This is the default. + + * Giving one domain a CBM of 0x0f and the other two domain's 0xf0 means that + the first domain gets exclusive access to half of the cache (half of the + portions) and the other two will share the other half. + + * Giving one domain a CBM of 0x0f, one 0x30 and the last 0xc0 would give the + first domain exclusive access to half the cache, and the other two exclusive + access to one quarter each. + +For more detailed information please refer to Intel SDM chapter +"17.15 - Platform Shared Resource Control: Cache Allocation Technology". + +In Xen's implementation, CBM can be configured with libxl/xl interfaces but +COS is maintained in hypervisor only. The cache partition granularity is per +domain, each domain has COS=0 assigned by default, the corresponding CBM is +all-ones, which means all the cache resource can be used by default. + +### xl interfaces + +System CAT information such as maximum COS and CBM length can be obtained by: + +`xl psr-hwinfo --cat` + +The simplest way to change a domain's CBM from its default is running: + +`xl psr-cat-cbm-set [OPTIONS] <domid> <cbm>` + +where cbm is a number to represent the corresponding cache subset can be used. +A cbm is valid only when: + + * Set bits only exist in the range of [0, cbm_len), where cbm_len can be + obtained with `xl psr-hwinfo --cat`. + * All the set bits are contiguous. + +In a multi-socket system, the same cbm will be set on each socket by default. +Per socket cbm can be specified with the `--socket SOCKET` option. + +Setting the CBM may not be successful if insufficient COS is available. In +such case unused COS(es) may be freed by setting CBM of all related domains to +its default value(all-ones). + +Per domain CBM settings can be shown by: + +`xl psr-cat-show` + +## Reference + +[1] Intel SDM +(http://www.intel.com/content/www/us/en/processors/architectures-software-developer-manuals.html). -- 1.9.1 _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxx http://lists.xen.org/xen-devel
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