xref: /freebsd/lib/libpmc/pmc.atomsilvermont.3 (revision 84b3c4547afa496b37e86c5e649e99237c8afc6e)
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25.\" $FreeBSD$
26.\"
27.Dd April 6, 2017
28.Dt PMC.ATOMSILVERMONT 3
29.Os
30.Sh NAME
31.Nm pmc.atomsilvermont
32.Nd measurement events for
33.Tn Intel
34.Tn Atom Silvermont
35family CPUs
36.Sh LIBRARY
37.Lb libpmc
38.Sh SYNOPSIS
39.In pmc.h
40.Sh DESCRIPTION
41.Tn Intel
42.Tn Atom Silvermont
43CPUs contain PMCs conforming to version 3 of the
44.Tn Intel
45performance measurement architecture.
46These CPUs contains two classes of PMCs:
47.Bl -tag -width "Li PMC_CLASS_IAP"
48.It Li PMC_CLASS_IAF
49Fixed-function counters that count only one hardware event per counter.
50.It Li PMC_CLASS_IAP
51Programmable counters that may be configured to count one of a defined
52set of hardware events.
53.El
54.Pp
55The number of PMCs available in each class and their widths need to be
56determined at run time by calling
57.Xr pmc_cpuinfo 3 .
58.Pp
59Intel Atom Silvermont PMCs are documented in
60.Rs
61.%B "Intel 64 and IA-32 Intel(R) Architecture Software Developer's Manual"
62.%T "Combined Volumes"
63.%N "Order Number 325462-050US"
64.%D February 2014
65.%Q "Intel Corporation"
66.Re
67.Ss ATOM SILVERMONT FIXED FUNCTION PMCS
68These PMCs and their supported events are documented in
69.Xr pmc.iaf 3 .
70.Ss ATOM SILVERMONT PROGRAMMABLE PMCS
71The programmable PMCs support the following capabilities:
72.Bl -column "PMC_CAP_INTERRUPT" "Support"
73.It Em Capability Ta Em Support
74.It PMC_CAP_CASCADE Ta \&No
75.It PMC_CAP_EDGE Ta Yes
76.It PMC_CAP_INTERRUPT Ta Yes
77.It PMC_CAP_INVERT Ta Yes
78.It PMC_CAP_READ Ta Yes
79.It PMC_CAP_PRECISE Ta \&No
80.It PMC_CAP_SYSTEM Ta Yes
81.It PMC_CAP_TAGGING Ta \&No
82.It PMC_CAP_THRESHOLD Ta Yes
83.It PMC_CAP_USER Ta Yes
84.It PMC_CAP_WRITE Ta Yes
85.El
86.Ss Event Qualifiers
87Event specifiers for these PMCs support the following common
88qualifiers:
89.Bl -tag -width indent
90.It Li any
91Count matching events seen on any logical processor in a package.
92.It Li cmask= Ns Ar value
93Configure the PMC to increment only if the number of configured
94events measured in a cycle is greater than or equal to
95.Ar value .
96.It Li edge
97Configure the PMC to count the number of de-asserted to asserted
98transitions of the conditions expressed by the other qualifiers.
99If specified, the counter will increment only once whenever a
100condition becomes true, irrespective of the number of clocks during
101which the condition remains true.
102.It Li inv
103Invert the sense of comparison when the
104.Dq Li cmask
105qualifier is present, making the counter increment when the number of
106events per cycle is less than the value specified by the
107.Dq Li cmask
108qualifier.
109.It Li os
110Configure the PMC to count events happening at processor privilege
111level 0.
112.It Li usr
113Configure the PMC to count events occurring at privilege levels 1, 2
114or 3.
115.El
116.Pp
117If neither of the
118.Dq Li os
119or
120.Dq Li usr
121qualifiers are specified, the default is to enable both.
122.Pp
123Events that require core-specificity to be specified use a
124additional qualifier
125.Dq Li core= Ns Ar core ,
126where argument
127.Ar core
128is one of:
129.Bl -tag -width indent
130.It Li all
131Measure event conditions on all cores.
132.It Li this
133Measure event conditions on this core.
134.El
135.Pp
136The default is
137.Dq Li this .
138.Pp
139Events that require an agent qualifier to be specified use an
140additional qualifier
141.Dq Li agent= Ns agent ,
142where argument
143.Ar agent
144is one of:
145.Bl -tag -width indent
146.It Li this
147Measure events associated with this bus agent.
148.It Li any
149Measure events caused by any bus agent.
150.El
151.Pp
152The default is
153.Dq Li this .
154.Pp
155Events that require a hardware prefetch qualifier to be specified use an
156additional qualifier
157.Dq Li prefetch= Ns Ar prefetch ,
158where argument
159.Ar prefetch
160is one of:
161.Bl -tag -width "exclude"
162.It Li both
163Include all prefetches.
164.It Li only
165Only count hardware prefetches.
166.It Li exclude
167Exclude hardware prefetches.
168.El
169.Pp
170The default is
171.Dq Li both .
172.Pp
173Events that require a cache coherence qualifier to be specified use an
174additional qualifier
175.Dq Li cachestate= Ns Ar state ,
176where argument
177.Ar state
178contains one or more of the following letters:
179.Bl -tag -width indent
180.It Li e
181Count cache lines in the exclusive state.
182.It Li i
183Count cache lines in the invalid state.
184.It Li m
185Count cache lines in the modified state.
186.It Li s
187Count cache lines in the shared state.
188.El
189.Pp
190The default is
191.Dq Li eims .
192.Pp
193Events that require a snoop response qualifier to be specified use an
194additional qualifier
195.Dq Li snoopresponse= Ns Ar response ,
196where argument
197.Ar response
198comprises of the following keywords separated by
199.Dq +
200signs:
201.Bl -tag -width indent
202.It Li clean
203Measure CLEAN responses.
204.It Li hit
205Measure HIT responses.
206.It Li hitm
207Measure HITM responses.
208.El
209.Pp
210The default is to measure all the above responses.
211.Pp
212Events that require a snoop type qualifier use an additional qualifier
213.Dq Li snooptype= Ns Ar type ,
214where argument
215.Ar type
216comprises the one of the following keywords:
217.Bl -tag -width indent
218.It Li cmp2i
219Measure CMP2I snoops.
220.It Li cmp2s
221Measure CMP2S snoops.
222.El
223.Pp
224The default is to measure both snoops.
225.Ss Event Specifiers (Programmable PMCs)
226Atom Silvermont programmable PMCs support the following events:
227.Bl -tag -width indent
228.It Li REHABQ.LD_BLOCK_ST_FORWARD
229.Pq Event 03H , Umask 01H
230The number of retired loads that were
231prohibited from receiving forwarded data from the store
232because of address mismatch.
233.It Li REHABQ.LD_BLOCK_STD_NOTREADY
234.Pq Event 03H , Umask 02H
235The cases where a forward was technically possible,
236but did not occur because the store data was not available
237at the right time.
238.It Li REHABQ.ST_SPLITS
239.Pq Event 03H , Umask 04H
240The number of retire stores that experienced.
241cache line boundary splits.
242.It Li REHABQ.LD_SPLITS
243.Pq Event 03H , Umask 08H
244The number of retire loads that experienced.
245cache line boundary splits.
246.It Li REHABQ.LOCK
247.Pq Event 03H , Umask 10H
248The number of retired memory operations with lock semantics.
249These are either implicit locked instructions such as the
250XCHG instruction or instructions with an explicit LOCK
251prefix (0xF0).
252.It Li REHABQ.STA_FULL
253.Pq Event 03H , Umask 20H
254The number of retired stores that are delayed
255because there is not a store address buffer available.
256.It Li REHABQ.ANY_LD
257.Pq Event 03H , Umask 40H
258The number of load uops reissued from Rehabq.
259.It Li REHABQ.ANY_ST
260.Pq Event 03H , Umask 80H
261The number of store uops reissued from Rehabq.
262.It Li MEM_UOPS_RETIRED.L1_MISS_LOADS
263.Pq Event 04H , Umask 01H
264The number of load ops retired that miss in L1
265Data cache.
266Note that prefetch misses will not be counted.
267.It Li MEM_UOPS_RETIRED.L2_HIT_LOADS
268.Pq Event 04H , Umask 02H
269The number of load micro-ops retired that hit L2.
270.It Li MEM_UOPS_RETIRED.L2_MISS_LOADS
271.Pq Event 04H , Umask 04H
272The number of load micro-ops retired that missed L2.
273.It Li MEM_UOPS_RETIRED.DTLB_MISS_LOADS
274.Pq Event 04H , Umask 08H
275The number of load ops retired that had DTLB miss.
276.It Li MEM_UOPS_RETIRED.UTLB_MISS
277.Pq Event 04H , Umask 10H
278The number of load ops retired that had UTLB miss.
279.It Li MEM_UOPS_RETIRED.HITM
280.Pq Event 04H , Umask 20H
281The number of load ops retired that got data
282from the other core or from the other module.
283.It Li MEM_UOPS_RETIRED.ALL_LOADS
284.Pq Event 04H , Umask 40H
285The number of load ops retired.
286.It Li MEM_UOP_RETIRED.ALL_STORES
287.Pq Event 04H , Umask 80H
288The number of store ops retired.
289.It Li PAGE_WALKS.D_SIDE_CYCLES
290.Pq Event 05H , Umask 01H
291Every cycle when a D-side (walks due to a load) page walk is in progress.
292Page walk duration divided by number of page walks is the average duration of
293page-walks.
294Edge trigger bit must be cleared.
295Set Edge to count the number of page walks.
296.It Li PAGE_WALKS.I_SIDE_CYCLES
297.Pq Event 05H , Umask 02H
298Every cycle when a I-side (walks due to an instruction fetch) page walk is in
299progress.
300Page walk duration divided by number of page walks is the average duration of
301page-walks.
302.It Li PAGE_WALKS.WALKS
303.Pq Event 05H , Umask 03H
304The number of times a data (D) page walk or an instruction (I) page walk is
305completed or started.
306Since a page walk implies a TLB miss, the number of TLB misses can be counted
307by counting the number of pagewalks.
308.It Li LONGEST_LAT_CACHE.MISS
309.Pq Event 2EH , Umask 41H
310the total number of L2 cache references and the number of L2 cache misses
311respectively.
312L3 is not supported in Silvermont microarchitecture.
313.It Li LONGEST_LAT_CACHE.REFERENCE
314.Pq Event 2EH , Umask 4FH
315The number of requests originating from the core that
316references a cache line in the L2 cache.
317L3 is not supported in Silvermont microarchitecture.
318.It Li L2_REJECT_XQ.ALL
319.Pq Event 30H , Umask 00H
320The number of demand and prefetch
321transactions that the L2 XQ rejects due to a full or near full
322condition which likely indicates back pressure from the IDI link.
323The XQ may reject transactions from the L2Q (non-cacheable
324requests), BBS (L2 misses) and WOB (L2 write-back victims)
325.It Li CORE_REJECT_L2Q.ALL
326.Pq Event 31H , Umask 00H
327The number of demand and L1 prefetcher
328requests rejected by the L2Q due to a full or nearly full condition which
329likely indicates back pressure from L2Q.
330It also counts requests that would have gone directly to the XQ, but are
331rejected due to a full or nearly full condition, indicating back pressure from
332the IDI link.
333The L2Q may also reject transactions from a core to insure fairness between
334cores, or to delay a core's dirty eviction when the address conflicts incoming
335external snoops.
336(Note that L2 prefetcher requests that are dropped are not counted by this
337event).
338.It Li CPU_CLK_UNHALTED.CORE_P
339.Pq Event 3CH , Umask 00H
340The number of core cycles while the core is not in a halt state.
341The core enters the halt state when it is running the HLT instruction.
342In mobile systems the core frequency may change from time to time.
343For this reason this event may have a changing ratio with regards to time.
344.It Li CPU_CLK_UNHALTED.REF_P
345.Pq Event 3CH , Umask 01H
346The number of reference cycles that the core is not in a halt state.
347The core enters the halt state when it is running the HLT instruction.
348In mobile systems the core frequency may change from time.
349This event is not affected by core frequency changes but counts as if the core
350is running at the maximum frequency all the time.
351.It Li ICACHE.HIT
352.Pq Event 80H , Umask 01H
353The number of instruction fetches from the instruction cache.
354.It Li ICACHE.MISSES
355.Pq Event 80H , Umask 02H
356The number of instruction fetches that miss the Instruction cache or produce
357memory requests.
358This includes uncacheable fetches.
359An instruction fetch miss is counted only once and not once for every cycle
360it is outstanding.
361.It Li ICACHE.ACCESSES
362.Pq Event 80H , Umask 03H
363The number of instruction fetches, including uncacheable fetches.
364.It Li NIP_STALL.ICACHE_MISS
365.Pq Event B6H , Umask 04H
366The number of cycles the NIP stalls because of an icache miss.
367This is a cumulative count of cycles the NIP stalled for all
368icache misses.
369.It Li OFFCORE_RESPONSE_0
370.Pq Event B7H , Umask 01H
371Requires MSR_OFFCORE_RESP0 to specify request type and response.
372.It Li OFFCORE_RESPONSE_1
373.Pq Event B7H , Umask 02H
374Requires MSR_OFFCORE_RESP  to specify request type and response.
375.It Li INST_RETIRED.ANY_P
376.Pq Event C0H , Umask 00H
377The number of instructions that retire execution.
378For instructions that consist of multiple micro-ops, this event counts the
379retirement of the last micro-op of the instruction.
380The counter continues counting during hardware interrupts, traps, and inside
381interrupt handlers.
382.It Li UOPS_RETIRED.MS
383.Pq Event C2H , Umask 01H
384The number of micro-ops retired that were supplied from MSROM.
385.It Li UOPS_RETIRED.ALL
386.Pq Event C2H , Umask 10H
387The number of micro-ops retired.
388.It Li MACHINE_CLEARS.SMC
389.Pq Event C3H , Umask 01H
390The number of times that a program writes to a code section.
391Self-modifying code causes a severe penalty in all Intel
392architecture processors.
393.It Li MACHINE_CLEARS.MEMORY_ORDERING
394.Pq Event C3H , Umask 02H
395The number of times that pipeline was cleared due to memory
396ordering issues.
397.It Li MACHINE_CLEARS.FP_ASSIST
398.Pq Event C3H , Umask 04H
399The number of times that pipeline stalled due to FP operations
400needing assists.
401.It Li MACHINE_CLEARS.ALL
402.Pq Event C3H , Umask 08H
403The number of times that pipeline stalled due to due to any causes
404(including SMC, MO, FP assist, etc).
405.It Li BR_INST_RETIRED.ALL_BRANCHES
406.Pq Event C4H , Umask 00H
407The number of branch instructions retired.
408.It Li BR_INST_RETIRED.JCC
409.Pq Event C4H , Umask 7EH
410The number of branch instructions retired that were conditional
411jumps.
412.It Li BR_INST_RETIRED.FAR_BRANCH
413.Pq Event C4H , Umask BFH
414The number of far branch instructions retired.
415.It Li BR_INST_RETIRED.NON_RETURN_IND
416.Pq Event C4H , Umask EBH
417The number of branch instructions retired that were near indirect
418call or near indirect jmp.
419.It Li BR_INST_RETIRED.RETURN
420.Pq Event C4H , Umask F7H
421The number of near RET branch instructions retired.
422.It Li BR_INST_RETIRED.CALL
423.Pq Event C4H , Umask F9H
424The number of near CALL branch instructions retired.
425.It Li BR_INST_RETIRED.IND_CALL
426.Pq Event C4H , Umask FBH
427The number of near indirect CALL branch instructions retired.
428.It Li BR_INST_RETIRED.REL_CALL
429.Pq Event C4H , Umask FDH
430The number of near relative CALL branch instructions retired.
431.It Li BR_INST_RETIRED.TAKEN_JCC
432.Pq Event C4H , Umask FEH
433The number of branch instructions retired that were conditional
434jumps and predicted taken.
435.It Li BR_MISP_RETIRED.ALL_BRANCHES
436.Pq Event C5H , Umask 00H
437The number of mispredicted branch instructions retired.
438.It Li BR_MISP_RETIRED.JCC
439.Pq Event C5H , Umask 7EH
440The number of mispredicted branch instructions retired that were
441conditional jumps.
442.It Li BR_MISP_RETIRED.FAR
443.Pq Event C5H , Umask BFH
444The number of mispredicted far branch instructions retired.
445.It Li BR_MISP_RETIRED.NON_RETURN_IND
446.Pq Event C5H , Umask EBH
447The number of mispredicted branch instructions retired that were
448near indirect call or near indirect jmp.
449.It Li BR_MISP_RETIRED.RETURN
450.Pq Event C5H , Umask F7H
451The number of mispredicted near RET branch instructions retired.
452.It Li BR_MISP_RETIRED.CALL
453.Pq Event C5H , Umask F9H
454The number of mispredicted near CALL branch instructions retired.
455.It Li BR_MISP_RETIRED.IND_CALL
456.Pq Event C5H , Umask FBH
457The number of mispredicted near indirect CALL branch instructions
458retired.
459.It Li BR_MISP_RETIRED.REL_CALL
460.Pq Event C5H , Umask FDH
461The number of mispredicted near relative CALL branch instructions
462retired.
463.It Li BR_MISP_RETIRED.TAKEN_JCC
464.Pq Event C5H , Umask FEH
465The number of mispredicted branch instructions retired that were
466conditional jumps and predicted taken.
467.It Li NO_ALLOC_CYCLES.ROB_FULL
468.Pq Event CAH , Umask 01H
469The number of cycles when no uops are allocated and the ROB is full
470(less than 2 entries available).
471.It Li NO_ALLOC_CYCLES.RAT_STALL
472.Pq Event CAH , Umask 20H
473The number of cycles when no uops are allocated and a RATstall is
474asserted.
475.It Li NO_ALLOC_CYCLES.ALL
476.Pq Event CAH , Umask 3FH
477The number of cycles when the front-end does not provide any
478instructions to be allocated for any reason.
479.It Li NO_ALLOC_CYCLES.NOT_DELIVERED
480.Pq Event CAH , Umask 50H
481The number of cycles when the front-end does not provide any
482instructions to be allocated but the back end is not stalled.
483.It Li RS_FULL_STALL.MEC
484.Pq Event CBH , Umask 01H
485The number of cycles the allocation pipe line stalled due to
486the RS for the MEC cluster is full.
487.It Li RS_FULL_STALL.ALL
488.Pq Event CBH , Umask 1FH
489The number of cycles that the allocation pipe line stalled due
490to any one of the RS is full.
491.It Li CYCLES_DIV_BUSY.ANY
492.Pq Event CDH , Umask 01H
493The number of cycles the divider is busy.
494.It Li BACLEARS.ALL
495.Pq Event E6H , Umask 01H
496The number of baclears for any type of branch.
497.It Li BACLEARS.RETURN
498.Pq Event E6H , Umask 08H
499The number of baclears for return branches.
500.It Li BACLEARS.COND
501.Pq Event E6H , Umask 10H
502The number of baclears for conditional branches.
503.It Li MS_DECODED.MS_ENTRY
504.Pq Event E7H , Umask 01H)
505The number of times the MSROM starts a flow of UOPS.
506.El
507.Sh SEE ALSO
508.Xr pmc 3 ,
509.Xr pmc.atom 3 ,
510.Xr pmc.core 3 ,
511.Xr pmc.core2 3 ,
512.Xr pmc.iaf 3 ,
513.Xr pmc.k7 3 ,
514.Xr pmc.k8 3 ,
515.Xr pmc.p4 3 ,
516.Xr pmc.p5 3 ,
517.Xr pmc.p6 3 ,
518.Xr pmc.soft 3 ,
519.Xr pmc.tsc 3 ,
520.Xr pmc_cpuinfo 3 ,
521.Xr pmclog 3 ,
522.Xr hwpmc 4
523.Sh HISTORY
524The
525.Nm pmc
526library first appeared in
527.Fx 6.0 .
528.Sh AUTHORS
529.An -nosplit
530The
531.Lb libpmc
532library was written by
533.An Joseph Koshy Aq Mt jkoshy@FreeBSD.org .
534The support for the Atom Silvermont
535microarchitecture was written by
536.An Hiren Panchasara Aq Mt hiren@FreeBSD.org .
537