xref: /freebsd/lib/libpmc/pmc.corei7uc.3 (revision 0b3105a37d7adcadcb720112fed4dc4e8040be99)
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24.\" $FreeBSD$
25.\"
26.Dd March 24, 2010
27.Dt PMC.COREI7UC 3
28.Os
29.Sh NAME
30.Nm pmc.corei7uc
31.Nd uncore measurement events for
32.Tn Intel
33.Tn Core i7 and Xeon 5500
34family CPUs
35.Sh LIBRARY
36.Lb libpmc
37.Sh SYNOPSIS
38.In pmc.h
39.Sh DESCRIPTION
40.Tn Intel
41.Tn "Core i7"
42CPUs contain PMCs conforming to version 2 of the
43.Tn Intel
44performance measurement architecture.
45These CPUs contain 2 classes of PMCs:
46.Bl -tag -width "Li PMC_CLASS_UCP"
47.It Li PMC_CLASS_UCF
48Fixed-function counters that count only one hardware event per counter.
49.It Li PMC_CLASS_UCP
50Programmable counters that may be configured to count one of a defined
51set of hardware events.
52.El
53.Pp
54The number of PMCs available in each class and their widths need to be
55determined at run time by calling
56.Xr pmc_cpuinfo 3 .
57.Pp
58Intel Core i7 and Xeon 5500 PMCs are documented in
59.Rs
60.%B "Intel(R) 64 and IA-32 Architectures Software Developes Manual"
61.%T "Volume 3B: System Programming Guide, Part 2"
62.%N "Order Number: 253669-033US"
63.%D December 2009
64.%Q "Intel Corporation"
65.Re
66.Ss COREI7 AND XEON 5500 UNCORE FIXED FUNCTION PMCS
67These PMCs and their supported events are documented in
68.Xr pmc.ucf 3 .
69.Ss COREI7 AND XEON 5500 UNCORE PROGRAMMABLE PMCS
70The programmable PMCs support the following capabilities:
71.Bl -column "PMC_CAP_INTERRUPT" "Support"
72.It Em Capability Ta Em Support
73.It PMC_CAP_CASCADE Ta \&No
74.It PMC_CAP_EDGE Ta Yes
75.It PMC_CAP_INTERRUPT Ta \&No
76.It PMC_CAP_INVERT Ta Yes
77.It PMC_CAP_READ Ta Yes
78.It PMC_CAP_PRECISE Ta \&No
79.It PMC_CAP_SYSTEM Ta \&No
80.It PMC_CAP_TAGGING Ta \&No
81.It PMC_CAP_THRESHOLD Ta Yes
82.It PMC_CAP_USER Ta \&No
83.It PMC_CAP_WRITE Ta Yes
84.El
85.Ss Event Qualifiers
86Event specifiers for these PMCs support the following common
87qualifiers:
88.Bl -tag -width indent
89.It Li cmask= Ns Ar value
90Configure the PMC to increment only if the number of configured
91events measured in a cycle is greater than or equal to
92.Ar value .
93.It Li edge
94Configure the PMC to count the number of de-asserted to asserted
95transitions of the conditions expressed by the other qualifiers.
96If specified, the counter will increment only once whenever a
97condition becomes true, irrespective of the number of clocks during
98which the condition remains true.
99.It Li inv
100Invert the sense of comparison when the
101.Dq Li cmask
102qualifier is present, making the counter increment when the number of
103events per cycle is less than the value specified by the
104.Dq Li cmask
105qualifier.
106.El
107.Ss Event Specifiers (Programmable PMCs)
108Core i7 and Xeon 5500 uncore programmable PMCs support the following events:
109.Bl -tag -width indent
110.It Li GQ_CYCLES_FULL.READ_TRACKER
111.Pq Event 00H , Umask 01H
112Uncore cycles Global Queue read tracker is full.
113.It Li GQ_CYCLES_FULL.WRITE_TRACKER
114.Pq Event 00H , Umask 02H
115Uncore cycles Global Queue write tracker is full.
116.It Li GQ_CYCLES_FULL.PEER_PROBE_TRACKER
117.Pq Event 00H , Umask 04H
118Uncore cycles Global Queue peer probe tracker is full. The peer probe
119tracker queue tracks snoops from the IOH and remote sockets.
120.It Li GQ_CYCLES_NOT_EMPTY.READ_TRACKER
121.Pq Event 01H , Umask 01H
122Uncore cycles were Global Queue read tracker has at least one valid entry.
123.It Li GQ_CYCLES_NOT_EMPTY.WRITE_TRACKER
124.Pq Event 01H , Umask 02H
125Uncore cycles were Global Queue write tracker has at least one valid entry.
126.It Li GQ_CYCLES_NOT_EMPTY.PEER_PROBE_TRACKER
127.Pq Event 01H , Umask 04H
128Uncore cycles were Global Queue peer probe tracker has at least one valid
129entry. The peer probe tracker queue tracks IOH and remote socket snoops.
130.It Li GQ_ALLOC.READ_TRACKER
131.Pq Event 03H , Umask 01H
132Counts the number of tread tracker allocate to deallocate entries. The GQ
133read tracker allocate to deallocate occupancy count is divided by the count
134to obtain the average read tracker latency.
135.It Li GQ_ALLOC.RT_L3_MISS
136.Pq Event 03H , Umask 02H
137Counts the number GQ read tracker entries for which a full cache line read
138has missed the L3. The GQ read tracker L3 miss to fill occupancy count is
139divided by this count to obtain the average cache line read L3 miss latency.
140The latency represents the time after which the L3 has determined that the
141cache line has missed. The time between a GQ read tracker allocation and the
142L3 determining that the cache line has missed is the average L3 hit latency.
143The total L3 cache line read miss latency is the hit latency + L3 miss
144latency.
145.It Li GQ_ALLOC.RT_TO_L3_RESP
146.Pq Event 03H , Umask 04H
147Counts the number of GQ read tracker entries that are allocated in the read
148tracker queue that hit or miss the L3. The GQ read tracker L3 hit occupancy
149count is divided by this count to obtain the average L3 hit latency.
150.It Li GQ_ALLOC.RT_TO_RTID_ACQUIRED
151.Pq Event 03H , Umask 08H
152Counts the number of GQ read tracker entries that are allocated in the read
153tracker, have missed in the L3 and have not acquired a Request Transaction
154ID. The GQ read tracker L3 miss to RTID acquired occupancy count is
155divided by this count to obtain the average latency for a read L3 miss to
156acquire an RTID.
157.It Li GQ_ALLOC.WT_TO_RTID_ACQUIRED
158.Pq Event 03H , Umask 10H
159Counts the number of GQ write tracker entries that are allocated in the
160write tracker, have missed in the L3 and have not acquired a Request
161Transaction ID. The GQ write tracker L3 miss to RTID occupancy count is
162divided by this count to obtain the average latency for a write L3 miss to
163acquire an RTID.
164.It Li GQ_ALLOC.WRITE_TRACKER
165.Pq Event 03H , Umask 20H
166Counts the number of GQ write tracker entries that are allocated in the
167write tracker queue that miss the L3. The GQ write tracker occupancy count
168is divided by the this count to obtain the average L3 write miss latency.
169.It Li GQ_ALLOC.PEER_PROBE_TRACKER
170.Pq Event 03H , Umask 40H
171Counts the number of GQ peer probe tracker (snoop) entries that are
172allocated in the peer probe tracker queue that miss the L3. The GQ peer
173probe occupancy count is divided by this count to obtain the average L3 peer
174probe miss latency.
175.It Li GQ_DATA.FROM_QPI
176.Pq Event 04H , Umask 01H
177Cycles Global Queue Quickpath Interface input data port is busy importing
178data from the Quickpath Interface. Each cycle the input port can transfer 8
179or 16 bytes of data.
180.It Li GQ_DATA.FROM_QMC
181.Pq Event 04H , Umask 02H
182Cycles Global Queue Quickpath Memory Interface input data port is busy
183importing data from the Quickpath Memory Interface. Each cycle the input
184port can transfer 8 or 16 bytes of data.
185.It Li GQ_DATA.FROM_L3
186.Pq Event 04H , Umask 04H
187Cycles GQ L3 input data port is busy importing data from the Last Level
188Cache. Each cycle the input port can transfer 32 bytes of data.
189.It Li GQ_DATA.FROM_CORES_02
190.Pq Event 04H , Umask 08H
191Cycles GQ Core 0 and 2 input data port is busy importing data from processor
192cores 0 and 2. Each cycle the input port can transfer 32 bytes of data.
193.It Li GQ_DATA.FROM_CORES_13
194.Pq Event 04H , Umask 10H
195Cycles GQ Core 1 and 3 input data port is busy importing data from processor
196cores 1 and 3. Each cycle the input port can transfer 32 bytes of data.
197.It Li GQ_DATA.TO_QPI_QMC
198.Pq Event 05H , Umask 01H
199Cycles GQ QPI and QMC output data port is busy sending data to the Quickpath
200Interface or Quickpath Memory Interface. Each cycle the output port can
201transfer 32 bytes of data.
202.It Li GQ_DATA.TO_L3
203.Pq Event 05H , Umask 02H
204Cycles GQ L3 output data port is busy sending data to the Last Level Cache.
205Each cycle the output port can transfer 32 bytes of data.
206.It Li GQ_DATA.TO_CORES
207.Pq Event 05H , Umask 04H
208Cycles GQ Core output data port is busy sending data to the Cores. Each
209cycle the output port can transfer 32 bytes of data.
210.It Li SNP_RESP_TO_LOCAL_HOME.I_STATE
211.Pq Event 06H , Umask 01H
212Number of snoop responses to the local home that L3 does not have the
213referenced cache line.
214.It Li SNP_RESP_TO_LOCAL_HOME.S_STATE
215.Pq Event 06H , Umask 02H
216Number of snoop responses to the local home that L3 has the referenced line
217cached in the S state.
218.It Li SNP_RESP_TO_LOCAL_HOME.FWD_S_STATE
219.Pq Event 06H , Umask 04H
220Number of responses to code or data read snoops to the local home that the
221L3 has the referenced cache line in the E state. The L3 cache line state is
222changed to the S state and the line is forwarded to the local home in the S
223state.
224.It Li SNP_RESP_TO_LOCAL_HOME.FWD_I_STATE
225.Pq Event 06H , Umask 08H
226Number of responses to read invalidate snoops to the local home that the L3
227has the referenced cache line in the M state. The L3 cache line state is
228invalidated and the line is forwarded to the local home in the M state.
229.It Li SNP_RESP_TO_LOCAL_HOME.CONFLICT
230.Pq Event 06H , Umask 10H
231Number of conflict snoop responses sent to the local home.
232.It Li SNP_RESP_TO_LOCAL_HOME.WB
233.Pq Event 06H , Umask 20H
234Number of responses to code or data read snoops to the local home that the
235L3 has the referenced line cached in the M state.
236.It Li SNP_RESP_TO_REMOTE_HOME.I_STATE
237.Pq Event 07H , Umask 01H
238Number of snoop responses to a remote home that L3 does not have the
239referenced cache line.
240.It Li SNP_RESP_TO_REMOTE_HOME.S_STATE
241.Pq Event 07H , Umask 02H
242Number of snoop responses to a remote home that L3 has the referenced line
243cached in the S state.
244.It Li SNP_RESP_TO_REMOTE_HOME.FWD_S_STATE
245.Pq Event 07H , Umask 04H
246Number of responses to code or data read snoops to a remote home that the L3
247has the referenced cache line in the E state. The L3 cache line state is
248changed to the S state and the line is forwarded to the remote home in the S
249state.
250.It Li SNP_RESP_TO_REMOTE_HOME.FWD_I_STATE
251.Pq Event 07H , Umask 08H
252Number of responses to read invalidate snoops to a remote home that the L3
253has the referenced cache line in the M state. The L3 cache line state is
254invalidated and the line is forwarded to the remote home in the M state.
255.It Li SNP_RESP_TO_REMOTE_HOME.CONFLICT
256.Pq Event 07H , Umask 10H
257Number of conflict snoop responses sent to the local home.
258.It Li SNP_RESP_TO_REMOTE_HOME.WB
259.Pq Event 07H , Umask 20H
260Number of responses to code or data read snoops to a remote home that the L3
261has the referenced line cached in the M state.
262.It Li SNP_RESP_TO_REMOTE_HOME.HITM
263.Pq Event 07H , Umask 24H
264Number of HITM snoop responses to a remote home
265.It Li L3_HITS.READ
266.Pq Event 08H , Umask 01H
267Number of code read, data read and RFO requests that hit in the L3
268.It Li L3_HITS.WRITE
269.Pq Event 08H , Umask 02H
270Number of writeback requests that hit in the L3. Writebacks from the cores
271will always result in L3 hits due to the inclusive property of the L3.
272.It Li L3_HITS.PROBE
273.Pq Event 08H , Umask 04H
274Number of snoops from IOH or remote sockets that hit in the L3.
275.It Li L3_HITS.ANY
276.Pq Event 08H , Umask 03H
277Number of reads and writes that hit the L3.
278.It Li L3_MISS.READ
279.Pq Event 09H , Umask 01H
280Number of code read, data read and RFO requests that miss the L3.
281.It Li L3_MISS.WRITE
282.Pq Event 09H , Umask 02H
283Number of writeback requests that miss the L3. Should always be zero as
284writebacks from the cores will always result in L3 hits due to the inclusive
285property of the L3.
286.It Li L3_MISS.PROBE
287.Pq Event 09H , Umask 04H
288Number of snoops from IOH or remote sockets that miss the L3.
289.It Li L3_MISS.ANY
290.Pq Event 09H , Umask 03H
291Number of reads and writes that miss the L3.
292.It Li L3_LINES_IN.M_STATE
293.Pq Event 0AH , Umask 01H
294Counts the number of L3 lines allocated in M state. The only time a cache
295line is allocated in the M state is when the line was forwarded in M state
296is forwarded due to a Snoop Read Invalidate Own request.
297.It Li L3_LINES_IN.E_STATE
298.Pq Event 0AH , Umask 02H
299Counts the number of L3 lines allocated in E state.
300.It Li L3_LINES_IN.S_STATE
301.Pq Event 0AH , Umask 04H
302Counts the number of L3 lines allocated in S state.
303.It Li L3_LINES_IN.F_STATE
304.Pq Event 0AH , Umask 08H
305Counts the number of L3 lines allocated in F state.
306.It Li L3_LINES_IN.ANY
307.Pq Event 0AH , Umask 0FH
308Counts the number of L3 lines allocated in any state.
309.It Li L3_LINES_OUT.M_STATE
310.Pq Event 0BH , Umask 01H
311Counts the number of L3 lines victimized that were in the M state. When the
312victim cache line is in M state, the line is written to its home cache agent
313which can be either local or remote.
314.It Li L3_LINES_OUT.E_STATE
315.Pq Event 0BH , Umask 02H
316Counts the number of L3 lines victimized that were in the E state.
317.It Li L3_LINES_OUT.S_STATE
318.Pq Event 0BH , Umask 04H
319Counts the number of L3 lines victimized that were in the S state.
320.It Li L3_LINES_OUT.I_STATE
321.Pq Event 0BH , Umask 08H
322Counts the number of L3 lines victimized that were in the I state.
323.It Li L3_LINES_OUT.F_STATE
324.Pq Event 0BH , Umask 10H
325Counts the number of L3 lines victimized that were in the F state.
326.It Li L3_LINES_OUT.ANY
327.Pq Event 0BH , Umask 1FH
328Counts the number of L3 lines victimized in any state.
329.It Li QHL_REQUESTS.IOH_READS
330.Pq Event 20H , Umask 01H
331Counts number of Quickpath Home Logic read requests from the IOH.
332.It Li QHL_REQUESTS.IOH_WRITES
333.Pq Event 20H , Umask 02H
334Counts number of Quickpath Home Logic write requests from the IOH.
335.It Li QHL_REQUESTS.REMOTE_READS
336.Pq Event 20H , Umask 04H
337Counts number of Quickpath Home Logic read requests from a remote socket.
338.It Li QHL_REQUESTS.REMOTE_WRITES
339.Pq Event 20H , Umask 08H
340Counts number of Quickpath Home Logic write requests from a remote socket.
341.It Li QHL_REQUESTS.LOCAL_READS
342.Pq Event 20H , Umask 10H
343Counts number of Quickpath Home Logic read requests from the local socket.
344.It Li QHL_REQUESTS.LOCAL_WRITES
345.Pq Event 20H , Umask 20H
346Counts number of Quickpath Home Logic write requests from the local socket.
347.It Li QHL_CYCLES_FULL.IOH
348.Pq Event 21H , Umask 01H
349Counts uclk cycles all entries in the Quickpath Home Logic IOH are full.
350.It Li QHL_CYCLES_FULL.REMOTE
351.Pq Event 21H , Umask 02H
352Counts uclk cycles all entries in the Quickpath Home Logic remote tracker
353are full.
354.It Li QHL_CYCLES_FULL.LOCAL
355.Pq Event 21H , Umask 04H
356Counts uclk cycles all entries in the Quickpath Home Logic local tracker are
357full.
358.It Li QHL_CYCLES_NOT_EMPTY.IOH
359.Pq Event 22H , Umask 01H
360Counts uclk cycles all entries in the Quickpath Home Logic IOH is busy.
361.It Li QHL_CYCLES_NOT_EMPTY.REMOTE
362.Pq Event 22H , Umask 02H
363Counts uclk cycles all entries in the Quickpath Home Logic remote tracker is
364busy.
365.It Li QHL_CYCLES_NOT_EMPTY.LOCAL
366.Pq Event 22H , Umask 04H
367Counts uclk cycles all entries in the Quickpath Home Logic local tracker is
368busy.
369.It Li QHL_OCCUPANCY.IOH
370.Pq Event 23H , Umask 01H
371QHL IOH tracker allocate to deallocate read occupancy.
372.It Li QHL_OCCUPANCY.REMOTE
373.Pq Event 23H , Umask 02H
374QHL remote tracker allocate to deallocate read occupancy.
375.It Li QHL_OCCUPANCY.LOCAL
376.Pq Event 23H , Umask 04H
377QHL local tracker allocate to deallocate read occupancy.
378.It Li QHL_ADDRESS_CONFLICTS.2WAY
379.Pq Event 24H , Umask 02H
380Counts number of QHL Active Address Table (AAT) entries that saw a max of 2
381conflicts. The AAT is a structure that tracks requests that are in conflict.
382The requests themselves are in the home tracker entries. The count is
383reported when an AAT entry deallocates.
384.It Li QHL_ADDRESS_CONFLICTS.3WAY
385.Pq Event 24H , Umask 04H
386Counts number of QHL Active Address Table (AAT) entries that saw a max of 3
387conflicts. The AAT is a structure that tracks requests that are in conflict.
388The requests themselves are in the home tracker entries. The count is
389reported when an AAT entry deallocates.
390.It Li QHL_CONFLICT_CYCLES.IOH
391.Pq Event 25H , Umask 01H
392Counts cycles the Quickpath Home Logic IOH Tracker contains two or more
393requests with an address conflict. A max of 3 requests can be in conflict.
394.It Li QHL_CONFLICT_CYCLES.REMOTE
395.Pq Event 25H , Umask 02H
396Counts cycles the Quickpath Home Logic Remote Tracker contains two or more
397requests with an address conflict. A max of 3 requests can be in conflict.
398.It Li QHL_CONFLICT_CYCLES.LOCAL
399.Pq Event 25H , Umask 04H
400Counts cycles the Quickpath Home Logic Local Tracker contains two or more
401requests with an address conflict. A max of 3 requests can be in conflict.
402.It Li QHL_TO_QMC_BYPASS
403.Pq Event 26H , Umask 01H
404Counts number or requests to the Quickpath Memory Controller that bypass the
405Quickpath Home Logic. All local accesses can be bypassed. For remote
406requests, only read requests can be bypassed.
407.It Li QMC_NORMAL_FULL.READ.CH0
408.Pq Event 27H , Umask 01H
409Uncore cycles all the entries in the DRAM channel 0 medium or low priority
410queue are occupied with read requests.
411.It Li QMC_NORMAL_FULL.READ.CH1
412.Pq Event 27H , Umask 02H
413Uncore cycles all the entries in the DRAM channel 1 medium or low priority
414queue are occupied with read requests.
415.It Li QMC_NORMAL_FULL.READ.CH2
416.Pq Event 27H , Umask 04H
417Uncore cycles all the entries in the DRAM channel 2 medium or low priority
418queue are occupied with read requests.
419.It Li QMC_NORMAL_FULL.WRITE.CH0
420.Pq Event 27H , Umask 08H
421Uncore cycles all the entries in the DRAM channel 0 medium or low priority
422queue are occupied with write requests.
423.It Li QMC_NORMAL_FULL.WRITE.CH1
424.Pq Event 27H , Umask 10H
425Counts cycles all the entries in the DRAM channel 1 medium or low priority
426queue are occupied with write requests.
427.It Li QMC_NORMAL_FULL.WRITE.CH2
428.Pq Event 27H , Umask 20H
429Uncore cycles all the entries in the DRAM channel 2 medium or low priority
430queue are occupied with write requests.
431.It Li QMC_ISOC_FULL.READ.CH0
432.Pq Event 28H , Umask 01H
433Counts cycles all the entries in the DRAM channel 0 high priority queue are
434occupied with isochronous read requests.
435.It Li QMC_ISOC_FULL.READ.CH1
436.Pq Event 28H , Umask 02H
437Counts cycles all the entries in the DRAM channel 1 high priority queue are
438occupied with isochronous read requests.
439.It Li QMC_ISOC_FULL.READ.CH2
440.Pq Event 28H , Umask 04H
441Counts cycles all the entries in the DRAM channel 2 high priority queue are
442occupied with isochronous read requests.
443.It Li QMC_ISOC_FULL.WRITE.CH0
444.Pq Event 28H , Umask 08H
445Counts cycles all the entries in the DRAM channel 0 high priority queue are
446occupied with isochronous write requests.
447.It Li QMC_ISOC_FULL.WRITE.CH1
448.Pq Event 28H , Umask 10H
449Counts cycles all the entries in the DRAM channel 1 high priority queue are
450occupied with isochronous write requests.
451.It Li QMC_ISOC_FULL.WRITE.CH2
452.Pq Event 28H , Umask 20H
453Counts cycles all the entries in the DRAM channel 2 high priority queue are
454occupied with isochronous write requests.
455.It Li QMC_BUSY.READ.CH0
456.Pq Event 29H , Umask 01H
457Counts cycles where Quickpath Memory Controller has at least 1 outstanding
458read request to DRAM channel 0.
459.It Li QMC_BUSY.READ.CH1
460.Pq Event 29H , Umask 02H
461Counts cycles where Quickpath Memory Controller has at least 1 outstanding
462read request to DRAM channel 1.
463.It Li QMC_BUSY.READ.CH2
464.Pq Event 29H , Umask 04H
465Counts cycles where Quickpath Memory Controller has at least 1 outstanding
466read request to DRAM channel 2.
467.It Li QMC_BUSY.WRITE.CH0
468.Pq Event 29H , Umask 08H
469Counts cycles where Quickpath Memory Controller has at least 1 outstanding
470write request to DRAM channel 0.
471.It Li QMC_BUSY.WRITE.CH1
472.Pq Event 29H , Umask 10H
473Counts cycles where Quickpath Memory Controller has at least 1 outstanding
474write request to DRAM channel 1.
475.It Li QMC_BUSY.WRITE.CH2
476.Pq Event 29H , Umask 20H
477Counts cycles where Quickpath Memory Controller has at least 1 outstanding
478write request to DRAM channel 2.
479.It Li QMC_OCCUPANCY.CH0
480.Pq Event 2AH , Umask 01H
481IMC channel 0 normal read request occupancy.
482.It Li QMC_OCCUPANCY.CH1
483.Pq Event 2AH , Umask 02H
484IMC channel 1 normal read request occupancy.
485.It Li QMC_OCCUPANCY.CH2
486.Pq Event 2AH , Umask 04H
487IMC channel 2 normal read request occupancy.
488.It Li QMC_ISSOC_OCCUPANCY.CH0
489.Pq Event 2BH , Umask 01H
490IMC channel 0 issoc read request occupancy.
491.It Li QMC_ISSOC_OCCUPANCY.CH1
492.Pq Event 2BH , Umask 02H
493IMC channel 1 issoc read request occupancy.
494.It Li QMC_ISSOC_OCCUPANCY.CH2
495.Pq Event 2BH , Umask 04H
496IMC channel 2 issoc read request occupancy.
497.It Li QMC_ISSOC_READS.ANY
498.Pq Event 2BH , Umask 07H
499IMC issoc read request occupancy.
500.It Li QMC_NORMAL_READS.CH0
501.Pq Event 2CH , Umask 01H
502Counts the number of Quickpath Memory Controller channel 0 medium and low
503priority read requests. The QMC channel 0 normal read occupancy divided by
504this count provides the average QMC channel 0 read latency.
505.It Li QMC_NORMAL_READS.CH1
506.Pq Event 2CH , Umask 02H
507Counts the number of Quickpath Memory Controller channel 1 medium and low
508priority read requests. The QMC channel 1 normal read occupancy divided by
509this count provides the average QMC channel 1 read latency.
510.It Li QMC_NORMAL_READS.CH2
511.Pq Event 2CH , Umask 04H
512Counts the number of Quickpath Memory Controller channel 2 medium and low
513priority read requests. The QMC channel 2 normal read occupancy divided by
514this count provides the average QMC channel 2 read latency.
515.It Li QMC_NORMAL_READS.ANY
516.Pq Event 2CH , Umask 07H
517Counts the number of Quickpath Memory Controller medium and low priority
518read requests. The QMC normal read occupancy divided by this count provides
519the average QMC read latency.
520.It Li QMC_HIGH_PRIORITY_READS.CH0
521.Pq Event 2DH , Umask 01H
522Counts the number of Quickpath Memory Controller channel 0 high priority
523isochronous read requests.
524.It Li QMC_HIGH_PRIORITY_READS.CH1
525.Pq Event 2DH , Umask 02H
526Counts the number of Quickpath Memory Controller channel 1 high priority
527isochronous read requests.
528.It Li QMC_HIGH_PRIORITY_READS.CH2
529.Pq Event 2DH , Umask 04H
530Counts the number of Quickpath Memory Controller channel 2 high priority
531isochronous read requests.
532.It Li QMC_HIGH_PRIORITY_READS.ANY
533.Pq Event 2DH , Umask 07H
534Counts the number of Quickpath Memory Controller high priority isochronous
535read requests.
536.It Li QMC_CRITICAL_PRIORITY_READS.CH0
537.Pq Event 2EH , Umask 01H
538Counts the number of Quickpath Memory Controller channel 0 critical priority
539isochronous read requests.
540.It Li QMC_CRITICAL_PRIORITY_READS.CH1
541.Pq Event 2EH , Umask 02H
542Counts the number of Quickpath Memory Controller channel 1 critical priority
543isochronous read requests.
544.It Li QMC_CRITICAL_PRIORITY_READS.CH2
545.Pq Event 2EH , Umask 04H
546Counts the number of Quickpath Memory Controller channel 2 critical priority
547isochronous read requests.
548.It Li QMC_CRITICAL_PRIORITY_READS.ANY
549.Pq Event 2EH , Umask 07H
550Counts the number of Quickpath Memory Controller critical priority
551isochronous read requests.
552.It Li QMC_WRITES.FULL.CH0
553.Pq Event 2FH , Umask 01H
554Counts number of full cache line writes to DRAM channel 0.
555.It Li QMC_WRITES.FULL.CH1
556.Pq Event 2FH , Umask 02H
557Counts number of full cache line writes to DRAM channel 1.
558.It Li QMC_WRITES.FULL.CH2
559.Pq Event 2FH , Umask 04H
560Counts number of full cache line writes to DRAM channel 2.
561.It Li QMC_WRITES.FULL.ANY
562.Pq Event 2FH , Umask 07H
563Counts number of full cache line writes to DRAM.
564.It Li QMC_WRITES.PARTIAL.CH0
565.Pq Event 2FH , Umask 08H
566Counts number of partial cache line writes to DRAM channel 0.
567.It Li QMC_WRITES.PARTIAL.CH1
568.Pq Event 2FH , Umask 10H
569Counts number of partial cache line writes to DRAM channel 1.
570.It Li QMC_WRITES.PARTIAL.CH2
571.Pq Event 2FH , Umask 20H
572Counts number of partial cache line writes to DRAM channel 2.
573.It Li QMC_WRITES.PARTIAL.ANY
574.Pq Event 2FH , Umask 38H
575Counts number of partial cache line writes to DRAM.
576.It Li QMC_CANCEL.CH0
577.Pq Event 30H , Umask 01H
578Counts number of DRAM channel 0 cancel requests.
579.It Li QMC_CANCEL.CH1
580.Pq Event 30H , Umask 02H
581Counts number of DRAM channel 1 cancel requests.
582.It Li QMC_CANCEL.CH2
583.Pq Event 30H , Umask 04H
584Counts number of DRAM channel 2 cancel requests.
585.It Li QMC_CANCEL.ANY
586.Pq Event 30H , Umask 07H
587Counts number of DRAM cancel requests.
588.It Li QMC_PRIORITY_UPDATES.CH0
589.Pq Event 31H , Umask 01H
590Counts number of DRAM channel 0 priority updates. A priority update occurs
591when an ISOC high or critical request is received by the QHL and there is a
592matching request with normal priority that has already been issued to the
593QMC. In this instance, the QHL will send a priority update to QMC to
594expedite the request.
595.It Li QMC_PRIORITY_UPDATES.CH1
596.Pq Event 31H , Umask 02H
597Counts number of DRAM channel 1 priority updates. A priority update occurs
598when an ISOC high or critical request is received by the QHL and there is a
599matching request with normal priority that has already been issued to the
600QMC. In this instance, the QHL will send a priority update to QMC to
601expedite the request.
602.It Li QMC_PRIORITY_UPDATES.CH2
603.Pq Event 31H , Umask 04H
604Counts number of DRAM channel 2 priority updates. A priority update occurs
605when an ISOC high or critical request is received by the QHL and there is a
606matching request with normal priority that has already been issued to the
607QMC. In this instance, the QHL will send a priority update to QMC to
608expedite the request.
609.It Li QMC_PRIORITY_UPDATES.ANY
610.Pq Event 31H , Umask 07H
611Counts number of DRAM priority updates. A priority update occurs when an
612ISOC high or critical request is received by the QHL and there is a matching
613request with normal priority that has already been issued to the QMC. In
614this instance, the QHL will send a priority update to QMC to expedite the
615request.
616.It Li QHL_FRC_ACK_CNFLTS.LOCAL
617.Pq Event 33H , Umask 04H
618Counts number of Force Acknowledge Conflict messages sent by the Quickpath
619Home Logic to the local home.
620.It Li QPI_TX_STALLED_SINGLE_FLIT.HOME.LINK_0
621.Pq Event 40H , Umask 01H
622Counts cycles the Quickpath outbound link 0 HOME virtual channel is stalled
623due to lack of a VNA and VN0 credit. Note that this event does not filter
624out when a flit would not have been selected for arbitration because another
625virtual channel is getting arbitrated.
626.It Li QPI_TX_STALLED_SINGLE_FLIT.SNOOP.LINK_0
627.Pq Event 40H , Umask 02H
628Counts cycles the Quickpath outbound link 0 SNOOP virtual channel is stalled
629due to lack of a VNA and VN0 credit. Note that this event does not filter
630out when a flit would not have been selected for arbitration because another
631virtual channel is getting arbitrated.
632.It Li QPI_TX_STALLED_SINGLE_FLIT.NDR.LINK_0
633.Pq Event 40H , Umask 04H
634Counts cycles the Quickpath outbound link 0 non-data response virtual
635channel is stalled due to lack of a VNA and VN0 credit. Note that this event
636does not filter out when a flit would not have been selected for arbitration
637because another virtual channel is getting arbitrated.
638.It Li QPI_TX_STALLED_SINGLE_FLIT.HOME.LINK_1
639.Pq Event 40H , Umask 08H
640Counts cycles the Quickpath outbound link 1 HOME virtual channel is stalled
641due to lack of a VNA and VN0 credit. Note that this event does not filter
642out when a flit would not have been selected for arbitration because another
643virtual channel is getting arbitrated.
644.It Li QPI_TX_STALLED_SINGLE_FLIT.SNOOP.LINK_1
645.Pq Event 40H , Umask 10H
646Counts cycles the Quickpath outbound link 1 SNOOP virtual channel is stalled
647due to lack of a VNA and VN0 credit. Note that this event does not filter
648out when a flit would not have been selected for arbitration because another
649virtual channel is getting arbitrated.
650.It Li QPI_TX_STALLED_SINGLE_FLIT.NDR.LINK_1
651.Pq Event 40H , Umask 20H
652Counts cycles the Quickpath outbound link 1 non-data response virtual
653channel is stalled due to lack of a VNA and VN0 credit. Note that this event
654does not filter out when a flit would not have been selected for arbitration
655because another virtual channel is getting arbitrated.
656.It Li QPI_TX_STALLED_SINGLE_FLIT.LINK_0
657.Pq Event 40H , Umask 07H
658Counts cycles the Quickpath outbound link 0 virtual channels are stalled due
659to lack of a VNA and VN0 credit. Note that this event does not filter out
660when a flit would not have been selected for arbitration because another
661virtual channel is getting arbitrated.
662.It Li QPI_TX_STALLED_SINGLE_FLIT.LINK_1
663.Pq Event 40H , Umask 38H
664Counts cycles the Quickpath outbound link 1 virtual channels are stalled due
665to lack of a VNA and VN0 credit. Note that this event does not filter out
666when a flit would not have been selected for arbitration because another
667virtual channel is getting arbitrated.
668.It Li QPI_TX_STALLED_MULTI_FLIT.DRS.LINK_0
669.Pq Event 41H , Umask 01H
670Counts cycles the Quickpath outbound link 0 Data ResponSe virtual channel is
671stalled due to lack of VNA and VN0 credits. Note that this event does not
672filter out when a flit would not have been selected for arbitration because
673another virtual channel is getting arbitrated.
674.It Li QPI_TX_STALLED_MULTI_FLIT.NCB.LINK_0
675.Pq Event 41H , Umask 02H
676Counts cycles the Quickpath outbound link 0 Non-Coherent Bypass virtual
677channel is stalled due to lack of VNA and VN0 credits. Note that this event
678does not filter out when a flit would not have been selected for arbitration
679because another virtual channel is getting arbitrated.
680.It Li QPI_TX_STALLED_MULTI_FLIT.NCS.LINK_0
681.Pq Event 41H , Umask 04H
682Counts cycles the Quickpath outbound link 0 Non-Coherent Standard virtual
683channel is stalled due to lack of VNA and VN0 credits. Note that this event
684does not filter out when a flit would not have been selected for arbitration
685because another virtual channel is getting arbitrated.
686.It Li QPI_TX_STALLED_MULTI_FLIT.DRS.LINK_1
687.Pq Event 41H , Umask 08H
688Counts cycles the Quickpath outbound link 1 Data ResponSe virtual channel is
689stalled due to lack of VNA and VN0 credits. Note that this event does not
690filter out when a flit would not have been selected for arbitration because
691another virtual channel is getting arbitrated.
692.It Li QPI_TX_STALLED_MULTI_FLIT.NCB.LINK_1
693.Pq Event 41H , Umask 10H
694Counts cycles the Quickpath outbound link 1 Non-Coherent Bypass virtual
695channel is stalled due to lack of VNA and VN0 credits. Note that this event
696does not filter out when a flit would not have been selected for arbitration
697because another virtual channel is getting arbitrated.
698.It Li QPI_TX_STALLED_MULTI_FLIT.NCS.LINK_1
699.Pq Event 41H , Umask 20H
700Counts cycles the Quickpath outbound link 1 Non-Coherent Standard virtual
701channel is stalled due to lack of VNA and VN0 credits. Note that this event
702does not filter out when a flit would not have been selected for arbitration
703because another virtual channel is getting arbitrated.
704.It Li QPI_TX_STALLED_MULTI_FLIT.LINK_0
705.Pq Event 41H , Umask 07H
706Counts cycles the Quickpath outbound link 0 virtual channels are stalled due
707to lack of VNA and VN0 credits. Note that this event does not filter out
708when a flit would not have been selected for arbitration because another
709virtual channel is getting arbitrated.
710.It Li QPI_TX_STALLED_MULTI_FLIT.LINK_1
711.Pq Event 41H , Umask 38H
712Counts cycles the Quickpath outbound link 1 virtual channels are stalled due
713to lack of VNA and VN0 credits. Note that this event does not filter out
714when a flit would not have been selected for arbitration because another
715virtual channel is getting arbitrated.
716.It Li QPI_TX_HEADER.BUSY.LINK_0
717.Pq Event 42H , Umask 02H
718Number of cycles that the header buffer in the Quickpath Interface outbound
719link 0 is busy.
720.It Li QPI_TX_HEADER.BUSY.LINK_1
721.Pq Event 42H , Umask 08H
722Number of cycles that the header buffer in the Quickpath Interface outbound
723link 1 is busy.
724.It Li QPI_RX_NO_PPT_CREDIT.STALLS.LINK_0
725.Pq Event 43H , Umask 01H
726Number of cycles that snoop packets incoming to the Quickpath Interface link
7270 are stalled and not sent to the GQ because the GQ Peer Probe Tracker (PPT)
728does not have any available entries.
729.It Li QPI_RX_NO_PPT_CREDIT.STALLS.LINK_1
730.Pq Event 43H , Umask 02H
731Number of cycles that snoop packets incoming to the Quickpath Interface link
7321 are stalled and not sent to the GQ because the GQ Peer Probe Tracker (PPT)
733does not have any available entries.
734.It Li DRAM_OPEN.CH0
735.Pq Event 60H , Umask 01H
736Counts number of DRAM Channel 0 open commands issued either for read or
737write. To read or write data, the referenced DRAM page must first be opened.
738.It Li DRAM_OPEN.CH1
739.Pq Event 60H , Umask 02H
740Counts number of DRAM Channel 1 open commands issued either for read or
741write. To read or write data, the referenced DRAM page must first be opened.
742.It Li DRAM_OPEN.CH2
743.Pq Event 60H , Umask 04H
744Counts number of DRAM Channel 2 open commands issued either for read or
745write. To read or write data, the referenced DRAM page must first be opened.
746.It Li DRAM_PAGE_CLOSE.CH0
747.Pq Event 61H , Umask 01H
748DRAM channel 0 command issued to CLOSE a page due to page idle timer
749expiration. Closing a page is done by issuing a precharge.
750.It Li DRAM_PAGE_CLOSE.CH1
751.Pq Event 61H , Umask 02H
752DRAM channel 1 command issued to CLOSE a page due to page idle timer
753expiration. Closing a page is done by issuing a precharge.
754.It Li DRAM_PAGE_CLOSE.CH2
755.Pq Event 61H , Umask 04H
756DRAM channel 2 command issued to CLOSE a page due to page idle timer
757expiration. Closing a page is done by issuing a precharge.
758.It Li DRAM_PAGE_MISS.CH0
759.Pq Event 62H , Umask 01H
760Counts the number of precharges (PRE) that were issued to DRAM channel 0
761because there was a page miss. A page miss refers to a situation in which a
762page is currently open and another page from the same bank needs to be
763opened. The new page experiences a page miss. Closing of the old page is
764done by issuing a precharge.
765.It Li DRAM_PAGE_MISS.CH1
766.Pq Event 62H , Umask 02H
767Counts the number of precharges (PRE) that were issued to DRAM channel 1
768because there was a page miss. A page miss refers to a situation in which a
769page is currently open and another page from the same bank needs to be
770opened. The new page experiences a page miss. Closing of the old page is
771done by issuing a precharge.
772.It Li DRAM_PAGE_MISS.CH2
773.Pq Event 62H , Umask 04H
774Counts the number of precharges (PRE) that were issued to DRAM channel 2
775because there was a page miss. A page miss refers to a situation in which a
776page is currently open and another page from the same bank needs to be
777opened. The new page experiences a page miss. Closing of the old page is
778done by issuing a precharge.
779.It Li DRAM_READ_CAS.CH0
780.Pq Event 63H , Umask 01H
781Counts the number of times a read CAS command was issued on DRAM channel 0.
782.It Li DRAM_READ_CAS.AUTOPRE_CH0
783.Pq Event 63H , Umask 02H
784Counts the number of times a read CAS command was issued on DRAM channel 0
785where the command issued used the auto-precharge (auto page close) mode.
786.It Li DRAM_READ_CAS.CH1
787.Pq Event 63H , Umask 04H
788Counts the number of times a read CAS command was issued on DRAM channel 1.
789.It Li DRAM_READ_CAS.AUTOPRE_CH1
790.Pq Event 63H , Umask 08H
791Counts the number of times a read CAS command was issued on DRAM channel 1
792where the command issued used the auto-precharge (auto page close) mode.
793.It Li DRAM_READ_CAS.CH2
794.Pq Event 63H , Umask 10H
795Counts the number of times a read CAS command was issued on DRAM channel 2.
796.It Li DRAM_READ_CAS.AUTOPRE_CH2
797.Pq Event 63H , Umask 20H
798Counts the number of times a read CAS command was issued on DRAM channel 2
799where the command issued used the auto-precharge (auto page close) mode.
800.It Li DRAM_WRITE_CAS.CH0
801.Pq Event 64H , Umask 01H
802Counts the number of times a write CAS command was issued on DRAM channel 0.
803.It Li DRAM_WRITE_CAS.AUTOPRE_CH0
804.Pq Event 64H , Umask 02H
805Counts the number of times a write CAS command was issued on DRAM channel 0
806where the command issued used the auto-precharge (auto page close) mode.
807.It Li DRAM_WRITE_CAS.CH1
808.Pq Event 64H , Umask 04H
809Counts the number of times a write CAS command was issued on DRAM channel 1.
810.It Li DRAM_WRITE_CAS.AUTOPRE_CH1
811.Pq Event 64H , Umask 08H
812Counts the number of times a write CAS command was issued on DRAM channel 1
813where the command issued used the auto-precharge (auto page close) mode.
814.It Li DRAM_WRITE_CAS.CH2
815.Pq Event 64H , Umask 10H
816Counts the number of times a write CAS command was issued on DRAM channel 2.
817.It Li DRAM_WRITE_CAS.AUTOPRE_CH2
818.Pq Event 64H , Umask 20H
819Counts the number of times a write CAS command was issued on DRAM channel 2
820where the command issued used the auto-precharge (auto page close) mode.
821.It Li DRAM_REFRESH.CH0
822.Pq Event 65H , Umask 01H
823Counts number of DRAM channel 0 refresh commands. DRAM loses data content
824over time. In order to keep correct data content, the data values have to be
825refreshed periodically.
826.It Li DRAM_REFRESH.CH1
827.Pq Event 65H , Umask 02H
828Counts number of DRAM channel 1 refresh commands. DRAM loses data content
829over time. In order to keep correct data content, the data values have to be
830refreshed periodically.
831.It Li DRAM_REFRESH.CH2
832.Pq Event 65H , Umask 04H
833Counts number of DRAM channel 2 refresh commands. DRAM loses data content
834over time. In order to keep correct data content, the data values have to be
835refreshed periodically.
836.It Li DRAM_PRE_ALL.CH0
837.Pq Event 66H , Umask 01H
838Counts number of DRAM Channel 0 precharge-all (PREALL) commands that close
839all open pages in a rank. PREALL is issued when the DRAM needs to be
840refreshed or needs to go into a power down mode.
841.It Li DRAM_PRE_ALL.CH1
842.Pq Event 66H , Umask 02H
843Counts number of DRAM Channel 1 precharge-all (PREALL) commands that close
844all open pages in a rank. PREALL is issued when the DRAM needs to be
845refreshed or needs to go into a power down mode.
846.It Li DRAM_PRE_ALL.CH2
847.Pq Event 66H , Umask 04H
848Counts number of DRAM Channel 2 precharge-all (PREALL) commands that close
849all open pages in a rank. PREALL is issued when the DRAM needs to be
850refreshed or needs to go into a power down mode.
851.El
852.Sh SEE ALSO
853.Xr pmc 3 ,
854.Xr pmc.atom 3 ,
855.Xr pmc.core 3 ,
856.Xr pmc.corei7 3 ,
857.Xr pmc.iaf 3 ,
858.Xr pmc.k7 3 ,
859.Xr pmc.k8 3 ,
860.Xr pmc.p4 3 ,
861.Xr pmc.p5 3 ,
862.Xr pmc.p6 3 ,
863.Xr pmc.soft 3 ,
864.Xr pmc.tsc 3 ,
865.Xr pmc.ucf 3 ,
866.Xr pmc.westmere 3 ,
867.Xr pmc.westmereuc 3 ,
868.Xr pmc_cpuinfo 3 ,
869.Xr pmclog 3 ,
870.Xr hwpmc 4
871.Sh HISTORY
872The
873.Nm pmc
874library first appeared in
875.Fx 6.0 .
876.Sh AUTHORS
877The
878.Lb libpmc
879library was written by
880.An Joseph Koshy Aq Mt jkoshy@FreeBSD.org .
881