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download PDF document: pmc.westmereuc.3.pdf

PMC.WESTMEREUC(3) FreeBSD Library Functions Manual PMC.WESTMEREUC(3)
NAME pmc.westmere - uncore measurement events for Intel Westmere family CPUs
LIBRARY Performance Counters Library (libpmc, -lpmc)
SYNOPSIS #include <pmc.h>
DESCRIPTION Intel Westmere CPUs contain PMCs conforming to version 2 of the Intel performance measurement architecture. These CPUs contain two classes of PMCs:
PMC_CLASS_UCF Fixed-function counters that count only one hardware event per counter.
PMC_CLASS_UCP Programmable counters that may be configured to count one of a defined set of hardware events.
The number of PMCs available in each class and their widths need to be determined at run time by calling pmc_cpuinfo(3).
Intel Westmere PMCs are documented in Volume 3B: System Programming Guide, Part 2, Intel(R) 64 and IA-32 Architectures Software Developes Manual, Order Number: 253669-033US, Intel Corporation, December 2009.
WESTMERE UNCORE FIXED FUNCTION PMCS These PMCs and their supported events are documented in pmc.ucf(3). Not all CPUs in this family implement fixed-function counters.
WESTMERE UNCORE PROGRAMMABLE PMCS The programmable PMCs support the following capabilities:
Capability Support PMC_CAP_CASCADE No PMC_CAP_EDGE Yes PMC_CAP_INTERRUPT No PMC_CAP_INVERT Yes PMC_CAP_READ Yes PMC_CAP_PRECISE No PMC_CAP_SYSTEM No PMC_CAP_TAGGING No PMC_CAP_THRESHOLD Yes PMC_CAP_USER No PMC_CAP_WRITE Yes
Event Qualifiers Event specifiers for these PMCs support the following common qualifiers:
cmask=value Configure the PMC to increment only if the number of configured events measured in a cycle is greater than or equal to value.
edge Configure the PMC to count the number of de-asserted to asserted transitions of the conditions expressed by the other qualifiers. If specified, the counter will increment only once whenever a
Event Specifiers (Programmable PMCs) Westmere uncore programmable PMCs support the following events:
GQ_CYCLES_FULL.READ_TRACKER (Event 00H, Umask 01H) Uncore cycles Global Queue read tracker is full.
GQ_CYCLES_FULL.WRITE_TRACKER (Event 00H, Umask 02H) Uncore cycles Global Queue write tracker is full.
GQ_CYCLES_FULL.PEER_PROBE_TRACKER (Event 00H, Umask 04H) Uncore cycles Global Queue peer probe tracker is full. The peer probe tracker queue tracks snoops from the IOH and remote sockets.
GQ_CYCLES_NOT_EMPTY.READ_TRACKER (Event 01H, Umask 01H) Uncore cycles were Global Queue read tracker has at least one valid entry.
GQ_CYCLES_NOT_EMPTY.WRITE_TRACKER (Event 01H, Umask 02H) Uncore cycles were Global Queue write tracker has at least one valid entry.
GQ_CYCLES_NOT_EMPTY.PEER_PROBE_TRACKER (Event 01H, Umask 04H) Uncore cycles were Global Queue peer probe tracker has at least one valid entry. The peer probe tracker queue tracks IOH and remote socket snoops.
GQ_OCCUPANCY.READ_TRACKER (Event 02H, Umask 01H) Increments the number of queue entries (code read, data read, and RFOs) in the tread tracker. The GQ read tracker allocate to deallocate occupancy count is divided by the count to obtain the average read tracker latency.
GQ_ALLOC.READ_TRACKER (Event 03H, Umask 01H) Counts the number of tread tracker allocate to deallocate entries. The GQ read tracker allocate to deallocate occupancy count is divided by the count to obtain the average read tracker latency.
GQ_ALLOC.RT_L3_MISS (Event 03H, Umask 02H) Counts the number GQ read tracker entries for which a full cache line read has missed the L3. The GQ read tracker L3 miss to fill occupancy count is divided by this count to obtain the average cache line read L3 miss latency. The latency represents the time after which the L3 has determined that the cache line has missed. The time between a GQ read tracker allocation and the L3 determining that the cache line has missed is the average L3 hit latency. The total L3 cache line read miss latency is the hit latency + L3 miss latency.
GQ_ALLOC.RT_TO_L3_RESP (Event 03H, Umask 04H) Counts the number of GQ read tracker entries that are allocated in the read tracker queue that hit or miss the L3. The GQ read tracker L3 hit occupancy count is divided by this count to obtain the average L3 hit latency.

GQ_ALLOC.WT_TO_RTID_ACQUIRED (Event 03H, Umask 10H) Counts the number of GQ write tracker entries that are allocated in the write tracker, have missed in the L3 and have not acquired a Request Transaction ID. The GQ write tracker L3 miss to RTID occupancy count is divided by this count to obtain the average latency for a write L3 miss to acquire an RTID.
GQ_ALLOC.WRITE_TRACKER (Event 03H, Umask 20H) Counts the number of GQ write tracker entries that are allocated in the write tracker queue that miss the L3. The GQ write tracker occupancy count is divided by the this count to obtain the average L3 write miss latency.
GQ_ALLOC.PEER_PROBE_TRACKER (Event 03H, Umask 40H) Counts the number of GQ peer probe tracker (snoop) entries that are allocated in the peer probe tracker queue that miss the L3. The GQ peer probe occupancy count is divided by this count to obtain the average L3 peer probe miss latency.
GQ_DATA.FROM_QPI (Event 04H, Umask 01H) Cycles Global Queue Quickpath Interface input data port is busy importing data from the Quickpath Interface. Each cycle the input port can transfer 8 or 16 bytes of data.
GQ_DATA.FROM_QMC (Event 04H, Umask 02H) Cycles Global Queue Quickpath Memory Interface input data port is busy importing data from the Quickpath Memory Interface. Each cycle the input port can transfer 8 or 16 bytes of data.
GQ_DATA.FROM_L3 (Event 04H, Umask 04H) Cycles GQ L3 input data port is busy importing data from the Last Level Cache. Each cycle the input port can transfer 32 bytes of data.
GQ_DATA.FROM_CORES_02 (Event 04H, Umask 08H) Cycles GQ Core 0 and 2 input data port is busy importing data from processor cores 0 and 2. Each cycle the input port can transfer 32 bytes of data.
GQ_DATA.FROM_CORES_13 (Event 04H, Umask 10H) Cycles GQ Core 1 and 3 input data port is busy importing data from processor cores 1 and 3. Each cycle the input port can transfer 32 bytes of data.
GQ_DATA.TO_QPI_QMC (Event 05H, Umask 01H) Cycles GQ QPI and QMC output data port is busy sending data to the Quickpath Interface or Quickpath Memory Interface. Each cycle the output port can transfer 32 bytes of data.
GQ_DATA.TO_L3 (Event 05H, Umask 02H) Cycles GQ L3 output data port is busy sending data to the Last Level Cache. Each cycle the output port can transfer 32 bytes of data. (Event 06H, Umask 01H) Number of snoop responses to the local home that L3 does not have the referenced cache line.
SNP_RESP_TO_LOCAL_HOME.S_STATE (Event 06H, Umask 02H) Number of snoop responses to the local home that L3 has the referenced line cached in the S state.
SNP_RESP_TO_LOCAL_HOME.FWD_S_STATE (Event 06H, Umask 04H) Number of responses to code or data read snoops to the local home that the L3 has the referenced cache line in the E state. The L3 cache line state is changed to the S state and the line is forwarded to the local home in the S state.
SNP_RESP_TO_LOCAL_HOME.FWD_I_STATE (Event 06H, Umask 08H) Number of responses to read invalidate snoops to the local home that the L3 has the referenced cache line in the M state. The L3 cache line state is invalidated and the line is forwarded to the local home in the M state.
SNP_RESP_TO_LOCAL_HOME.CONFLICT (Event 06H, Umask 10H) Number of conflict snoop responses sent to the local home.
SNP_RESP_TO_LOCAL_HOME.WB (Event 06H, Umask 20H) Number of responses to code or data read snoops to the local home that the L3 has the referenced line cached in the M state.
SNP_RESP_TO_REMOTE_HOME.I_STATE (Event 07H, Umask 01H) Number of snoop responses to a remote home that L3 does not have the referenced cache line.
SNP_RESP_TO_REMOTE_HOME.S_STATE (Event 07H, Umask 02H) Number of snoop responses to a remote home that L3 has the referenced line cached in the S state.
SNP_RESP_TO_REMOTE_HOME.FWD_S_STATE (Event 07H, Umask 04H) Number of responses to code or data read snoops to a remote home that the L3 has the referenced cache line in the E state. The L3 cache line state is changed to the S state and the line is forwarded to the remote home in the S state.
SNP_RESP_TO_REMOTE_HOME.FWD_I_STATE (Event 07H, Umask 08H) Number of responses to read invalidate snoops to a remote home that the L3 has the referenced cache line in the M state. The L3 cache line state is invalidated and the line is forwarded to the remote home in the M state.
SNP_RESP_TO_REMOTE_HOME.CONFLICT (Event 07H, Umask 10H) Number of conflict snoop responses sent to the local home.
SNP_RESP_TO_REMOTE_HOME.WB (Event 07H, Umask 20H) Number of responses to code or data read snoops to a remote home that the L3 has the referenced line cached in the M state.
SNP_RESP_TO_REMOTE_HOME.HITM L3_HITS.WRITE (Event 08H, Umask 02H) Number of writeback requests that hit in the L3. Writebacks from the cores will always result in L3 hits due to the inclusive property of the L3.
L3_HITS.PROBE (Event 08H, Umask 04H) Number of snoops from IOH or remote sockets that hit in the L3.
L3_HITS.ANY (Event 08H, Umask 03H) Number of reads and writes that hit the L3.
L3_MISS.READ (Event 09H, Umask 01H) Number of code read, data read and RFO requests that miss the L3.
L3_MISS.WRITE (Event 09H, Umask 02H) Number of writeback requests that miss the L3. Should always be zero as writebacks from the cores will always result in L3 hits due to the inclusive property of the L3.
L3_MISS.PROBE (Event 09H, Umask 04H) Number of snoops from IOH or remote sockets that miss the L3.
L3_MISS.ANY (Event 09H, Umask 03H) Number of reads and writes that miss the L3.
L3_LINES_IN.M_STATE (Event 0AH, Umask 01H) Counts the number of L3 lines allocated in M state. The only time a cache line is allocated in the M state is when the line was forwarded in M state is forwarded due to a Snoop Read Invalidate Own request.
L3_LINES_IN.E_STATE (Event 0AH, Umask 02H) Counts the number of L3 lines allocated in E state.
L3_LINES_IN.S_STATE (Event 0AH, Umask 04H) Counts the number of L3 lines allocated in S state.
L3_LINES_IN.F_STATE (Event 0AH, Umask 08H) Counts the number of L3 lines allocated in F state.
L3_LINES_IN.ANY (Event 0AH, Umask 0FH) Counts the number of L3 lines allocated in any state.
L3_LINES_OUT.M_STATE (Event 0BH, Umask 01H) Counts the number of L3 lines victimized that were in the M state. When the victim cache line is in M state, the line is written to its home cache agent which can be either local or remote.
L3_LINES_OUT.E_STATE L3_LINES_OUT.I_STATE (Event 0BH, Umask 08H) Counts the number of L3 lines victimized that were in the I state.
L3_LINES_OUT.F_STATE (Event 0BH, Umask 10H) Counts the number of L3 lines victimized that were in the F state.
L3_LINES_OUT.ANY (Event 0BH, Umask 1FH) Counts the number of L3 lines victimized in any state.
GQ_SNOOP.GOTO_S (Event 0CH, Umask 01H) Counts the number of remote snoops that have requested a cache line be set to the S state.
GQ_SNOOP.GOTO_I (Event 0CH, Umask 02H) Counts the number of remote snoops that have requested a cache line be set to the I state.
GQ_SNOOP.GOTO_S_HIT_E (Event 0CH, Umask 04H) Counts the number of remote snoops that have requested a cache line be set to the S state from E state. Requires writing MSR 301H with mask = 2H
GQ_SNOOP.GOTO_S_HIT_F (Event 0CH, Umask 04H) Counts the number of remote snoops that have requested a cache line be set to the S state from F (forward) state. Requires writing MSR 301H with mask = 8H
GQ_SNOOP.GOTO_S_HIT_M (Event 0CH, Umask 04H) Counts the number of remote snoops that have requested a cache line be set to the S state from M state. Requires writing MSR 301H with mask = 1H
GQ_SNOOP.GOTO_S_HIT_S (Event 0CH, Umask 04H) Counts the number of remote snoops that have requested a cache line be set to the S state from S state. Requires writing MSR 301H with mask = 4H
GQ_SNOOP.GOTO_I_HIT_E (Event 0CH, Umask 08H) Counts the number of remote snoops that have requested a cache line be set to the I state from E state. Requires writing MSR 301H with mask = 2H
GQ_SNOOP.GOTO_I_HIT_F (Event 0CH, Umask 08H) Counts the number of remote snoops that have requested a cache line be set to the I state from F (forward) state. Requires writing MSR 301H with mask = 8H
GQ_SNOOP.GOTO_I_HIT_M (Event 0CH, Umask 08H) Counts the number of remote snoops that have requested a cache line be set to the I state from M state. Requires writing MSR 301H with mask = 1H
GQ_SNOOP.GOTO_I_HIT_S (Event 0CH, Umask 08H) Counts the number of remote snoops that have requested a cache line be set to the I state from S state. Requires writing MSR 301H with mask = 4H write requests from the IOH.
QHL_REQUESTS.REMOTE_READS (Event 20H, Umask 04H) Counts number of Quickpath Home Logic read requests from a remote socket.
QHL_REQUESTS.REMOTE_WRITES (Event 20H, Umask 08H) Counts number of Quickpath Home Logic write requests from a remote socket.
QHL_REQUESTS.LOCAL_READS (Event 20H, Umask 10H) Counts number of Quickpath Home Logic read requests from the local socket.
QHL_REQUESTS.LOCAL_WRITES (Event 20H, Umask 20H) Counts number of Quickpath Home Logic write requests from the local socket.
QHL_CYCLES_FULL.IOH (Event 21H, Umask 01H) Counts uclk cycles all entries in the Quickpath Home Logic IOH are full.
QHL_CYCLES_FULL.REMOTE (Event 21H, Umask 02H) Counts uclk cycles all entries in the Quickpath Home Logic remote tracker are full.
QHL_CYCLES_FULL.LOCAL (Event 21H, Umask 04H) Counts uclk cycles all entries in the Quickpath Home Logic local tracker are full.
QHL_CYCLES_NOT_EMPTY.IOH (Event 22H, Umask 01H) Counts uclk cycles all entries in the Quickpath Home Logic IOH is busy.
QHL_CYCLES_NOT_EMPTY.REMOTE (Event 22H, Umask 02H) Counts uclk cycles all entries in the Quickpath Home Logic remote tracker is busy.
QHL_CYCLES_NOT_EMPTY.LOCAL (Event 22H, Umask 04H) Counts uclk cycles all entries in the Quickpath Home Logic local tracker is busy.
QHL_OCCUPANCY.IOH (Event 23H, Umask 01H) QHL IOH tracker allocate to deallocate read occupancy.
QHL_OCCUPANCY.REMOTE (Event 23H, Umask 02H) QHL remote tracker allocate to deallocate read occupancy.
QHL_OCCUPANCY.LOCAL (Event 23H, Umask 04H) QHL local tracker allocate to deallocate read occupancy.
QHL_ADDRESS_CONFLICTS.2WAY (Event 24H, Umask 02H) Counts number of QHL Active Address Table (AAT) entries that saw a max of 2 conflicts. The AAT is a structure that tracks requests that are in conflict. The requests themselves are in the home tracker entries. The count is reported when an AAT entry deallocates.
QHL_CONFLICT_CYCLES.IOH (Event 25H, Umask 01H) Counts cycles the Quickpath Home Logic IOH Tracker contains two or more requests with an address conflict. A max of 3 requests can be in conflict.
QHL_CONFLICT_CYCLES.REMOTE (Event 25H, Umask 02H) Counts cycles the Quickpath Home Logic Remote Tracker contains two or more requests with an address conflict. A max of 3 requests can be in conflict.
QHL_CONFLICT_CYCLES.LOCAL (Event 25H, Umask 04H) Counts cycles the Quickpath Home Logic Local Tracker contains two or more requests with an address conflict. A max of 3 requests can be in conflict.
QHL_TO_QMC_BYPASS (Event 26H, Umask 01H) Counts number or requests to the Quickpath Memory Controller that bypass the Quickpath Home Logic. All local accesses can be bypassed. For remote requests, only read requests can be bypassed.
QMC_ISOC_FULL.READ.CH0 (Event 28H, Umask 01H) Counts cycles all the entries in the DRAM channel 0 high priority queue are occupied with isochronous read requests.
QMC_ISOC_FULL.READ.CH1 (Event 28H, Umask 02H) Counts cycles all the entries in the DRAM channel 1 high priority queue are occupied with isochronous read requests.
QMC_ISOC_FULL.READ.CH2 (Event 28H, Umask 04H) Counts cycles all the entries in the DRAM channel 2 high priority queue are occupied with isochronous read requests.
QMC_ISOC_FULL.WRITE.CH0 (Event 28H, Umask 08H) Counts cycles all the entries in the DRAM channel 0 high priority queue are occupied with isochronous write requests.
QMC_ISOC_FULL.WRITE.CH1 (Event 28H, Umask 10H) Counts cycles all the entries in the DRAM channel 1 high priority queue are occupied with isochronous write requests.
QMC_ISOC_FULL.WRITE.CH2 (Event 28H, Umask 20H) Counts cycles all the entries in the DRAM channel 2 high priority queue are occupied with isochronous write requests.
QMC_BUSY.READ.CH0 (Event 29H, Umask 01H) Counts cycles where Quickpath Memory Controller has at least 1 outstanding read request to DRAM channel 0.
QMC_BUSY.READ.CH1 channel 2.
QMC_BUSY.WRITE.CH0 (Event 29H, Umask 08H) Counts cycles where Quickpath Memory Controller has at least 1 outstanding write request to DRAM channel 0.
QMC_BUSY.WRITE.CH1 (Event 29H, Umask 10H) Counts cycles where Quickpath Memory Controller has at least 1 outstanding write request to DRAM channel 1.
QMC_BUSY.WRITE.CH2 (Event 29H, Umask 20H) Counts cycles where Quickpath Memory Controller has at least 1 outstanding write request to DRAM channel 2.
QMC_OCCUPANCY.CH0 (Event 2AH, Umask 01H) IMC channel 0 normal read request occupancy.
QMC_OCCUPANCY.CH1 (Event 2AH, Umask 02H) IMC channel 1 normal read request occupancy.
QMC_OCCUPANCY.CH2 (Event 2AH, Umask 04H) IMC channel 2 normal read request occupancy.
QMC_OCCUPANCY.ANY (Event 2AH, Umask 07H) Normal read request occupancy for any channel.
QMC_ISSOC_OCCUPANCY.CH0 (Event 2BH, Umask 01H) IMC channel 0 issoc read request occupancy.
QMC_ISSOC_OCCUPANCY.CH1 (Event 2BH, Umask 02H) IMC channel 1 issoc read request occupancy.
QMC_ISSOC_OCCUPANCY.CH2 (Event 2BH, Umask 04H) IMC channel 2 issoc read request occupancy.
QMC_ISSOC_READS.ANY (Event 2BH, Umask 07H) IMC issoc read request occupancy.
QMC_NORMAL_READS.CH0 (Event 2CH, Umask 01H) Counts the number of Quickpath Memory Controller channel 0 medium and low priority read requests. The QMC channel 0 normal read occupancy divided by this count provides the average QMC channel 0 read latency.
QMC_NORMAL_READS.CH1 (Event 2CH, Umask 02H) Counts the number of Quickpath Memory Controller channel 1 medium and low priority read requests. The QMC channel 1 normal read occupancy divided by this count provides the average QMC channel 1 read latency.
QMC_NORMAL_READS.ANY (Event 2CH, Umask 07H) Counts the number of Quickpath Memory Controller medium and low priority read requests. The QMC normal read occupancy divided by this count provides the average QMC read latency.
QMC_HIGH_PRIORITY_READS.CH0 (Event 2DH, Umask 01H) Counts the number of Quickpath Memory Controller channel 0 high priority isochronous read requests.
QMC_HIGH_PRIORITY_READS.CH1 (Event 2DH, Umask 02H) Counts the number of Quickpath Memory Controller channel 1 high priority isochronous read requests.
QMC_HIGH_PRIORITY_READS.CH2 (Event 2DH, Umask 04H) Counts the number of Quickpath Memory Controller channel 2 high priority isochronous read requests.
QMC_HIGH_PRIORITY_READS.ANY (Event 2DH, Umask 07H) Counts the number of Quickpath Memory Controller high priority isochronous read requests.
QMC_CRITICAL_PRIORITY_READS.CH0 (Event 2EH, Umask 01H) Counts the number of Quickpath Memory Controller channel 0 critical priority isochronous read requests.
QMC_CRITICAL_PRIORITY_READS.CH1 (Event 2EH, Umask 02H) Counts the number of Quickpath Memory Controller channel 1 critical priority isochronous read requests.
QMC_CRITICAL_PRIORITY_READS.CH2 (Event 2EH, Umask 04H) Counts the number of Quickpath Memory Controller channel 2 critical priority isochronous read requests.
QMC_CRITICAL_PRIORITY_READS.ANY (Event 2EH, Umask 07H) Counts the number of Quickpath Memory Controller critical priority isochronous read requests.
QMC_WRITES.FULL.CH0 (Event 2FH, Umask 01H) Counts number of full cache line writes to DRAM channel 0.
QMC_WRITES.FULL.CH1 (Event 2FH, Umask 02H) Counts number of full cache line writes to DRAM channel 1.
QMC_WRITES.FULL.CH2 (Event 2FH, Umask 04H) Counts number of full cache line writes to DRAM channel 2.
QMC_WRITES.FULL.ANY (Event 2FH, Umask 07H) Counts number of full cache line writes to DRAM.
QMC_WRITES.PARTIAL.CH0 (Event 2FH, Umask 08H) Counts number of partial cache line writes to DRAM channel 0.
QMC_WRITES.PARTIAL.CH1 QMC_WRITES.PARTIAL.ANY (Event 2FH, Umask 38H) Counts number of partial cache line writes to DRAM.
QMC_CANCEL.CH0 (Event 30H, Umask 01H) Counts number of DRAM channel 0 cancel requests.
QMC_CANCEL.CH1 (Event 30H, Umask 02H) Counts number of DRAM channel 1 cancel requests.
QMC_CANCEL.CH2 (Event 30H, Umask 04H) Counts number of DRAM channel 2 cancel requests.
QMC_CANCEL.ANY (Event 30H, Umask 07H) Counts number of DRAM cancel requests.
QMC_PRIORITY_UPDATES.CH0 (Event 31H, Umask 01H) Counts number of DRAM channel 0 priority updates. A priority update occurs when an ISOC high or critical request is received by the QHL and there is a matching request with normal priority that has already been issued to the QMC. In this instance, the QHL will send a priority update to QMC to expedite the request.
QMC_PRIORITY_UPDATES.CH1 (Event 31H, Umask 02H) Counts number of DRAM channel 1 priority updates. A priority update occurs when an ISOC high or critical request is received by the QHL and there is a matching request with normal priority that has already been issued to the QMC. In this instance, the QHL will send a priority update to QMC to expedite the request.
QMC_PRIORITY_UPDATES.CH2 (Event 31H, Umask 04H) Counts number of DRAM channel 2 priority updates. A priority update occurs when an ISOC high or critical request is received by the QHL and there is a matching request with normal priority that has already been issued to the QMC. In this instance, the QHL will send a priority update to QMC to expedite the request.
QMC_PRIORITY_UPDATES.ANY (Event 31H, Umask 07H) Counts number of DRAM priority updates. A priority update occurs when an ISOC high or critical request is received by the QHL and there is a matching request with normal priority that has already been issued to the QMC. In this instance, the QHL will send a priority update to QMC to expedite the request.
IMC_RETRY.CH0 (Event 32H, Umask 01H) Counts number of IMC DRAM channel 0 retries. DRAM retry only occurs when configured in RAS mode.
IMC_RETRY.CH1 (Event 32H, Umask 02H) Counts number of IMC DRAM channel 1 retries. DRAM retry only occurs when configured in RAS mode.

QHL_FRC_ACK_CNFLTS.IOH (Event 33H, Umask 01H) Counts number of Force Acknowledge Conflict messages sent by the Quickpath Home Logic to the IOH.
QHL_FRC_ACK_CNFLTS.REMOTE (Event 33H, Umask 02H) Counts number of Force Acknowledge Conflict messages sent by the Quickpath Home Logic to the remote home.
QHL_FRC_ACK_CNFLTS.LOCAL (Event 33H, Umask 04H) Counts number of Force Acknowledge Conflict messages sent by the Quickpath Home Logic to the local home.
QHL_FRC_ACK_CNFLTS.ANY (Event 33H, Umask 07H) Counts number of Force Acknowledge Conflict messages sent by the Quickpath Home Logic.
QHL_SLEEPS.IOH_ORDER (Event 34H, Umask 01H) Counts number of occurrences a request was put to sleep due to IOH ordering (write after read) conflicts. While in the sleep state, the request is not eligible to be scheduled to the QMC.
QHL_SLEEPS.REMOTE_ORDER (Event 34H, Umask 02H) Counts number of occurrences a request was put to sleep due to remote socket ordering (write after read) conflicts. While in the sleep state, the request is not eligible to be scheduled to the QMC.
QHL_SLEEPS.LOCAL_ORDER (Event 34H, Umask 04H) Counts number of occurrences a request was put to sleep due to local socket ordering (write after read) conflicts. While in the sleep state, the request is not eligible to be scheduled to the QMC.
QHL_SLEEPS.IOH_CONFLICT (Event 34H, Umask 08H) Counts number of occurrences a request was put to sleep due to IOH address conflicts. While in the sleep state, the request is not eligible to be scheduled to the QMC.
QHL_SLEEPS.REMOTE_CONFLICT (Event 34H, Umask 10H) Counts number of occurrences a request was put to sleep due to remote socket address conflicts. While in the sleep state, the request is not eligible to be scheduled to the QMC.
QHL_SLEEPS.LOCAL_CONFLICT (Event 34H, Umask 20H) Counts number of occurrences a request was put to sleep due to local socket address conflicts. While in the sleep state, the request is not eligible to be scheduled to the QMC.
ADDR_OPCODE_MATCH.IOH (Event 35H, Umask 01H) Counts number of requests from the IOH, address/opcode of request is qualified by mask value written to MSR 396H. The following mask values are supported: 0: NONE 40000000_00000000H:RSPFWDI 40001A00_00000000H:RSPFWDS NONE 40000000_00000000H:RSPFWDI 40001A00_00000000H:RSPFWDS 40001D00_00000000H:RSPIWB Match opcode/address by writing MSR 396H with mask supported mask value.
ADDR_OPCODE_MATCH.LOCAL (Event 35H, Umask 04H) Counts number of requests from the local socket, address/opcode of request is qualified by mask value written to MSR 396H. The following mask values are supported: 0: NONE 40000000_00000000H:RSPFWDI 40001A00_00000000H:RSPFWDS 40001D00_00000000H:RSPIWB Match opcode/address by writing MSR 396H with mask supported mask value.
QPI_TX_STALLED_SINGLE_FLIT.HOME.LINK_0 (Event 40H, Umask 01H) Counts cycles the Quickpath outbound link 0 HOME virtual channel is stalled due to lack of a VNA and VN0 credit. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_SINGLE_FLIT.SNOOP.LINK_0 (Event 40H, Umask 02H) Counts cycles the Quickpath outbound link 0 SNOOP virtual channel is stalled due to lack of a VNA and VN0 credit. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_SINGLE_FLIT.NDR.LINK_0 (Event 40H, Umask 04H) Counts cycles the Quickpath outbound link 0 non-data response virtual channel is stalled due to lack of a VNA and VN0 credit. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_SINGLE_FLIT.HOME.LINK_1 (Event 40H, Umask 08H) Counts cycles the Quickpath outbound link 1 HOME virtual channel is stalled due to lack of a VNA and VN0 credit. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_SINGLE_FLIT.SNOOP.LINK_1 (Event 40H, Umask 10H) Counts cycles the Quickpath outbound link 1 SNOOP virtual channel is stalled due to lack of a VNA and VN0 credit. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_SINGLE_FLIT.NDR.LINK_1 (Event 40H, Umask 20H) Counts cycles the Quickpath outbound link 1 non-data response virtual channel is stalled due to lack of a VNA and VN0 credit. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_SINGLE_FLIT.LINK_0 (Event 40H, Umask 07H) Counts cycles the Quickpath outbound link 0 virtual channels are stalled due to lack of a VNA and VN0 credit. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.DRS.LINK_0 (Event 41H, Umask 01H) Counts cycles the Quickpath outbound link 0 Data ResponSe virtual channel is stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.NCB.LINK_0 (Event 41H, Umask 02H) Counts cycles the Quickpath outbound link 0 Non-Coherent Bypass virtual channel is stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.NCS.LINK_0 (Event 41H, Umask 04H) Counts cycles the Quickpath outbound link 0 Non-Coherent Standard virtual channel is stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.DRS.LINK_1 (Event 41H, Umask 08H) Counts cycles the Quickpath outbound link 1 Data ResponSe virtual channel is stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.NCB.LINK_1 (Event 41H, Umask 10H) Counts cycles the Quickpath outbound link 1 Non-Coherent Bypass virtual channel is stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.NCS.LINK_1 (Event 41H, Umask 20H) Counts cycles the Quickpath outbound link 1 Non-Coherent Standard virtual channel is stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.LINK_0 (Event 41H, Umask 07H) Counts cycles the Quickpath outbound link 0 virtual channels are stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_STALLED_MULTI_FLIT.LINK_1 (Event 41H, Umask 38H) Counts cycles the Quickpath outbound link 1 virtual channels are stalled due to lack of VNA and VN0 credits. Note that this event does not filter out when a flit would not have been selected for arbitration because another virtual channel is getting arbitrated.
QPI_TX_HEADER.FULL.LINK_0 QPI_TX_HEADER.FULL.LINK_1 (Event 42H, Umask 04H) Number of cycles that the header buffer in the Quickpath Interface outbound link 1 is full.
QPI_TX_HEADER.BUSY.LINK_1 (Event 42H, Umask 08H) Number of cycles that the header buffer in the Quickpath Interface outbound link 1 is busy.
QPI_RX_NO_PPT_CREDIT.STALLS.LINK_0 (Event 43H, Umask 01H) Number of cycles that snoop packets incoming to the Quickpath Interface link 0 are stalled and not sent to the GQ because the GQ Peer Probe Tracker (PPT) does not have any available entries.
QPI_RX_NO_PPT_CREDIT.STALLS.LINK_1 (Event 43H, Umask 02H) Number of cycles that snoop packets incoming to the Quickpath Interface link 1 are stalled and not sent to the GQ because the GQ Peer Probe Tracker (PPT) does not have any available entries.
DRAM_OPEN.CH0 (Event 60H, Umask 01H) Counts number of DRAM Channel 0 open commands issued either for read or write. To read or write data, the referenced DRAM page must first be opened.
DRAM_OPEN.CH1 (Event 60H, Umask 02H) Counts number of DRAM Channel 1 open commands issued either for read or write. To read or write data, the referenced DRAM page must first be opened.
DRAM_OPEN.CH2 (Event 60H, Umask 04H) Counts number of DRAM Channel 2 open commands issued either for read or write. To read or write data, the referenced DRAM page must first be opened.
DRAM_PAGE_CLOSE.CH0 (Event 61H, Umask 01H) DRAM channel 0 command issued to CLOSE a page due to page idle timer expiration. Closing a page is done by issuing a precharge.
DRAM_PAGE_CLOSE.CH1 (Event 61H, Umask 02H) DRAM channel 1 command issued to CLOSE a page due to page idle timer expiration. Closing a page is done by issuing a precharge.
DRAM_PAGE_CLOSE.CH2 (Event 61H, Umask 04H) DRAM channel 2 command issued to CLOSE a page due to page idle timer expiration. Closing a page is done by issuing a precharge.
DRAM_PAGE_MISS.CH0 (Event 62H, Umask 01H) Counts the number of precharges (PRE) that were issued to DRAM channel 0 because there was a page miss. A page miss refers to a situation in which a page is currently open and another page from the same bank needs to be opened. The new page experiences a page miss. Closing of the old page is done by issuing a precharge.
DRAM_PAGE_MISS.CH1 DRAM_PAGE_MISS.CH2 (Event 62H, Umask 04H) Counts the number of precharges (PRE) that were issued to DRAM channel 2 because there was a page miss. A page miss refers to a situation in which a page is currently open and another page from the same bank needs to be opened. The new page experiences a page miss. Closing of the old page is done by issuing a precharge.
DRAM_READ_CAS.CH0 (Event 63H, Umask 01H) Counts the number of times a read CAS command was issued on DRAM channel 0.
DRAM_READ_CAS.AUTOPRE_CH0 (Event 63H, Umask 02H) Counts the number of times a read CAS command was issued on DRAM channel 0 where the command issued used the auto-precharge (auto page close) mode.
DRAM_READ_CAS.CH1 (Event 63H, Umask 04H) Counts the number of times a read CAS command was issued on DRAM channel 1.
DRAM_READ_CAS.AUTOPRE_CH1 (Event 63H, Umask 08H) Counts the number of times a read CAS command was issued on DRAM channel 1 where the command issued used the auto-precharge (auto page close) mode.
DRAM_READ_CAS.CH2 (Event 63H, Umask 10H) Counts the number of times a read CAS command was issued on DRAM channel 2.
DRAM_READ_CAS.AUTOPRE_CH2 (Event 63H, Umask 20H) Counts the number of times a read CAS command was issued on DRAM channel 2 where the command issued used the auto-precharge (auto page close) mode.
DRAM_WRITE_CAS.CH0 (Event 64H, Umask 01H) Counts the number of times a write CAS command was issued on DRAM channel 0.
DRAM_WRITE_CAS.AUTOPRE_CH0 (Event 64H, Umask 02H) Counts the number of times a write CAS command was issued on DRAM channel 0 where the command issued used the auto-precharge (auto page close) mode.
DRAM_WRITE_CAS.CH1 (Event 64H, Umask 04H) Counts the number of times a write CAS command was issued on DRAM channel 1.
DRAM_WRITE_CAS.AUTOPRE_CH1 (Event 64H, Umask 08H) Counts the number of times a write CAS command was issued on DRAM channel 1 where the command issued used the auto-precharge (auto page close) mode.
DRAM_WRITE_CAS.CH2 (Event 64H, Umask 10H) Counts the number of times a write CAS command was issued on DRAM channel 2.
DRAM_WRITE_CAS.AUTOPRE_CH2 (Event 64H, Umask 20H) Counts the number of times a write CAS periodically.
DRAM_REFRESH.CH1 (Event 65H, Umask 02H) Counts number of DRAM channel 1 refresh commands. DRAM loses data content over time. In order to keep correct data content, the data values have to be refreshed periodically.
DRAM_REFRESH.CH2 (Event 65H, Umask 04H) Counts number of DRAM channel 2 refresh commands. DRAM loses data content over time. In order to keep correct data content, the data values have to be refreshed periodically.
DRAM_PRE_ALL.CH0 (Event 66H, Umask 01H) Counts number of DRAM Channel 0 precharge- all (PREALL) commands that close all open pages in a rank. PREALL is issued when the DRAM needs to be refreshed or needs to go into a power down mode.
DRAM_PRE_ALL.CH1 (Event 66H, Umask 02H) Counts number of DRAM Channel 1 precharge- all (PREALL) commands that close all open pages in a rank. PREALL is issued when the DRAM needs to be refreshed or needs to go into a power down mode.
DRAM_PRE_ALL.CH2 (Event 66H, Umask 04H) Counts number of DRAM Channel 2 precharge- all (PREALL) commands that close all open pages in a rank. PREALL is issued when the DRAM needs to be refreshed or needs to go into a power down mode.
DRAM_THERMAL_THROTTLED (Event 67H, Umask 01H) Uncore cycles DRAM was throttled due to its temperature being above the thermal throttling threshold.
THERMAL_THROTTLING_TEMP.CORE_0 (Event 80H, Umask 01H) Cycles that the PCU records that core 0 is above the thermal throttling threshold temperature.
THERMAL_THROTTLING_TEMP.CORE_1 (Event 80H, Umask 02H) Cycles that the PCU records that core 1 is above the thermal throttling threshold temperature.
THERMAL_THROTTLING_TEMP.CORE_2 (Event 80H, Umask 04H) Cycles that the PCU records that core 2 is above the thermal throttling threshold temperature.
THERMAL_THROTTLING_TEMP.CORE_3 (Event 80H, Umask 08H) Cycles that the PCU records that core 3 is above the thermal throttling threshold temperature.
THERMAL_THROTTLED_TEMP.CORE_0 (Event 81H, Umask 01H) Cycles that the PCU records that core 0 is in the power throttled state due to cores temperature being above the thermal throttling threshold.
THERMAL_THROTTLED_TEMP.CORE_1 (Event 81H, Umask 02H) Cycles that the PCU records that core 1 is
THERMAL_THROTTLED_TEMP.CORE_3 (Event 81H, Umask 08H) Cycles that the PCU records that core 3 is in the power throttled state due to cores temperature being above the thermal throttling threshold.
PROCHOT_ASSERTION (Event 82H, Umask 01H) Number of system assertions of PROCHOT indicating the entire processor has exceeded the thermal limit.
THERMAL_THROTTLING_PROCHOT.CORE_0 (Event 83H, Umask 01H) Cycles that the PCU records that core 0 is a low power state due to the system asserting PROCHOT the entire processor has exceeded the thermal limit.
THERMAL_THROTTLING_PROCHOT.CORE_1 (Event 83H, Umask 02H) Cycles that the PCU records that core 1 is a low power state due to the system asserting PROCHOT the entire processor has exceeded the thermal limit.
THERMAL_THROTTLING_PROCHOT.CORE_2 (Event 83H, Umask 04H) Cycles that the PCU records that core 2 is a low power state due to the system asserting PROCHOT the entire processor has exceeded the thermal limit.
THERMAL_THROTTLING_PROCHOT.CORE_3 (Event 83H, Umask 08H) Cycles that the PCU records that core 3 is a low power state due to the system asserting PROCHOT the entire processor has exceeded the thermal limit.
TURBO_MODE.CORE_0 (Event 84H, Umask 01H) Uncore cycles that core 0 is operating in turbo mode.
TURBO_MODE.CORE_1 (Event 84H, Umask 02H) Uncore cycles that core 1 is operating in turbo mode.
TURBO_MODE.CORE_2 (Event 84H, Umask 04H) Uncore cycles that core 2 is operating in turbo mode.
TURBO_MODE.CORE_3 (Event 84H, Umask 08H) Uncore cycles that core 3 is operating in turbo mode.
CYCLES_UNHALTED_L3_FLL_ENABLE (Event 85H, Umask 02H) Uncore cycles that at least one core is unhalted and all L3 ways are enabled.
CYCLES_UNHALTED_L3_FLL_DISABLE (Event 86H, Umask 01H) Uncore cycles that at least one core is unhalted and all L3 ways are disabled.
SEE ALSO pmc(3), pmc.atom(3), pmc.core(3), pmc.corei7(3), pmc.corei7uc(3), pmc.iaf(3), pmc.k7(3), pmc.k8(3), pmc.soft(3), pmc.tsc(3), pmc.ucf(3), pmc.westmere(3), pmc_cpuinfo(3), pmclog(3), hwpmc(4)
FreeBSD 14.0-RELEASE-p11 March 24, 2010 FreeBSD 14.0-RELEASE-p11