Add likwid collector

2025-07-31 08:56:06 +02:00 · 2021-03-25 14:47:10 +01:00
parent 4fddcb9741
commit a6ac0c5373
670 changed files with 24926 additions and 0 deletions
--- a/collectors/likwid/groups/haswellEP/BRANCH.txt
+++ b/collectors/likwid/groups/haswellEP/BRANCH.txt
@@ -0,0 +1,31 @@
+SHORT Branch prediction miss rate/ratio
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  BR_INST_RETIRED_ALL_BRANCHES
+PMC1  BR_MISP_RETIRED_ALL_BRANCHES
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Branch rate   PMC0/FIXC0
+Branch misprediction rate  PMC1/FIXC0
+Branch misprediction ratio  PMC1/PMC0
+Instructions per branch  FIXC0/PMC0
+
+LONG
+Formulas:
+Branch rate = BR_INST_RETIRED_ALL_BRANCHES/INSTR_RETIRED_ANY
+Branch misprediction rate =  BR_MISP_RETIRED_ALL_BRANCHES/INSTR_RETIRED_ANY
+Branch misprediction ratio = BR_MISP_RETIRED_ALL_BRANCHES/BR_INST_RETIRED_ALL_BRANCHES
+Instructions per branch = INSTR_RETIRED_ANY/BR_INST_RETIRED_ALL_BRANCHES
+-
+The rates state how often on average a branch or a mispredicted branch occurred
+per instruction retired in total. The branch misprediction ratio sets directly
+into relation what ratio of all branch instruction where mispredicted.
+Instructions per branch is 1/branch rate.
+
--- a/collectors/likwid/groups/haswellEP/CACHES.txt
+++ b/collectors/likwid/groups/haswellEP/CACHES.txt
@@ -0,0 +1,123 @@
+SHORT Cache bandwidth in MBytes/s
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  L1D_REPLACEMENT
+PMC1  L1D_M_EVICT
+PMC2  L2_LINES_IN_ALL
+PMC3  L2_TRANS_L2_WB
+CBOX0C0 LLC_LOOKUP_DATA_READ
+CBOX1C0 LLC_LOOKUP_DATA_READ
+CBOX2C0 LLC_LOOKUP_DATA_READ
+CBOX3C0 LLC_LOOKUP_DATA_READ
+CBOX4C0 LLC_LOOKUP_DATA_READ
+CBOX5C0 LLC_LOOKUP_DATA_READ
+CBOX6C0 LLC_LOOKUP_DATA_READ
+CBOX7C0 LLC_LOOKUP_DATA_READ
+CBOX8C0 LLC_LOOKUP_DATA_READ
+CBOX9C0 LLC_LOOKUP_DATA_READ
+CBOX10C0 LLC_LOOKUP_DATA_READ
+CBOX11C0 LLC_LOOKUP_DATA_READ
+CBOX12C0 LLC_LOOKUP_DATA_READ
+CBOX13C0 LLC_LOOKUP_DATA_READ
+CBOX14C0 LLC_LOOKUP_DATA_READ
+CBOX15C0 LLC_LOOKUP_DATA_READ
+CBOX16C0 LLC_LOOKUP_DATA_READ
+CBOX17C0 LLC_LOOKUP_DATA_READ
+CBOX0C1 LLC_VICTIMS_M
+CBOX1C1 LLC_VICTIMS_M
+CBOX2C1 LLC_VICTIMS_M
+CBOX3C1 LLC_VICTIMS_M
+CBOX4C1 LLC_VICTIMS_M
+CBOX5C1 LLC_VICTIMS_M
+CBOX6C1 LLC_VICTIMS_M
+CBOX7C1 LLC_VICTIMS_M
+CBOX8C1 LLC_VICTIMS_M
+CBOX9C1 LLC_VICTIMS_M
+CBOX10C1 LLC_VICTIMS_M
+CBOX11C1 LLC_VICTIMS_M
+CBOX12C1 LLC_VICTIMS_M
+CBOX13C1 LLC_VICTIMS_M
+MBOX0C0 CAS_COUNT_RD
+MBOX0C1 CAS_COUNT_WR
+MBOX1C0 CAS_COUNT_RD
+MBOX1C1 CAS_COUNT_WR
+MBOX2C0 CAS_COUNT_RD
+MBOX2C1 CAS_COUNT_WR
+MBOX3C0 CAS_COUNT_RD
+MBOX3C1 CAS_COUNT_WR
+MBOX4C0 CAS_COUNT_RD
+MBOX4C1 CAS_COUNT_WR
+MBOX5C0 CAS_COUNT_RD
+MBOX5C1 CAS_COUNT_WR
+MBOX6C0 CAS_COUNT_RD
+MBOX6C1 CAS_COUNT_WR
+MBOX7C0 CAS_COUNT_RD
+MBOX7C1 CAS_COUNT_WR
+
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L2 to L1 load bandwidth [MBytes/s] 1.0E-06*PMC0*64.0/time
+L2 to L1 load data volume [GBytes] 1.0E-09*PMC0*64.0
+L1 to L2 evict bandwidth [MBytes/s] 1.0E-06*PMC1*64.0/time
+L1 to L2 evict data volume [GBytes] 1.0E-09*PMC1*64.0
+L1 to/from L2 bandwidth [MBytes/s] 1.0E-06*(PMC0+PMC1)*64.0/time
+L1 to/from L2 data volume [GBytes] 1.0E-09*(PMC0+PMC1)*64.0
+L3 to L2 load bandwidth [MBytes/s]  1.0E-06*PMC2*64.0/time
+L3 to L2 load data volume [GBytes]  1.0E-09*PMC2*64.0
+L2 to L3 evict bandwidth [MBytes/s]  1.0E-06*PMC3*64.0/time
+L2 to L3 evict data volume [GBytes]  1.0E-09*PMC3*64.0
+L2 to/from L3 bandwidth [MBytes/s] 1.0E-06*(PMC2+PMC3)*64.0/time
+L2 to/from L3 data volume [GBytes] 1.0E-09*(PMC2+PMC3)*64.0
+System to L3 bandwidth [MBytes/s] 1.0E-06*(CBOX0C0+CBOX1C0+CBOX2C0+CBOX3C0+CBOX4C0+CBOX5C0+CBOX6C0+CBOX7C0+CBOX8C0+CBOX9C0+CBOX10C0+CBOX11C0+CBOX12C0+CBOX13C0)*64.0/time
+System to L3 data volume [GBytes] 1.0E-09*(CBOX0C0+CBOX1C0+CBOX2C0+CBOX3C0+CBOX4C0+CBOX5C0+CBOX6C0+CBOX7C0+CBOX8C0+CBOX9C0+CBOX10C0+CBOX11C0+CBOX12C0+CBOX13C0)*64.0
+L3 to system bandwidth [MBytes/s] 1.0E-06*(CBOX0C1+CBOX1C1+CBOX2C1+CBOX3C1+CBOX4C1+CBOX5C1+CBOX6C1+CBOX7C1+CBOX8C1+CBOX9C1+CBOX10C1+CBOX11C1+CBOX12C1+CBOX13C1)*64/time
+L3 to system data volume [GBytes] 1.0E-09*(CBOX0C1+CBOX1C1+CBOX2C1+CBOX3C1+CBOX4C1+CBOX5C1+CBOX6C1+CBOX7C1+CBOX8C1+CBOX9C1+CBOX10C1+CBOX11C1+CBOX12C1+CBOX13C1)*64
+L3 to/from system bandwidth [MBytes/s] 1.0E-06*(CBOX0C0+CBOX1C0+CBOX2C0+CBOX3C0+CBOX4C0+CBOX5C0+CBOX6C0+CBOX7C0+CBOX8C0+CBOX9C0+CBOX10C0+CBOX11C0+CBOX12C0+CBOX13C0+CBOX0C1+CBOX1C1+CBOX2C1+CBOX3C1+CBOX4C1+CBOX5C1+CBOX6C1+CBOX7C1+CBOX8C1+CBOX9C1+CBOX10C1+CBOX11C1+CBOX12C1+CBOX13C1)*64.0/time
+L3 to/from system data volume [GBytes] 1.0E-09*(CBOX0C0+CBOX1C0+CBOX2C0+CBOX3C0+CBOX4C0+CBOX5C0+CBOX6C0+CBOX7C0+CBOX8C0+CBOX9C0+CBOX10C0+CBOX11C0+CBOX12C0+CBOX13C0+CBOX0C1+CBOX1C1+CBOX2C1+CBOX3C1+CBOX4C1+CBOX5C1+CBOX6C1+CBOX7C1+CBOX8C1+CBOX9C1+CBOX10C1+CBOX11C1+CBOX12C1+CBOX13C1)*64.0
+Memory read bandwidth [MBytes/s] 1.0E-06*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0)*64.0/time
+Memory read data volume [GBytes] 1.0E-09*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0)*64.0
+Memory write bandwidth [MBytes/s] 1.0E-06*(MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0/time
+Memory write data volume [GBytes] 1.0E-09*(MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0
+Memory bandwidth [MBytes/s] 1.0E-06*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0+MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0/time
+Memory data volume [GBytes] 1.0E-09*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0+MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0
+
+LONG
+Formulas:
+L2 to L1 load bandwidth [MBytes/s] = 1.0E-06*L1D_REPLACEMENT*64/time
+L2 to L1 load data volume [GBytes] = 1.0E-09*L1D_REPLACEMENT*64
+L1 to L2 evict bandwidth [MBytes/s] = 1.0E-06*L1D_M_EVICT*64/time
+L1 to L2 evict data volume [GBytes] = 1.0E-09*L1D_M_EVICT*64
+L1 to/from L2 bandwidth [MBytes/s] = 1.0E-06*(L1D_REPLACEMENT+L1D_M_EVICT)*64/time
+L1 to/from L2 data volume [GBytes] = 1.0E-09*(L1D_REPLACEMENT+L1D_M_EVICT)*64
+L3 to L2 load bandwidth [MBytes/s] = 1.0E-06*L2_LINES_IN_ALL*64/time
+L3 to L2 load data volume [GBytes] = 1.0E-09*L2_LINES_IN_ALL*64
+L2 to L3 evict bandwidth [MBytes/s] = 1.0E-06*L2_TRANS_L2_WB*64/time
+L2 to L3 evict data volume [GBytes] = 1.0E-09*L2_TRANS_L2_WB*64
+L2 to/from L3 bandwidth [MBytes/s] = 1.0E-06*(L2_LINES_IN_ALL+L2_TRANS_L2_WB)*64/time
+L2 to/from L3 data volume [GBytes] = 1.0E-09*(L2_LINES_IN_ALL+L2_TRANS_L2_WB)*64
+System to L3 bandwidth [MBytes/s] = 1.0E-06*(SUM(LLC_LOOKUP_DATA_READ))*64/time
+System to L3 data volume [GBytes] = 1.0E-09*(SUM(LLC_LOOKUP_DATA_READ))*64
+L3 to system bandwidth [MBytes/s] = 1.0E-06*(SUM(LLC_VICTIMS_M))*64/time
+L3 to system data volume [GBytes] = 1.0E-09*(SUM(LLC_VICTIMS_M))*64
+L3 to/from system bandwidth [MBytes/s] = 1.0E-06*(SUM(LLC_LOOKUP_DATA_READ)+SUM(LLC_VICTIMS_M))*64/time
+L3 to/from system data volume [GBytes] = 1.0E-09*(SUM(LLC_LOOKUP_DATA_READ)+SUM(LLC_VICTIMS_M))*64
+Memory read bandwidth [MBytes/s] = 1.0E-06*(SUM(CAS_COUNT_RD))*64.0/time
+Memory read data volume [GBytes] = 1.0E-09*(SUM(CAS_COUNT_RD))*64.0
+Memory write bandwidth [MBytes/s] = 1.0E-06*(SUM(CAS_COUNT_WR))*64.0/time
+Memory write data volume [GBytes] = 1.0E-09*(SUM(CAS_COUNT_WR))*64.0
+Memory bandwidth [MBytes/s] = 1.0E-06*(SUM(CAS_COUNT_RD)+SUM(CAS_COUNT_WR))*64.0/time
+Memory data volume [GBytes] = 1.0E-09*(SUM(CAS_COUNT_RD)+SUM(CAS_COUNT_WR))*64.0
+-
+Group to measure cache transfers between L1 and Memory. Please notice that the
+L3 to/from system metrics contain any traffic to the system (memory,
+Intel QPI, etc.) but don't seem to handle anything because commonly memory read
+bandwidth and L3 to L2 bandwidth is higher as the memory to L3 bandwidth.
+
--- a/collectors/likwid/groups/haswellEP/CBOX.txt
+++ b/collectors/likwid/groups/haswellEP/CBOX.txt
@@ -0,0 +1,61 @@
+SHORT CBOX related data and metrics
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+CBOX0C0 LLC_VICTIMS_M
+CBOX1C0 LLC_VICTIMS_M
+CBOX2C0 LLC_VICTIMS_M
+CBOX3C0 LLC_VICTIMS_M
+CBOX4C0 LLC_VICTIMS_M
+CBOX5C0 LLC_VICTIMS_M
+CBOX6C0 LLC_VICTIMS_M
+CBOX7C0 LLC_VICTIMS_M
+CBOX8C0 LLC_VICTIMS_M
+CBOX9C0 LLC_VICTIMS_M
+CBOX10C0 LLC_VICTIMS_M
+CBOX11C0 LLC_VICTIMS_M
+CBOX12C0 LLC_VICTIMS_M
+CBOX13C0 LLC_VICTIMS_M
+CBOX14C0 LLC_VICTIMS_M
+CBOX15C0 LLC_VICTIMS_M
+CBOX16C0 LLC_VICTIMS_M
+CBOX17C0 LLC_VICTIMS_M
+CBOX0C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX1C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX2C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX3C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX4C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX5C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX6C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX7C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX8C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX9C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX10C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX11C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX12C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX13C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX14C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX15C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX16C1:STATE=0x1 LLC_LOOKUP_ANY
+CBOX17C1:STATE=0x1 LLC_LOOKUP_ANY
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+LLC misses per instruction (CBOX0C0+CBOX1C0+CBOX2C0+CBOX3C0+CBOX4C0+CBOX5C0+CBOX6C0+CBOX7C0+CBOX8C0+CBOX9C0+CBOX10C0+CBOX11C0+CBOX12C0+CBOX13C0+CBOX14C0+CBOX15C0+CBOX16C0+CBOX17C0)/FIXC0
+LL2 data written to MEM [MBytes] 1E-6*(CBOX0C1:STATE=0x1+CBOX1C1:STATE=0x1+CBOX2C1:STATE=0x1+CBOX3C1:STATE=0x1+CBOX4C1:STATE=0x1+CBOX5C1:STATE=0x1+CBOX6C1:STATE=0x1+CBOX7C1:STATE=0x1+CBOX8C1:STATE=0x1+CBOX9C1:STATE=0x1+CBOX10C1:STATE=0x1+CBOX11C1:STATE=0x1+CBOX12C1:STATE=0x1+CBOX13C1:STATE=0x1+CBOX14C1:STATE=0x1+CBOX15C1:STATE=0x1+CBOX16C1:STATE=0x1+CBOX17C1:STATE=0x1)*64
+
+
+LONG
+Formulas:
+LLC Misses Per Instruction = sum(LLC_VICTIMS_M)/INSTR_RETIRED_ANY
+LL2 data written to MEM [MBytes] = sum(LLC_LOOKUP_ANY)*64*1E-6
+-
+The CBOXes mediate the traffic from the L2 cache to the segmented L3 cache. Each
+CBOX is responsible for one segment (2.5 MByte). The boxes maintain the coherence between all
+CPU cores of the socket. Depending on the CPU core count, some CBOXes are not attached
+to a 2.5 MByte slice but are still active and track the traffic.
--- a/collectors/likwid/groups/haswellEP/CLOCK.txt
+++ b/collectors/likwid/groups/haswellEP/CLOCK.txt
@@ -0,0 +1,26 @@
+SHORT Power and Energy consumption
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PWR0  PWR_PKG_ENERGY
+UBOXFIX UNCORE_CLOCK
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+Uncore Clock [MHz] 1.E-06*UBOXFIX/time
+CPI  FIXC1/FIXC0
+Energy [J]  PWR0
+Power [W] PWR0/time
+
+LONG
+Formulas:
+Power =  PWR_PKG_ENERGY / time
+Uncore Clock [MHz] = 1.E-06 * UNCORE_CLOCK / time
+-
+Haswell implements the new RAPL interface. This interface enables to
+monitor the consumed energy on the package (socket) level.
+
--- a/collectors/likwid/groups/haswellEP/CYCLE_ACTIVITY.txt
+++ b/collectors/likwid/groups/haswellEP/CYCLE_ACTIVITY.txt
@@ -0,0 +1,38 @@
+SHORT Cycle Activities
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0 CYCLE_ACTIVITY_CYCLES_L2_PENDING
+PMC1 CYCLE_ACTIVITY_CYCLES_LDM_PENDING
+PMC2 CYCLE_ACTIVITY_CYCLES_L1D_PENDING
+PMC3 CYCLE_ACTIVITY_CYCLES_NO_EXECUTE
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Cycles without execution [%] (PMC3/FIXC1)*100
+Cycles without execution due to L1D [%] (PMC2/FIXC1)*100
+Cycles without execution due to L2 [%] (PMC0/FIXC1)*100
+Cycles without execution due to memory loads [%] (PMC1/FIXC1)*100
+
+LONG
+Formulas:
+Cycles without execution [%] = CYCLE_ACTIVITY_CYCLES_NO_EXECUTE/CPU_CLK_UNHALTED_CORE*100
+Cycles with stalls due to L1D [%] = CYCLE_ACTIVITY_CYCLES_L1D_PENDING/CPU_CLK_UNHALTED_CORE*100
+Cycles with stalls due to L2 [%] = CYCLE_ACTIVITY_CYCLES_L2_PENDING/CPU_CLK_UNHALTED_CORE*100
+Cycles without execution due to memory loads [%] = CYCLE_ACTIVITY_CYCLES_LDM_PENDING/CPU_CLK_UNHALTED_CORE*100
+--
+This performance group measures the cycles while waiting for data from the cache
+and memory hierarchy.
+CYCLE_ACTIVITY_CYCLES_NO_EXECUTE: Counts number of cycles nothing is executed on
+any execution port.
+CYCLE_ACTIVITY_CYCLES_L1D_PENDING: Cycles while L1 cache miss demand load is
+outstanding.
+CYCLE_ACTIVITY_CYCLES_L2_PENDING: Cycles while L2 cache miss demand load is
+outstanding.
+CYCLE_ACTIVITY_CYCLES_LDM_PENDING: Cycles while memory subsystem has an
+outstanding load.
--- a/collectors/likwid/groups/haswellEP/CYCLE_STALLS.txt
+++ b/collectors/likwid/groups/haswellEP/CYCLE_STALLS.txt
@@ -0,0 +1,45 @@
+SHORT Cycle Activities (Stalls)
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0 CYCLE_ACTIVITY_STALLS_L2_PENDING
+PMC1 CYCLE_ACTIVITY_STALLS_LDM_PENDING
+PMC2 CYCLE_ACTIVITY_STALLS_L1D_PENDING
+PMC3 CYCLE_ACTIVITY_STALLS_TOTAL
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Total execution stalls PMC3
+Stalls caused by L1D misses [%] (PMC2/PMC3)*100
+Stalls caused by L2 misses [%] (PMC0/PMC3)*100
+Stalls caused by memory loads [%] (PMC1/PMC3)*100
+Execution stall rate [%] (PMC3/FIXC1)*100
+Stalls caused by L1D misses rate [%] (PMC2/FIXC1)*100
+Stalls caused by L2 misses rate [%] (PMC0/FIXC1)*100
+Stalls caused by memory loads rate [%] (PMC1/FIXC1)*100
+
+LONG
+Formulas:
+Total execution stalls = CYCLE_ACTIVITY_STALLS_TOTAL
+Stalls caused by L1D misses [%] = (CYCLE_ACTIVITY_STALLS_L1D_PENDING/CYCLE_ACTIVITY_STALLS_TOTAL)*100
+Stalls caused by L2 misses [%] = (CYCLE_ACTIVITY_STALLS_L2_PENDING/CYCLE_ACTIVITY_STALLS_TOTAL)*100
+Stalls caused by memory loads [%] = (CYCLE_ACTIVITY_STALLS_LDM_PENDING/CYCLE_ACTIVITY_STALLS_TOTAL)*100
+Execution stall rate [%] = (CYCLE_ACTIVITY_STALLS_TOTAL/CPU_CLK_UNHALTED_CORE)*100
+Stalls caused by L1D misses rate [%] = (CYCLE_ACTIVITY_STALLS_L1D_PENDING/CPU_CLK_UNHALTED_CORE)*100
+Stalls caused by L2 misses rate [%] = (CYCLE_ACTIVITY_STALLS_L2_PENDING/CPU_CLK_UNHALTED_CORE)*100
+Stalls caused by memory loads rate [%] = (CYCLE_ACTIVITY_STALLS_LDM_PENDING/CPU_CLK_UNHALTED_CORE)*100
+--
+This performance group measures the stalls caused by data traffic in the cache
+hierarchy.
+CYCLE_ACTIVITY_STALLS_TOTAL: Total execution stalls.
+CYCLE_ACTIVITY_STALLS_L1D_PENDING: Execution stalls while L1 cache miss demand
+load is outstanding.
+CYCLE_ACTIVITY_STALLS_L2_PENDING: Execution stalls while L2 cache miss demand
+load is outstanding.
+CYCLE_ACTIVITY_STALLS_LDM_PENDING: Execution stalls while memory subsystem has
+an outstanding load.
--- a/collectors/likwid/groups/haswellEP/DATA.txt
+++ b/collectors/likwid/groups/haswellEP/DATA.txt
@@ -0,0 +1,22 @@
+SHORT Load to store ratio
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  MEM_UOPS_RETIRED_LOADS
+PMC1  MEM_UOPS_RETIRED_STORES
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Load to store ratio PMC0/PMC1
+
+LONG
+Formulas:
+Load to store ratio = MEM_UOPS_RETIRED_LOADS/MEM_UOPS_RETIRED_STORES
+-
+This is a metric to determine your load to store ratio.
+
--- a/collectors/likwid/groups/haswellEP/DIVIDE.txt
+++ b/collectors/likwid/groups/haswellEP/DIVIDE.txt
@@ -0,0 +1,24 @@
+SHORT Divide unit information
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0 ARITH_DIVIDER_UOPS
+PMC1 ARITH_DIVIDER_CYCLES
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Number of divide ops PMC0
+Avg. divide unit usage duration PMC1/PMC0
+
+LONG
+Formulas:
+Number of divide ops = ARITH_DIVIDER_UOPS
+Avg. divide unit usage duration = ARITH_DIVIDER_CYCLES/ARITH_DIVIDER_UOPS
+-
+This performance group measures the average latency of divide operations
--- a/collectors/likwid/groups/haswellEP/ENERGY.txt
+++ b/collectors/likwid/groups/haswellEP/ENERGY.txt
@@ -0,0 +1,35 @@
+SHORT Power and Energy consumption
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+TMP0  TEMP_CORE
+PWR0  PWR_PKG_ENERGY
+PWR1  PWR_PP0_ENERGY
+PWR3  PWR_DRAM_ENERGY
+
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Temperature [C]  TMP0
+Energy [J]  PWR0
+Power [W] PWR0/time
+Energy PP0 [J]  PWR1
+Power PP0 [W] PWR1/time
+Energy DRAM [J]  PWR3
+Power DRAM [W] PWR3/time
+
+LONG
+Formulas:
+Power = PWR_PKG_ENERGY / time
+Power PP0 = PWR_PP0_ENERGY / time
+Power DRAM = PWR_DRAM_ENERGY / time
+-
+Haswell implements the new RAPL interface. This interface enables to
+monitor the consumed energy on the package (socket)  and DRAM level.
+
--- a/collectors/likwid/groups/haswellEP/FALSE_SHARE.txt
+++ b/collectors/likwid/groups/haswellEP/FALSE_SHARE.txt
@@ -0,0 +1,34 @@
+SHORT False sharing
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0 MEM_LOAD_UOPS_L3_HIT_RETIRED_XSNP_HITM
+PMC1 MEM_LOAD_UOPS_L3_MISS_RETIRED_REMOTE_HITM
+PMC2 MEM_LOAD_UOPS_RETIRED_ALL_ALL
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Local LLC hit with false sharing [MByte] 1.E-06*PMC0*64
+Local LLC hit with false sharing rate PMC0/PMC2
+Remote LLC false sharing [MByte] 1.E-06*PMC1*64
+Remote LLC false sharing rate PMC1/PMC2
+
+LONG
+Formulas:
+Local LLC false sharing [MByte] = 1.E-06*MEM_LOAD_UOPS_L3_HIT_RETIRED_XSNP_HITM*64
+Local LLC false sharing rate = MEM_LOAD_UOPS_L3_HIT_RETIRED_XSNP_HITM/MEM_LOAD_UOPS_RETIRED_ALL
+Remote LLC false sharing [MByte] = 1.E-06*MEM_LOAD_UOPS_L3_MISS_RETIRED_REMOTE_HITM*64
+Remote LLC false sharing rate = MEM_LOAD_UOPS_L3_MISS_RETIRED_REMOTE_HITM/MEM_LOAD_UOPS_RETIRED_ALL
+-
+False-sharing of cache lines can dramatically reduce the performance of an
+application. This performance group measures the L3 traffic induced by false-sharing.
+The false-sharing rate uses all memory loads as reference.
+For systems with multiple CPU sockets, this performance group also measures the
+false-sharing of cache lines over socket boundaries.
+Please keep in mind that the MEM_LOAD_UOPS_L3_HIT_RETIRED_XSNP_HITM event may
+undercount by as much as 40% (Errata HSW150).
--- a/collectors/likwid/groups/haswellEP/FLOPS_AVX.txt
+++ b/collectors/likwid/groups/haswellEP/FLOPS_AVX.txt
@@ -0,0 +1,28 @@
+SHORT Packed AVX MFLOP/s
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0   AVX_INSTS_CALC
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Packed SP [MFLOP/s]  1.0E-06*(PMC0*8.0)/time
+Packed DP [MFLOP/s]  1.0E-06*(PMC0*4.0)/time
+
+LONG
+Formulas:
+Packed SP [MFLOP/s] = 1.0E-06*(AVX_INSTS_CALC*8)/runtime
+Packed DP [MFLOP/s] = 1.0E-06*(AVX_INSTS_CALC*4)/runtime
+-
+Packed 32b AVX FLOP/s rates. Approximate counts of AVX & AVX2 256-bit instructions.
+May count non-AVX instructions that employ 256-bit operations, including (but
+not necessarily limited to) rep string instructions that use 256-bit loads and
+stores for optimized performance, XSAVE* and XRSTOR*, and operations that
+transition the x87 FPU data registers between x87 and MMX.
+Caution: The event AVX_INSTS_CALC counts the insertf128 instruction often used
+by the Intel C compilers for (unaligned) vector loads.
--- a/collectors/likwid/groups/haswellEP/HA.txt
+++ b/collectors/likwid/groups/haswellEP/HA.txt
@@ -0,0 +1,40 @@
+SHORT Main memory bandwidth in MBytes/s seen from Home agent
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+BBOX0C0 IMC_READS_NORMAL
+BBOX0C1 BYPASS_IMC_TAKEN
+BBOX0C2 IMC_WRITES_ALL
+BBOX1C0 IMC_READS_NORMAL
+BBOX1C1 BYPASS_IMC_TAKEN
+BBOX1C2 IMC_WRITES_ALL
+
+
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Memory read bandwidth [MBytes/s] 1.0E-06*(BBOX0C0+BBOX1C0+BBOX0C1+BBOX1C1)*64.0/time
+Memory read data volume [GBytes] 1.0E-09*(BBOX0C0+BBOX1C0+BBOX0C1+BBOX1C1)*64.0
+Memory write bandwidth [MBytes/s] 1.0E-06*(BBOX0C2+BBOX1C2)*64.0/time
+Memory write data volume [GBytes] 1.0E-09*(BBOX0C2+BBOX1C2)*64.0
+Memory bandwidth [MBytes/s] 1.0E-06*(BBOX0C0+BBOX1C0+BBOX0C1+BBOX1C1+BBOX0C2+BBOX1C2)*64.0/time
+Memory data volume [GBytes] 1.0E-09*(BBOX0C0+BBOX1C0+BBOX0C1+BBOX1C1+BBOX0C2+BBOX1C2)*64.0
+
+LONG
+Formulas:
+Memory read bandwidth [MBytes/s] = 1.0E-06*(SUM(IMC_READS_NORMAL)+SUM(BYPASS_IMC_TAKEN))*64.0/time
+Memory read data volume [GBytes] = 1.0E-09*(SUM(IMC_READS_NORMAL)+SUM(BYPASS_IMC_TAKEN))*64.0
+Memory write bandwidth [MBytes/s] = 1.0E-06*(SUM(IMC_WRITES_ALL))*64.0/time
+Memory write data volume [GBytes] = 1.0E-09*(SUM(IMC_WRITES_ALL))*64.0
+Memory bandwidth [MBytes/s] = 1.0E-06*(SUM(IMC_READS_NORMAL) + SUM(BYPASS_IMC_TAKEN) + SUM(IMC_WRITES_ALL))*64.0/time
+Memory data volume [GBytes] = 1.0E-09*(SUM(IMC_READS_NORMAL) + SUM(BYPASS_IMC_TAKEN) + SUM(IMC_WRITES_ALL))*64.0
+-
+This group derives the same metrics as the MEM group but use the events of the
+Home Agent, a central unit that is responsible for the protocol side of memory
+interactions.
--- a/collectors/likwid/groups/haswellEP/ICACHE.txt
+++ b/collectors/likwid/groups/haswellEP/ICACHE.txt
@@ -0,0 +1,33 @@
+SHORT  Instruction cache miss rate/ratio
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  ICACHE_ACCESSES
+PMC1  ICACHE_MISSES
+PMC2  ICACHE_IFETCH_STALL
+PMC3  ILD_STALL_IQ_FULL
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L1I request rate PMC0/FIXC0
+L1I miss rate PMC1/FIXC0
+L1I miss ratio PMC1/PMC0
+L1I stalls PMC2
+L1I stall rate PMC2/FIXC0
+L1I queue full stalls PMC3
+L1I queue full stall rate PMC3/FIXC0
+
+LONG
+Formulas:
+L1I request rate = ICACHE_ACCESSES / INSTR_RETIRED_ANY
+L1I miss rate = ICACHE_MISSES / INSTR_RETIRED_ANY
+L1I miss ratio = ICACHE_MISSES / ICACHE_ACCESSES
+L1I stalls = ICACHE_IFETCH_STALL
+L1I stall rate = ICACHE_IFETCH_STALL / INSTR_RETIRED_ANY
+-
+This group measures some L1 instruction cache metrics.
--- a/collectors/likwid/groups/haswellEP/L2.txt
+++ b/collectors/likwid/groups/haswellEP/L2.txt
@@ -0,0 +1,37 @@
+SHORT  L2 cache bandwidth in MBytes/s
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  L1D_REPLACEMENT
+PMC1  L2_TRANS_L1D_WB
+PMC2  ICACHE_MISSES
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L2D load bandwidth [MBytes/s]  1.0E-06*PMC0*64.0/time
+L2D load data volume [GBytes]  1.0E-09*PMC0*64.0
+L2D evict bandwidth [MBytes/s]  1.0E-06*PMC1*64.0/time
+L2D evict data volume [GBytes]  1.0E-09*PMC1*64.0
+L2 bandwidth [MBytes/s] 1.0E-06*(PMC0+PMC1+PMC2)*64.0/time
+L2 data volume [GBytes] 1.0E-09*(PMC0+PMC1+PMC2)*64.0
+
+LONG
+Formulas:
+L2D load bandwidth [MBytes/s] = 1.0E-06*L1D_REPLACEMENT*64.0/time
+L2D load data volume [GBytes] = 1.0E-09*L1D_REPLACEMENT*64.0
+L2D evict bandwidth [MBytes/s] = 1.0E-06*L2_TRANS_L1D_WB*64.0/time
+L2D evict data volume [GBytes] = 1.0E-09*L2_TRANS_L1D_WB*64.0
+L2 bandwidth [MBytes/s] = 1.0E-06*(L1D_REPLACEMENT+L2_TRANS_L1D_WB+ICACHE_MISSES)*64.0/time
+L2 data volume [GBytes] = 1.0E-09*(L1D_REPLACEMENT+L2_TRANS_L1D_WB+ICACHE_MISSES)*64.0
+-
+Profiling group to measure L2 cache bandwidth. The bandwidth is computed by the
+number of cache line loaded from the L2 to the L2 data cache and the writebacks from
+the L2 data cache to the L2 cache. The group also outputs total data volume transferred between
+L2 and L1. Note that this bandwidth also includes data transfers due to a write
+allocate load on a store miss in L1 and cache lines transferred it the instruction
+cache.
--- a/collectors/likwid/groups/haswellEP/L2CACHE.txt
+++ b/collectors/likwid/groups/haswellEP/L2CACHE.txt
@@ -0,0 +1,34 @@
+SHORT L2 cache miss rate/ratio
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  L2_TRANS_ALL_REQUESTS
+PMC1  L2_RQSTS_MISS
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L2 request rate PMC0/FIXC0
+L2 miss rate PMC1/FIXC0
+L2 miss ratio PMC1/PMC0
+
+LONG
+Formulas:
+L2 request rate = L2_TRANS_ALL_REQUESTS/INSTR_RETIRED_ANY
+L2 miss rate = L2_RQSTS_MISS/INSTR_RETIRED_ANY
+L2 miss ratio = L2_RQSTS_MISS/L2_TRANS_ALL_REQUESTS
+-
+This group measures the locality of your data accesses with regard to the
+L2 cache. L2 request rate tells you how data intensive your code is
+or how many data accesses you have on average per instruction.
+The L2 miss rate gives a measure how often it was necessary to get
+cache lines from memory. And finally L2 miss ratio tells you how many of your
+memory references required a cache line to be loaded from a higher level.
+While the# data cache miss rate might be given by your algorithm you should
+try to get data cache miss ratio as low as possible by increasing your cache reuse.
+
+
--- a/collectors/likwid/groups/haswellEP/L3.txt
+++ b/collectors/likwid/groups/haswellEP/L3.txt
@@ -0,0 +1,36 @@
+SHORT  L3 cache bandwidth in MBytes/s
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  L2_LINES_IN_ALL
+PMC1  L2_TRANS_L2_WB
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L3 load bandwidth [MBytes/s]  1.0E-06*PMC0*64.0/time
+L3 load data volume [GBytes]  1.0E-09*PMC0*64.0
+L3 evict bandwidth [MBytes/s]  1.0E-06*PMC1*64.0/time
+L3 evict data volume [GBytes]  1.0E-09*PMC1*64.0
+L3 bandwidth [MBytes/s] 1.0E-06*(PMC0+PMC1)*64.0/time
+L3 data volume [GBytes] 1.0E-09*(PMC0+PMC1)*64.0
+
+LONG
+Formulas:
+L3 load bandwidth [MBytes/s] = 1.0E-06*L2_LINES_IN_ALL*64.0/time
+L3 load data volume [GBytes] = 1.0E-09*L2_LINES_IN_ALL*64.0
+L3 evict bandwidth [MBytes/s] = 1.0E-06*L2_LINES_OUT_DEMAND_DIRTY*64.0/time
+L3 evict data volume [GBytes] = 1.0E-09*L2_LINES_OUT_DEMAND_DIRTY*64.0
+L3 bandwidth [MBytes/s] = 1.0E-06*(L2_LINES_IN_ALL+L2_LINES_OUT_DEMAND_DIRTY)*64/time
+L3 data volume [GBytes] = 1.0E-09*(L2_LINES_IN_ALL+L2_LINES_OUT_DEMAND_DIRTY)*64
+-
+Profiling group to measure L3 cache bandwidth. The bandwidth is computed by the
+number of cache line allocated in the L2 and the number of modified cache lines
+evicted from the L2. This group also output data volume transferred between the
+L3 and  measured cores L2 caches. Note that this bandwidth also includes data
+transfers due to a write allocate load on a store miss in L2.
+
--- a/collectors/likwid/groups/haswellEP/L3CACHE.txt
+++ b/collectors/likwid/groups/haswellEP/L3CACHE.txt
@@ -0,0 +1,35 @@
+SHORT L3 cache miss rate/ratio
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  MEM_LOAD_UOPS_RETIRED_L3_ALL
+PMC1  MEM_LOAD_UOPS_RETIRED_L3_MISS
+PMC2  UOPS_RETIRED_ALL
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L3 request rate PMC0/PMC2
+L3 miss rate PMC1/PMC2
+L3 miss ratio PMC1/PMC0
+
+LONG
+Formulas:
+L3 request rate = MEM_LOAD_UOPS_RETIRED_L3_ALL/UOPS_RETIRED_ALL
+L3 miss rate = MEM_LOAD_UOPS_RETIRED_L3_MISS/UOPS_RETIRED_ALL
+L3 miss ratio = MEM_LOAD_UOPS_RETIRED_L3_MISS/MEM_LOAD_UOPS_RETIRED_L3_ALL
+-
+This group measures the locality of your data accesses with regard to the
+L3 cache. L3 request rate tells you how data intensive your code is
+or how many data accesses you have on average per instruction.
+The L3 miss rate gives a measure how often it was necessary to get
+cache lines from memory. And finally L3 miss ratio tells you how many of your
+memory references required a cache line to be loaded from a higher level.
+While the# data cache miss rate might be given by your algorithm you should
+try to get data cache miss ratio as low as possible by increasing your cache reuse.
+
+
--- a/collectors/likwid/groups/haswellEP/MEM.txt
+++ b/collectors/likwid/groups/haswellEP/MEM.txt
@@ -0,0 +1,52 @@
+SHORT Main memory bandwidth in MBytes/s
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+MBOX0C0 CAS_COUNT_RD
+MBOX0C1 CAS_COUNT_WR
+MBOX1C0 CAS_COUNT_RD
+MBOX1C1 CAS_COUNT_WR
+MBOX2C0 CAS_COUNT_RD
+MBOX2C1 CAS_COUNT_WR
+MBOX3C0 CAS_COUNT_RD
+MBOX3C1 CAS_COUNT_WR
+MBOX4C0 CAS_COUNT_RD
+MBOX4C1 CAS_COUNT_WR
+MBOX5C0 CAS_COUNT_RD
+MBOX5C1 CAS_COUNT_WR
+MBOX6C0 CAS_COUNT_RD
+MBOX6C1 CAS_COUNT_WR
+MBOX7C0 CAS_COUNT_RD
+MBOX7C1 CAS_COUNT_WR
+
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Memory read bandwidth [MBytes/s] 1.0E-06*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0)*64.0/time
+Memory read data volume [GBytes] 1.0E-09*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0)*64.0
+Memory write bandwidth [MBytes/s] 1.0E-06*(MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0/time
+Memory write data volume [GBytes] 1.0E-09*(MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0
+Memory bandwidth [MBytes/s] 1.0E-06*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0+MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0/time
+Memory data volume [GBytes] 1.0E-09*(MBOX0C0+MBOX1C0+MBOX2C0+MBOX3C0+MBOX4C0+MBOX5C0+MBOX6C0+MBOX7C0+MBOX0C1+MBOX1C1+MBOX2C1+MBOX3C1+MBOX4C1+MBOX5C1+MBOX6C1+MBOX7C1)*64.0
+
+LONG
+Formulas:
+Memory read bandwidth [MBytes/s] = 1.0E-06*(SUM(MBOXxC0))*64.0/runtime
+Memory read data volume [GBytes] = 1.0E-09*(SUM(MBOXxC0))*64.0
+Memory write bandwidth [MBytes/s] = 1.0E-06*(SUM(MBOXxC1))*64.0/runtime
+Memory write data volume [GBytes] = 1.0E-09*(SUM(MBOXxC1))*64.0
+Memory bandwidth [MBytes/s] = 1.0E-06*(SUM(MBOXxC0)+SUM(MBOXxC1))*64.0/runtime
+Memory data volume [GBytes] = 1.0E-09*(SUM(MBOXxC0)+SUM(MBOXxC1))*64.0
+-
+Profiling group to measure memory bandwidth drawn by all cores of a socket.
+Since this group is based on Uncore events it is only possible to measure on a
+per socket base. Some of the counters may not be available on your system.
+Also outputs total data volume transferred from main memory.
+The same metrics are provided by the HA group.
+
--- a/collectors/likwid/groups/haswellEP/NUMA.txt
+++ b/collectors/likwid/groups/haswellEP/NUMA.txt
@@ -0,0 +1,33 @@
+SHORT Local and remote memory accesses
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0 OFFCORE_RESPONSE_0_LOCAL_DRAM
+PMC1 OFFCORE_RESPONSE_1_REMOTE_DRAM
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Local DRAM data volume [GByte]  1.E-09*PMC0*64
+Local DRAM bandwidth [MByte/s]  1.E-06*(PMC0*64)/time
+Remote DRAM data volume [GByte]  1.E-09*PMC1*64
+Remote DRAM bandwidth [MByte/s]  1.E-06*(PMC1*64)/time
+Memory data volume [GByte]  1.E-09*(PMC0+PMC1)*64
+Memory bandwidth [MByte/s]  1.E-06*((PMC0+PMC1)*64)/time
+
+LONG
+Formulas:
+CPI = CPU_CLK_UNHALTED_CORE/INSTR_RETIRED_ANY
+Local DRAM data volume [GByte] = 1.E-09*OFFCORE_RESPONSE_0_LOCAL_DRAM*64
+Local DRAM bandwidth [MByte/s] = 1.E-06*(OFFCORE_RESPONSE_0_LOCAL_DRAM*64)/time
+Remote DRAM data volume [GByte] = 1.E-09*OFFCORE_RESPONSE_1_REMOTE_DRAM*64
+Remote DRAM bandwidth [MByte/s] = 1.E-06*(OFFCORE_RESPONSE_1_REMOTE_DRAM*64)/time
+Memory data volume [GByte] = 1.E-09*(OFFCORE_RESPONSE_0_LOCAL_DRAM+OFFCORE_RESPONSE_1_REMOTE_DRAM)*64
+Memory bandwidth [MByte/s] = 1.E-06*((OFFCORE_RESPONSE_0_LOCAL_DRAM+OFFCORE_RESPONSE_1_REMOTE_DRAM)*64)/time
+--
+This performance group measures the data traffic of CPU cores to local and remote
+memory.
--- a/collectors/likwid/groups/haswellEP/PORT_USAGE.txt
+++ b/collectors/likwid/groups/haswellEP/PORT_USAGE.txt
@@ -0,0 +1,46 @@
+SHORT  Execution port utilization
+
+REQUIRE_NOHT
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  UOPS_EXECUTED_PORT_PORT_0
+PMC1  UOPS_EXECUTED_PORT_PORT_1
+PMC2  UOPS_EXECUTED_PORT_PORT_2
+PMC3  UOPS_EXECUTED_PORT_PORT_3
+PMC4  UOPS_EXECUTED_PORT_PORT_4
+PMC5  UOPS_EXECUTED_PORT_PORT_5
+PMC6  UOPS_EXECUTED_PORT_PORT_6
+PMC7  UOPS_EXECUTED_PORT_PORT_7
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Port0 usage ratio PMC0/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+Port1 usage ratio PMC1/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+Port2 usage ratio PMC2/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+Port3 usage ratio PMC3/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+Port4 usage ratio PMC4/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+Port5 usage ratio PMC5/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+Port6 usage ratio PMC6/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+Port7 usage ratio PMC7/(PMC0+PMC1+PMC2+PMC3+PMC4+PMC5+PMC6+PMC7)
+
+LONG
+Formulas:
+Port0 usage ratio = UOPS_EXECUTED_PORT_PORT_0/SUM(UOPS_EXECUTED_PORT_PORT_*)
+Port1 usage ratio = UOPS_EXECUTED_PORT_PORT_1/SUM(UOPS_EXECUTED_PORT_PORT_*)
+Port2 usage ratio = UOPS_EXECUTED_PORT_PORT_2/SUM(UOPS_EXECUTED_PORT_PORT_*)
+Port3 usage ratio = UOPS_EXECUTED_PORT_PORT_3/SUM(UOPS_EXECUTED_PORT_PORT_*)
+Port4 usage ratio = UOPS_EXECUTED_PORT_PORT_4/SUM(UOPS_EXECUTED_PORT_PORT_*)
+Port5 usage ratio = UOPS_EXECUTED_PORT_PORT_5/SUM(UOPS_EXECUTED_PORT_PORT_*)
+Port6 usage ratio = UOPS_EXECUTED_PORT_PORT_6/SUM(UOPS_EXECUTED_PORT_PORT_*)
+Port7 usage ratio = UOPS_EXECUTED_PORT_PORT_7/SUM(UOPS_EXECUTED_PORT_PORT_*)
+-
+This group measures the execution port utilization in a CPU core. The group can
+only be measured when HyperThreading is disabled because only then each CPU core
+can program eight counters.
--- a/collectors/likwid/groups/haswellEP/QPI.txt
+++ b/collectors/likwid/groups/haswellEP/QPI.txt
@@ -0,0 +1,49 @@
+SHORT QPI Link Layer data
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+QBOX0C0 RXL_FLITS_G0_DATA
+QBOX1C0 RXL_FLITS_G0_DATA
+QBOX0C1 RXL_FLITS_G0_NON_DATA
+QBOX1C1 RXL_FLITS_G0_NON_DATA
+QBOX0C2 TXL_FLITS_G0_DATA
+QBOX1C2 TXL_FLITS_G0_DATA
+QBOX0C3 TXL_FLITS_G0_NON_DATA
+QBOX1C3 TXL_FLITS_G0_NON_DATA
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+QPI send data volume [GByte] 1.E-09*(QBOX0C2+QBOX1C2)*8
+QPI send data bandwidth [MByte/s] 1.E-06*(QBOX0C2+QBOX1C2)*8/time
+QPI send link volume [GByte] 1.E-09*(QBOX0C2+QBOX1C2+QBOX0C3+QBOX1C3)*8
+QPI send link bandwidth [MByte/s] 1.E-06*(QBOX0C2+QBOX1C2+QBOX0C3+QBOX1C3)*8/time
+QPI receive data volume [GByte] 1.E-09*(QBOX0C0+QBOX1C0)*8
+QPI receive data bandwidth [MByte/s] 1.E-06*(QBOX0C0+QBOX1C0)*8/time
+QPI receive link volume [GByte] 1.E-09*(QBOX0C0+QBOX1C0+QBOX0C1+QBOX1C1)*8
+QPI receive link bandwidth [MByte/s] 1.E-06*(QBOX0C0+QBOX1C0+QBOX0C1+QBOX1C1)*8/time
+QPI total transfer volume [GByte] 1.E-09*(QBOX0C0+QBOX1C0+QBOX0C2+QBOX1C2+QBOX0C1+QBOX1C1+QBOX0C3+QBOX1C3)*8
+QPI total bandwidth [MByte/s] 1.E-06*(QBOX0C0+QBOX1C0+QBOX0C2+QBOX1C2+QBOX0C1+QBOX1C1+QBOX0C3+QBOX1C3)*8/time
+
+LONG
+Formulas:
+QPI send data volume [GByte] = 1.E-09*(sum(TXL_FLITS_G0_DATA)*8)
+QPI send data bandwidth [MByte/s] = 1.E-06*(sum(TXL_FLITS_G0_DATA)*8)/runtime
+QPI send link volume [GByte] = 1.E-09*((sum(TXL_FLITS_G0_DATA)+sum(TXL_FLITS_G0_NON_DATA))*8)
+QPI send link bandwidth [MByte/s] = 1.E-06*((sum(TXL_FLITS_G0_DATA)+sum(TXL_FLITS_G0_NON_DATA))*8)/runtime
+QPI receive data volume [GByte] = 1.E-09*(sum(RXL_FLITS_G0_DATA)*8)
+QPI receive data bandwidth [MByte/s] = 1.E-06*(sum(RXL_FLITS_G0_DATA)*8)/runtime
+QPI receive link volume [GByte] = 1.E-09*((sum(RXL_FLITS_G0_DATA)+sum(RXL_FLITS_G0_NON_DATA))*8)
+QPI receive link bandwidth [MByte/s] = 1.E-06*((sum(RXL_FLITS_G0_DATA)+sum(RXL_FLITS_G0_NON_DATA))*8)/runtime
+QPI total transfer volume [GByte] = 1.E-09*(sum(TXL_FLITS_G0_DATA)+sum(TXL_FLITS_G0_NON_DATA)+sum(RXL_FLITS_G0_DATA)+sum(RXL_FLITS_G0_NON_DATA))*8
+QPI total bandwidth [MByte/s] = 1.E-06*(sum(TXL_FLITS_G0_DATA)+sum(TXL_FLITS_G0_NON_DATA)+sum(RXL_FLITS_G0_DATA)+sum(RXL_FLITS_G0_NON_DATA))*8/time
+--
+The Intel QPI Link Layer is responsible for packetizing requests from the caching agent (CBOXes)
+on the way out to the system interface. For Haswell EP systems, the Link Layer and the
+Ring interface is separated. The QPI link volume contains header, data and trailer while the
+QPI data volume counts only the data flits.
--- a/collectors/likwid/groups/haswellEP/RECOVERY.txt
+++ b/collectors/likwid/groups/haswellEP/RECOVERY.txt
@@ -0,0 +1,22 @@
+SHORT  Recovery duration
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  INT_MISC_RECOVERY_CYCLES
+PMC1  INT_MISC_RECOVERY_COUNT
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Avg. recovery duration PMC0/PMC1
+
+LONG
+Formulas:
+Avg. recovery duration = INT_MISC_RECOVERY_CYCLES/INT_MISC_RECOVERY_COUNT
+-
+This group measures the duration of recoveries after SSE exception, memory
+disambiguation, etc...
--- a/collectors/likwid/groups/haswellEP/SBOX.txt
+++ b/collectors/likwid/groups/haswellEP/SBOX.txt
@@ -0,0 +1,28 @@
+SHORT Ring Transfer bandwidth
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+SBOX0C0 RING_BL_USED_ANY
+SBOX1C0 RING_BL_USED_ANY
+SBOX2C0 RING_BL_USED_ANY
+SBOX3C0 RING_BL_USED_ANY
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Ring transfer bandwidth [MByte/s] 1.E-06*(SBOX0C0+SBOX1C0+SBOX2C0+SBOX3C0)*32/time
+Ring transfer data volume [GByte] 1.E-09*(SBOX0C0+SBOX1C0+SBOX2C0+SBOX3C0)*32
+
+LONG
+Formulas:
+Ring transfer bandwidth [MByte/s] = 1.E-06*(SUM(SBOXxC0)*32)/time
+Ring transfer data volume [GByte] = 1.E-09*(SUM(SBOXxC0)*32)
+--
+The SBOXes manage the transfer between the socket local ring(s). For micro architectures
+prior to Haswell, the SBOX and QBOX was similar as only a single ring was used.
+Haswell systems with a high core count assemble two rings that are connected through
+the SBOXes, the traffic between the sockets is handled by the QBOXes.
--- a/collectors/likwid/groups/haswellEP/TLB_DATA.txt
+++ b/collectors/likwid/groups/haswellEP/TLB_DATA.txt
@@ -0,0 +1,35 @@
+SHORT  L2 data TLB miss rate/ratio
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  DTLB_LOAD_MISSES_CAUSES_A_WALK
+PMC1  DTLB_STORE_MISSES_CAUSES_A_WALK
+PMC2  DTLB_LOAD_MISSES_WALK_DURATION
+PMC3  DTLB_STORE_MISSES_WALK_DURATION
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L1 DTLB load misses     PMC0
+L1 DTLB load miss rate  PMC0/FIXC0
+L1 DTLB load miss duration [Cyc] PMC2/PMC0
+L1 DTLB store misses     PMC1
+L1 DTLB store miss rate  PMC1/FIXC0
+L1 DTLB store miss duration [Cyc] PMC3/PMC1
+
+LONG
+Formulas:
+L1 DTLB load misses = DTLB_LOAD_MISSES_CAUSES_A_WALK
+L1 DTLB load miss rate = DTLB_LOAD_MISSES_CAUSES_A_WALK / INSTR_RETIRED_ANY
+L1 DTLB load miss duration [Cyc] = DTLB_LOAD_MISSES_WALK_DURATION / DTLB_LOAD_MISSES_CAUSES_A_WALK
+L1 DTLB store misses = DTLB_STORE_MISSES_CAUSES_A_WALK
+L1 DTLB store miss rate = DTLB_STORE_MISSES_CAUSES_A_WALK / INSTR_RETIRED_ANY
+L1 DTLB store miss duration [Cyc] = DTLB_STORE_MISSES_WALK_DURATION / DTLB_STORE_MISSES_CAUSES_A_WALK
+-
+The DTLB load and store miss rates gives a measure how often a TLB miss occurred
+per instruction. The duration measures the time in cycles how long a walk did take.
+
--- a/collectors/likwid/groups/haswellEP/TLB_INSTR.txt
+++ b/collectors/likwid/groups/haswellEP/TLB_INSTR.txt
@@ -0,0 +1,28 @@
+SHORT  L1 Instruction TLB miss rate/ratio
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  ITLB_MISSES_CAUSES_A_WALK
+PMC1  ITLB_MISSES_WALK_DURATION
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+L1 ITLB misses     PMC0
+L1 ITLB miss rate  PMC0/FIXC0
+L1 ITLB miss duration [Cyc] PMC1/PMC0
+
+
+LONG
+Formulas:
+L1 ITLB misses = ITLB_MISSES_CAUSES_A_WALK
+L1 ITLB miss rate = ITLB_MISSES_CAUSES_A_WALK / INSTR_RETIRED_ANY
+L1 ITLB miss duration [Cyc] = ITLB_MISSES_WALK_DURATION / ITLB_MISSES_CAUSES_A_WALK
+-
+The ITLB miss rates gives a measure how often a TLB miss occurred
+per instruction. The duration measures the time in cycles how long a walk did take.
+
--- a/collectors/likwid/groups/haswellEP/TMA.txt
+++ b/collectors/likwid/groups/haswellEP/TMA.txt
@@ -0,0 +1,48 @@
+SHORT Top down cycle allocation
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0 UOPS_ISSUED_ANY
+PMC1 UOPS_RETIRED_RETIRE_SLOTS
+PMC2 IDQ_UOPS_NOT_DELIVERED_CORE
+PMC3 INT_MISC_RECOVERY_CYCLES
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+IPC FIXC0/FIXC1
+Total Slots 4*FIXC1
+Slots Retired PMC1
+Fetch Bubbles PMC2
+Recovery Bubbles 4*PMC3
+Front End [%] PMC2/(4*FIXC1)*100
+Speculation [%] (PMC0-PMC1+(4*PMC3))/(4*FIXC1)*100
+Retiring [%] PMC1/(4*FIXC1)*100
+Back End [%] (1-((PMC2+PMC0+(4*PMC3))/(4*FIXC1)))*100
+
+LONG
+Formulas:
+Total Slots = 4*CPU_CLK_UNHALTED_CORE
+Slots Retired = UOPS_RETIRED_RETIRE_SLOTS
+Fetch Bubbles = IDQ_UOPS_NOT_DELIVERED_CORE
+Recovery Bubbles = 4*INT_MISC_RECOVERY_CYCLES
+Front End [%] = IDQ_UOPS_NOT_DELIVERED_CORE/(4*CPU_CLK_UNHALTED_CORE)*100
+Speculation [%] = (UOPS_ISSUED_ANY-UOPS_RETIRED_RETIRE_SLOTS+(4*INT_MISC_RECOVERY_CYCLES))/(4*CPU_CLK_UNHALTED_CORE)*100
+Retiring [%] = UOPS_RETIRED_RETIRE_SLOTS/(4*CPU_CLK_UNHALTED_CORE)*100
+Back End [%] = (1-((IDQ_UOPS_NOT_DELIVERED_CORE+UOPS_ISSUED_ANY+(4*INT_MISC_RECOVERY_CYCLES))/(4*CPU_CLK_UNHALTED_CORE)))*100
+--
+This performance group measures cycles to determine percentage of time spent in
+front end, back end, retiring and speculation. These metrics are published and
+verified by Intel. Further information:
+Webpage describing Top-Down Method and its usage in Intel vTune:
+https://software.intel.com/en-us/vtune-amplifier-help-tuning-applications-using-a-top-down-microarchitecture-analysis-method
+Paper by Yasin Ahmad:
+https://sites.google.com/site/analysismethods/yasin-pubs/TopDown-Yasin-ISPASS14.pdf?attredirects=0
+Slides by Yasin Ahmad:
+http://www.cs.technion.ac.il/~erangi/TMA_using_Linux_perf__Ahmad_Yasin.pdf
+The performance group was originally published here:
+http://perf.mvermeulen.com/2018/04/14/top-down-performance-counter-analysis-part-1-likwid/
--- a/collectors/likwid/groups/haswellEP/UOPS.txt
+++ b/collectors/likwid/groups/haswellEP/UOPS.txt
@@ -0,0 +1,35 @@
+SHORT UOPs execution info
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  UOPS_ISSUED_ANY
+PMC1  UOPS_EXECUTED_THREAD
+PMC2  UOPS_RETIRED_ALL
+PMC3  UOPS_ISSUED_FLAGS_MERGE
+
+
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Issued UOPs PMC0
+Merged UOPs PMC3
+Executed UOPs PMC1
+Retired UOPs PMC2
+
+LONG
+Formulas:
+Issued UOPs = UOPS_ISSUED_ANY
+Merged UOPs = UOPS_ISSUED_FLAGS_MERGE
+Executed UOPs = UOPS_EXECUTED_THREAD
+Retired UOPs = UOPS_RETIRED_ALL
+-
+This group returns information about the instruction pipeline. It measures the
+issued, executed and retired uOPs and returns the number of uOPs which were issued
+but not executed as well as the number of uOPs which were executed but never retired.
+The executed but not retired uOPs commonly come from speculatively executed branches.
+
--- a/collectors/likwid/groups/haswellEP/UOPS_EXEC.txt
+++ b/collectors/likwid/groups/haswellEP/UOPS_EXEC.txt
@@ -0,0 +1,31 @@
+SHORT UOPs execution
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  UOPS_EXECUTED_USED_CYCLES
+PMC1  UOPS_EXECUTED_STALL_CYCLES
+PMC2  CPU_CLOCK_UNHALTED_TOTAL_CYCLES
+PMC3:EDGEDETECT  UOPS_EXECUTED_STALL_CYCLES
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Used cycles ratio [%] 100*PMC0/PMC2
+Unused cycles ratio [%] 100*PMC1/PMC2
+Avg stall duration [cycles] PMC1/PMC3:EDGEDETECT
+
+
+LONG
+Formulas:
+Used cycles ratio [%] = 100*UOPS_EXECUTED_USED_CYCLES/CPU_CLK_UNHALTED_CORE
+Unused cycles ratio [%] = 100*UOPS_EXECUTED_STALL_CYCLES/CPU_CLK_UNHALTED_CORE
+Avg stall duration [cycles] = UOPS_EXECUTED_STALL_CYCLES/UOPS_EXECUTED_STALL_CYCLES:EDGEDETECT
+-
+This performance group returns the ratios of used and unused cycles regarding
+the execution stage in the pipeline. Used cycles are all cycles where uOPs are
+executed while unused cycles refer to pipeline stalls. Moreover, the group
+calculates the average stall duration in cycles.
--- a/collectors/likwid/groups/haswellEP/UOPS_ISSUE.txt
+++ b/collectors/likwid/groups/haswellEP/UOPS_ISSUE.txt
@@ -0,0 +1,31 @@
+SHORT UOPs issueing
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  UOPS_ISSUED_USED_CYCLES
+PMC1  UOPS_ISSUED_STALL_CYCLES
+PMC2  CPU_CLOCK_UNHALTED_TOTAL_CYCLES
+PMC3:EDGEDETECT  UOPS_ISSUED_STALL_CYCLES
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Used cycles ratio [%] 100*PMC0/PMC2
+Unused cycles ratio [%] 100*PMC1/PMC2
+Avg stall duration [cycles] PMC1/PMC3:EDGEDETECT
+
+
+LONG
+Formulas:
+Used cycles ratio [%] = 100*UOPS_ISSUED_USED_CYCLES/CPU_CLK_UNHALTED_CORE
+Unused cycles ratio [%] = 100*UOPS_ISSUED_STALL_CYCLES/CPU_CLK_UNHALTED_CORE
+Avg stall duration [cycles] = UOPS_ISSUED_STALL_CYCLES/UOPS_ISSUED_STALL_CYCLES:EDGEDETECT
+-
+This performance group returns the ratios of used and unused cycles regarding
+the issue stage in the pipeline. Used cycles are all cycles where uOPs are
+issued while unused cycles refer to pipeline stalls. Moreover, the group
+calculates the average stall duration in cycles.
--- a/collectors/likwid/groups/haswellEP/UOPS_RETIRE.txt
+++ b/collectors/likwid/groups/haswellEP/UOPS_RETIRE.txt
@@ -0,0 +1,31 @@
+SHORT UOPs retirement
+
+EVENTSET
+FIXC0 INSTR_RETIRED_ANY
+FIXC1 CPU_CLK_UNHALTED_CORE
+FIXC2 CPU_CLK_UNHALTED_REF
+PMC0  UOPS_RETIRED_USED_CYCLES
+PMC1  UOPS_RETIRED_STALL_CYCLES
+PMC2  CPU_CLOCK_UNHALTED_TOTAL_CYCLES
+PMC3:EDGEDETECT  UOPS_RETIRED_STALL_CYCLES
+
+METRICS
+Runtime (RDTSC) [s] time
+Runtime unhalted [s] FIXC1*inverseClock
+Clock [MHz]  1.E-06*(FIXC1/FIXC2)/inverseClock
+CPI  FIXC1/FIXC0
+Used cycles ratio [%] 100*PMC0/PMC2
+Unused cycles ratio [%] 100*PMC1/PMC2
+Avg stall duration [cycles] PMC1/PMC3:EDGEDETECT
+
+
+LONG
+Formulas:
+Used cycles ratio [%] = 100*UOPS_RETIRED_USED_CYCLES/CPU_CLK_UNHALTED_CORE
+Unused cycles ratio [%] = 100*UOPS_RETIRED_STALL_CYCLES/CPU_CLK_UNHALTED_CORE
+Avg stall duration [cycles] = UOPS_RETIRED_STALL_CYCLES/UOPS_RETIRED_STALL_CYCLES:EDGEDETECT
+-
+This performance group returns the ratios of used and unused cycles regarding
+the retirement stage in the pipeline (re-order buffer). Used cycles are all
+cycles where uOPs are retired while unused cycles refer to pipeline stalls.
+Moreover, the group calculates the average stall duration in cycles.