@@ -325,6 +325,95 @@ def IntelCtxSw() -> MetricGroup:
"retired & core cycles between context switches"))
+def IntelFpu() -> Optional[MetricGroup]:
+ cyc = Event("cycles")
+ try:
+ s_64 = Event("FP_ARITH_INST_RETIRED.SCALAR_SINGLE",
+ "SIMD_INST_RETIRED.SCALAR_SINGLE")
+ except:
+ return None
+ d_64 = Event("FP_ARITH_INST_RETIRED.SCALAR_DOUBLE",
+ "SIMD_INST_RETIRED.SCALAR_DOUBLE")
+ s_128 = Event("FP_ARITH_INST_RETIRED.128B_PACKED_SINGLE",
+ "SIMD_INST_RETIRED.PACKED_SINGLE")
+
+ flop = s_64 + d_64 + 4 * s_128
+
+ d_128 = None
+ s_256 = None
+ d_256 = None
+ s_512 = None
+ d_512 = None
+ try:
+ d_128 = Event("FP_ARITH_INST_RETIRED.128B_PACKED_DOUBLE")
+ flop += 2 * d_128
+ s_256 = Event("FP_ARITH_INST_RETIRED.256B_PACKED_SINGLE")
+ flop += 8 * s_256
+ d_256 = Event("FP_ARITH_INST_RETIRED.256B_PACKED_DOUBLE")
+ flop += 4 * d_256
+ s_512 = Event("FP_ARITH_INST_RETIRED.512B_PACKED_SINGLE")
+ flop += 16 * s_512
+ d_512 = Event("FP_ARITH_INST_RETIRED.512B_PACKED_DOUBLE")
+ flop += 8 * d_512
+ except:
+ pass
+
+ f_assist = Event("ASSISTS.FP", "FP_ASSIST.ANY", "FP_ASSIST.S")
+ if f_assist in [
+ "ASSISTS.FP",
+ "FP_ASSIST.S",
+ ]:
+ f_assist += "/cmask=1/"
+
+ flop_r = d_ratio(flop, interval_sec)
+ flop_c = d_ratio(flop, cyc)
+ nmi_constraint = MetricConstraint.GROUPED_EVENTS
+ if f_assist.name == "ASSISTS.FP": # Icelake+
+ nmi_constraint = MetricConstraint.NO_GROUP_EVENTS_NMI
+ def FpuMetrics(group: str, fl: Optional[Event], mult: int, desc: str) -> Optional[MetricGroup]:
+ if not fl:
+ return None
+
+ f = fl * mult
+ fl_r = d_ratio(f, interval_sec)
+ r_s = d_ratio(fl, interval_sec)
+ return MetricGroup(group, [
+ Metric(f"{group}_of_total", desc + " floating point operations per second",
+ d_ratio(f, flop), "100%"),
+ Metric(f"{group}_flops", desc + " floating point operations per second",
+ fl_r, "flops/s"),
+ Metric(f"{group}_ops", desc + " operations per second",
+ r_s, "ops/s"),
+ ])
+
+ return MetricGroup("fpu", [
+ MetricGroup("fpu_total", [
+ Metric("fpu_total_flops", "Floating point operations per second",
+ flop_r, "flops/s"),
+ Metric("fpu_total_flopc", "Floating point operations per cycle",
+ flop_c, "flops/cycle", constraint=nmi_constraint),
+ ]),
+ MetricGroup("fpu_64", [
+ FpuMetrics("fpu_64_single", s_64, 1, "64-bit single"),
+ FpuMetrics("fpu_64_double", d_64, 1, "64-bit double"),
+ ]),
+ MetricGroup("fpu_128", [
+ FpuMetrics("fpu_128_single", s_128, 4, "128-bit packed single"),
+ FpuMetrics("fpu_128_double", d_128, 2, "128-bit packed double"),
+ ]),
+ MetricGroup("fpu_256", [
+ FpuMetrics("fpu_256_single", s_256, 8, "128-bit packed single"),
+ FpuMetrics("fpu_256_double", d_256, 4, "128-bit packed double"),
+ ]),
+ MetricGroup("fpu_512", [
+ FpuMetrics("fpu_512_single", s_512, 16, "128-bit packed single"),
+ FpuMetrics("fpu_512_double", d_512, 8, "128-bit packed double"),
+ ]),
+ Metric("fpu_assists", "FP assists as a percentage of cycles",
+ d_ratio(f_assist, cyc), "100%"),
+ ])
+
+
def IntelIlp() -> MetricGroup:
tsc = Event("msr/tsc/")
c0 = Event("msr/mperf/")
@@ -687,6 +776,7 @@ all_metrics = MetricGroup("", [
Tsx(),
IntelBr(),
IntelCtxSw(),
+ IntelFpu(),
IntelIlp(),
IntelL2(),
IntelLdSt(),