xref: /linux/tools/perf/Documentation/topdown.txt (revision 26fbb4c8c7c3ee9a4c3b4de555a8587b5a19154e)
1Using TopDown metrics in user space
2-----------------------------------
3
4Intel CPUs (since Sandy Bridge and Silvermont) support a TopDown
5methology to break down CPU pipeline execution into 4 bottlenecks:
6frontend bound, backend bound, bad speculation, retiring.
7
8For more details on Topdown see [1][5]
9
10Traditionally this was implemented by events in generic counters
11and specific formulas to compute the bottlenecks.
12
13perf stat --topdown implements this.
14
15Full Top Down includes more levels that can break down the
16bottlenecks further. This is not directly implemented in perf,
17but available in other tools that can run on top of perf,
18such as toplev[2] or vtune[3]
19
20New Topdown features in Ice Lake
21===============================
22
23With Ice Lake CPUs the TopDown metrics are directly available as
24fixed counters and do not require generic counters. This allows
25to collect TopDown always in addition to other events.
26
27% perf stat -a --topdown -I1000
28#           time             retiring      bad speculation       frontend bound        backend bound
29     1.001281330                23.0%                15.3%                29.6%                32.1%
30     2.003009005                 5.0%                 6.8%                46.6%                41.6%
31     3.004646182                 6.7%                 6.7%                46.0%                40.6%
32     4.006326375                 5.0%                 6.4%                47.6%                41.0%
33     5.007991804                 5.1%                 6.3%                46.3%                42.3%
34     6.009626773                 6.2%                 7.1%                47.3%                39.3%
35     7.011296356                 4.7%                 6.7%                46.2%                42.4%
36     8.012951831                 4.7%                 6.7%                47.5%                41.1%
37...
38
39This also enables measuring TopDown per thread/process instead
40of only per core.
41
42Using TopDown through RDPMC in applications on Ice Lake
43======================================================
44
45For more fine grained measurements it can be useful to
46access the new  directly from user space. This is more complicated,
47but drastically lowers overhead.
48
49On Ice Lake, there is a new fixed counter 3: SLOTS, which reports
50"pipeline SLOTS" (cycles multiplied by core issue width) and a
51metric register that reports slots ratios for the different bottleneck
52categories.
53
54The metrics counter is CPU model specific and is not available on older
55CPUs.
56
57Example code
58============
59
60Library functions to do the functionality described below
61is also available in libjevents [4]
62
63The application opens a group with fixed counter 3 (SLOTS) and any
64metric event, and allow user programs to read the performance counters.
65
66Fixed counter 3 is mapped to a pseudo event event=0x00, umask=04,
67so the perf_event_attr structure should be initialized with
68{ .config = 0x0400, .type = PERF_TYPE_RAW }
69The metric events are mapped to the pseudo event event=0x00, umask=0x8X.
70For example, the perf_event_attr structure can be initialized with
71{ .config = 0x8000, .type = PERF_TYPE_RAW } for Retiring metric event
72The Fixed counter 3 must be the leader of the group.
73
74#include <linux/perf_event.h>
75#include <sys/syscall.h>
76#include <unistd.h>
77
78/* Provide own perf_event_open stub because glibc doesn't */
79__attribute__((weak))
80int perf_event_open(struct perf_event_attr *attr, pid_t pid,
81		    int cpu, int group_fd, unsigned long flags)
82{
83	return syscall(__NR_perf_event_open, attr, pid, cpu, group_fd, flags);
84}
85
86/* Open slots counter file descriptor for current task. */
87struct perf_event_attr slots = {
88	.type = PERF_TYPE_RAW,
89	.size = sizeof(struct perf_event_attr),
90	.config = 0x400,
91	.exclude_kernel = 1,
92};
93
94int slots_fd = perf_event_open(&slots, 0, -1, -1, 0);
95if (slots_fd < 0)
96	... error ...
97
98/*
99 * Open metrics event file descriptor for current task.
100 * Set slots event as the leader of the group.
101 */
102struct perf_event_attr metrics = {
103	.type = PERF_TYPE_RAW,
104	.size = sizeof(struct perf_event_attr),
105	.config = 0x8000,
106	.exclude_kernel = 1,
107};
108
109int metrics_fd = perf_event_open(&metrics, 0, -1, slots_fd, 0);
110if (metrics_fd < 0)
111	... error ...
112
113
114The RDPMC instruction (or _rdpmc compiler intrinsic) can now be used
115to read slots and the topdown metrics at different points of the program:
116
117#include <stdint.h>
118#include <x86intrin.h>
119
120#define RDPMC_FIXED	(1 << 30)	/* return fixed counters */
121#define RDPMC_METRIC	(1 << 29)	/* return metric counters */
122
123#define FIXED_COUNTER_SLOTS		3
124#define METRIC_COUNTER_TOPDOWN_L1	0
125
126static inline uint64_t read_slots(void)
127{
128	return _rdpmc(RDPMC_FIXED | FIXED_COUNTER_SLOTS);
129}
130
131static inline uint64_t read_metrics(void)
132{
133	return _rdpmc(RDPMC_METRIC | METRIC_COUNTER_TOPDOWN_L1);
134}
135
136Then the program can be instrumented to read these metrics at different
137points.
138
139It's not a good idea to do this with too short code regions,
140as the parallelism and overlap in the CPU program execution will
141cause too much measurement inaccuracy. For example instrumenting
142individual basic blocks is definitely too fine grained.
143
144Decoding metrics values
145=======================
146
147The value reported by read_metrics() contains four 8 bit fields
148that represent a scaled ratio that represent the Level 1 bottleneck.
149All four fields add up to 0xff (= 100%)
150
151The binary ratios in the metric value can be converted to float ratios:
152
153#define GET_METRIC(m, i) (((m) >> (i*8)) & 0xff)
154
155#define TOPDOWN_RETIRING(val)	((float)GET_METRIC(val, 0) / 0xff)
156#define TOPDOWN_BAD_SPEC(val)	((float)GET_METRIC(val, 1) / 0xff)
157#define TOPDOWN_FE_BOUND(val)	((float)GET_METRIC(val, 2) / 0xff)
158#define TOPDOWN_BE_BOUND(val)	((float)GET_METRIC(val, 3) / 0xff)
159
160and then converted to percent for printing.
161
162The ratios in the metric accumulate for the time when the counter
163is enabled. For measuring programs it is often useful to measure
164specific sections. For this it is needed to deltas on metrics.
165
166This can be done by scaling the metrics with the slots counter
167read at the same time.
168
169Then it's possible to take deltas of these slots counts
170measured at different points, and determine the metrics
171for that time period.
172
173	slots_a = read_slots();
174	metric_a = read_metrics();
175
176	... larger code region ...
177
178	slots_b = read_slots()
179	metric_b = read_metrics()
180
181	# compute scaled metrics for measurement a
182	retiring_slots_a = GET_METRIC(metric_a, 0) * slots_a
183	bad_spec_slots_a = GET_METRIC(metric_a, 1) * slots_a
184	fe_bound_slots_a = GET_METRIC(metric_a, 2) * slots_a
185	be_bound_slots_a = GET_METRIC(metric_a, 3) * slots_a
186
187	# compute delta scaled metrics between b and a
188	retiring_slots = GET_METRIC(metric_b, 0) * slots_b - retiring_slots_a
189	bad_spec_slots = GET_METRIC(metric_b, 1) * slots_b - bad_spec_slots_a
190	fe_bound_slots = GET_METRIC(metric_b, 2) * slots_b - fe_bound_slots_a
191	be_bound_slots = GET_METRIC(metric_b, 3) * slots_b - be_bound_slots_a
192
193Later the individual ratios for the measurement period can be recreated
194from these counts.
195
196	slots_delta = slots_b - slots_a
197	retiring_ratio = (float)retiring_slots / slots_delta
198	bad_spec_ratio = (float)bad_spec_slots / slots_delta
199	fe_bound_ratio = (float)fe_bound_slots / slots_delta
200	be_bound_ratio = (float)be_bound_slots / slota_delta
201
202	printf("Retiring %.2f%% Bad Speculation %.2f%% FE Bound %.2f%% BE Bound %.2f%%\n",
203		retiring_ratio * 100.,
204		bad_spec_ratio * 100.,
205		fe_bound_ratio * 100.,
206		be_bound_ratio * 100.);
207
208Resetting metrics counters
209==========================
210
211Since the individual metrics are only 8bit they lose precision for
212short regions over time because the number of cycles covered by each
213fraction bit shrinks. So the counters need to be reset regularly.
214
215When using the kernel perf API the kernel resets on every read.
216So as long as the reading is at reasonable intervals (every few
217seconds) the precision is good.
218
219When using perf stat it is recommended to always use the -I option,
220with no longer interval than a few seconds
221
222	perf stat -I 1000 --topdown ...
223
224For user programs using RDPMC directly the counter can
225be reset explicitly using ioctl:
226
227	ioctl(perf_fd, PERF_EVENT_IOC_RESET, 0);
228
229This "opens" a new measurement period.
230
231A program using RDPMC for TopDown should schedule such a reset
232regularly, as in every few seconds.
233
234Limits on Ice Lake
235==================
236
237Four pseudo TopDown metric events are exposed for the end-users,
238topdown-retiring, topdown-bad-spec, topdown-fe-bound and topdown-be-bound.
239They can be used to collect the TopDown value under the following
240rules:
241- All the TopDown metric events must be in a group with the SLOTS event.
242- The SLOTS event must be the leader of the group.
243- The PERF_FORMAT_GROUP flag must be applied for each TopDown metric
244  events
245
246The SLOTS event and the TopDown metric events can be counting members of
247a sampling read group. Since the SLOTS event must be the leader of a TopDown
248group, the second event of the group is the sampling event.
249For example, perf record -e '{slots, $sampling_event, topdown-retiring}:S'
250
251
252[1] https://software.intel.com/en-us/top-down-microarchitecture-analysis-method-win
253[2] https://github.com/andikleen/pmu-tools/wiki/toplev-manual
254[3] https://software.intel.com/en-us/intel-vtune-amplifier-xe
255[4] https://github.com/andikleen/pmu-tools/tree/master/jevents
256[5] https://sites.google.com/site/analysismethods/yasin-pubs
257