| /linux-6.1.9/kernel/sched/ |
| D | loadavg.c | 71 void get_avenrun(unsigned long *loads, unsigned long offset, int shift) in get_avenrun() argument
73 loads[0] = (avenrun[0] + offset) << shift; in get_avenrun()
74 loads[1] = (avenrun[1] + offset) << shift; in get_avenrun()
75 loads[2] = (avenrun[2] + offset) << shift; in get_avenrun()
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| /linux-6.1.9/tools/testing/selftests/net/ |
| D | devlink_port_split.py | 60 ports = json.loads(stdout)['port']
82 values = list(json.loads(stdout)['port'].values())[0]
100 values = list(json.loads(stdout)['port'].values())[0]
243 devs = json.loads(stdout)['dev']
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| /linux-6.1.9/arch/powerpc/perf/ |
| D | power9-pmu.c | 174 GENERIC_EVENT_ATTR(mem-loads, MEM_LOADS);
178 CACHE_EVENT_ATTR(L1-dcache-loads, PM_LD_REF_L1);
182 CACHE_EVENT_ATTR(L1-icache-loads, PM_INST_FROM_L1);
185 CACHE_EVENT_ATTR(LLC-loads, PM_DATA_FROM_L3);
188 CACHE_EVENT_ATTR(branch-loads, PM_BR_CMPL);
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| D | power8-pmu.c | 134 CACHE_EVENT_ATTR(L1-dcache-loads, PM_LD_REF_L1);
139 CACHE_EVENT_ATTR(L1-icache-loads, PM_INST_FROM_L1);
143 CACHE_EVENT_ATTR(LLC-loads, PM_DATA_FROM_L3);
149 CACHE_EVENT_ATTR(branch-loads, PM_BRU_FIN);
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| D | power10-pmu.c | 127 GENERIC_EVENT_ATTR(mem-loads, MEM_LOADS);
134 CACHE_EVENT_ATTR(L1-dcache-loads, PM_LD_REF_L1);
138 CACHE_EVENT_ATTR(L1-icache-loads, PM_INST_FROM_L1);
141 CACHE_EVENT_ATTR(LLC-loads, PM_DATA_FROM_L3);
146 CACHE_EVENT_ATTR(branch-loads, PM_BR_CMPL);
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| /linux-6.1.9/tools/perf/Documentation/ |
| D | perf-mem.txt | 19 right set of options to display a memory access profile. By default, loads
20 and stores are sampled. Use the -t option to limit to loads or stores.
88 Specify desired latency for loads event. Supported on Intel and Arm64
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| D | perf-c2c.txt | 53 Configure mem-loads latency. Supported on Intel and Arm64 processors
142 cpu/mem-loads,ldlat=30/P
151 cpu/mem-loads/
200 Total loads
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| /linux-6.1.9/arch/alpha/lib/ |
| D | ev6-copy_user.S | 64 EXI( ldbu $1,0($17) ) # .. .. .. L : Keep loads separate from stores
116 EXI ( ldbu $2,0($17) ) # .. .. .. L : No loads in the same quad
203 EXI ( ldbu $2,0($17) ) # .. .. .. L : No loads in the same quad
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| /linux-6.1.9/Documentation/translations/zh_CN/mm/ |
| D | frontswap.rst | 49 ``loads``
143 入都被 “frontswap backend store” 和(可能)“frontswap backend loads”
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| /linux-6.1.9/include/uapi/linux/ |
| D | sysinfo.h | 10 __kernel_ulong_t loads[3]; /* 1, 5, and 15 minute load averages */ member
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| /linux-6.1.9/include/linux/sched/ |
| D | loadavg.h | 16 extern void get_avenrun(unsigned long *loads, unsigned long offset, int shift);
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| /linux-6.1.9/Documentation/x86/ |
| D | tsx_async_abort.rst | 13 case certain loads may speculatively pass invalid data to dependent operations
15 Synchronization Extensions (TSX) transaction. This includes loads with no
16 fault or assist condition. Such loads may speculatively expose stale data from
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| /linux-6.1.9/Documentation/core-api/ |
| D | refcount-vs-atomic.rst | 41 A strong (full) memory ordering guarantees that all prior loads and
49 A RELEASE memory ordering guarantees that all prior loads and
57 An ACQUIRE memory ordering guarantees that all post loads and
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| /linux-6.1.9/tools/perf/util/ |
| D | parse-events.l | 368 mem-loads |
369 mem-loads-aux |
383 load|loads|read |
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| /linux-6.1.9/Documentation/ |
| D | memory-barriers.txt | 178 perceived by the loads made by another CPU in the same order as the stores were
247 (*) Overlapping loads and stores within a particular CPU will appear to be
275 (*) It _must_not_ be assumed that independent loads and stores will be issued
369 deferral and combination of memory operations; speculative loads; speculative
388 to have any effect on loads.
401 case where two loads are performed such that the second depends on the
408 loads only; it is not required to have any effect on stores, independent
409 loads or overlapping loads.
417 that touched by the load will be perceptible to any loads issued after
434 dependency barriers. Nowadays, APIs for marking loads from shared
[all …]
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| /linux-6.1.9/tools/memory-model/Documentation/ |
| D | control-dependencies.txt | 42 fuse the load from "a" with other loads. Without the WRITE_ONCE(),
219 (*) Control dependencies can order prior loads against later stores.
221 Not prior loads against later loads, nor prior stores against
224 stores and later loads, smp_mb().
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| D | explanation.txt | 78 for the loads, the model will predict whether it is possible for the
79 code to run in such a way that the loads will indeed obtain the
141 shared memory locations and another CPU loads from those locations in
153 A memory model will predict what values P1 might obtain for its loads
196 Since r1 = 1, P0 must store 1 to flag before P1 loads 1 from
197 it, as loads can obtain values only from earlier stores.
199 P1 loads from flag before loading from buf, since CPUs execute
222 each CPU stores to its own shared location and then loads from the
271 X: P1 loads 1 from flag executes before
272 Y: P1 loads 0 from buf executes before
[all …]
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| D | access-marking.txt | 38 using READ_ONCE() for loads and WRITE_ONCE() for stores is usually
64 1. Data-racy loads from shared variables whose values are used only
95 In theory, plain C-language loads can also be used for this use case.
119 In theory, plain C-language loads can also be used for this use case.
130 that data_race() loads are subject to load fusing, which can result in
140 In theory, plain C-language loads can also be used for this use case.
183 5. Any other loads for which there is not supposed to be a concurrent
187 loads nor concurrent stores to that same variable.
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| /linux-6.1.9/kernel/debug/kdb/ |
| D | kdb_main.c | 2489 val->loads[0] = avenrun[0]; in kdb_sysinfo()
2490 val->loads[1] = avenrun[1]; in kdb_sysinfo()
2491 val->loads[2] = avenrun[2]; in kdb_sysinfo()
2528 LOAD_INT(val.loads[0]), LOAD_FRAC(val.loads[0]), in kdb_summary()
2529 LOAD_INT(val.loads[1]), LOAD_FRAC(val.loads[1]), in kdb_summary()
2530 LOAD_INT(val.loads[2]), LOAD_FRAC(val.loads[2])); in kdb_summary()
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| /linux-6.1.9/arch/mips/include/asm/ |
| D | mips-r2-to-r6-emul.h | 22 u64 loads; member
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| D | fpu_emulator.h | 26 unsigned long loads; member
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| /linux-6.1.9/arch/mips/kernel/ |
| D | mips-r2-to-r6-emul.c | 1274 MIPS_R2_STATS(loads); in mipsr2_decoder()
1348 MIPS_R2_STATS(loads); in mipsr2_decoder()
1608 MIPS_R2_STATS(loads); in mipsr2_decoder()
1727 MIPS_R2_STATS(loads); in mipsr2_decoder()
2267 (unsigned long)__this_cpu_read(mipsr2emustats.loads), in mipsr2_emul_show()
2268 (unsigned long)__this_cpu_read(mipsr2bdemustats.loads)); in mipsr2_emul_show()
2324 __this_cpu_write((mipsr2emustats).loads, 0); in mipsr2_clear_show()
2325 __this_cpu_write((mipsr2bdemustats).loads, 0); in mipsr2_clear_show()
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| /linux-6.1.9/Documentation/devicetree/bindings/sound/ |
| D | richtek,rt9120.yaml | 14 delivering 2*20W into 8 Ohm BTL speaker loads. It supports the wide input
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| /linux-6.1.9/Documentation/devicetree/bindings/mfd/ |
| D | x-powers,axp152.yaml | 284 mixed PWM/PFM mode, using PFM under light loads and
285 switching to PWM for heavier loads. Forcing PWM mode
286 trades efficiency under light loads for lower output
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| /linux-6.1.9/tools/perf/tests/shell/lib/ |
| D | perf_json_output_lint.py | 75 for item in json.loads(input):
|