source: libcfa/src/concurrency/kernel/cluster.hfa @ ecaedf35

Last change on this file since ecaedf35 was ba068c0, checked in by Peter A. Buhr <pabuhr@…>, 15 months ago

rename clock routines processor and program to processor_cpu and program_cpu to deal with name clash with processor

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File size: 5.8 KB
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1//
2// Cforall Version 1.0.0 Copyright (C) 2022 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
7// cluster.hfa -- file that includes helpers for subsystem that need cluster wide support
8//
9// Author           : Thierry Delisle
10// Created On       : Tue Mar 15 16:40:12 2022
11// Last Modified By :
12// Last Modified On :
13// Update Count     :
14//
15
16#pragma once
17
18#include "device/cpu.hfa"
19#include "kernel/private.hfa"
20#include "math.hfa"
21
22#include <limits.h>
23#include <inttypes.h>
24
25#include "clock.hfa"
26
27#if   defined(READYQ_USE_LINEAR_AVG)
28
29// no conversion needed in this case
30static inline __readyQ_avg_t __to_readyQ_avg(unsigned long long intsc) { return intsc; }
31
32// warn normally all ints
33#define warn_large_before warnf( !strict || old_avg < 33_000_000_000, "Suspiciously large previous average: %'llu (%llx), %'" PRId64 "ms \n", old_avg, old_avg, program_cpu()`ms )
34#define warn_large_after warnf( !strict || ret < 33_000_000_000, "Suspiciously large new average after %'" PRId64 "ms cputime: %'llu (%llx) from %'llu-%'llu (%'llu, %'llu) and %'llu\n", program_cpu()`ms, ret, ret, currtsc, intsc, new_val, new_val / 1000000, old_avg )
35
36// 8X linear factor is just 8 * x
37#define AVG_FACTOR( x ) (8 * (x))
38
39#elif defined(READYQ_USE_LOGDBL_AVG)
40
41// convert to log2 scale but using double
42static inline __readyQ_avg_t __to_readyQ_avg(unsigned long long intsc) { if(unlikely(0 == intsc)) return 0.0; else return log2((__readyQ_avg_t)intsc); }
43
44#define warn_large_before warnf( !strict || old_avg < 35.0, "Suspiciously large previous average: %'lf, %'" PRId64 "ms \n", old_avg, program_cpu()`ms )
45#define warn_large_after warnf( !strict || ret < 35.3, "Suspiciously large new average after %'" PRId64 "ms cputime: %'lf from %'llu-%'llu (%'llu, %'llu) and %'lf\n", program_cpu()`ms, ret, currtsc, intsc, new_val, new_val / 1000000, old_avg ); \
46verify(ret >= 0)
47
48// 8X factor in logscale is log2(8X) = log2(8) + log2(X) = 3 + log2(X)
49#define AVG_FACTOR( x ) (3.0 + (x))
50
51// we need to overload the __atomic_load_n because they don't support double
52static inline double __atomic_load_n(volatile double * ptr, int mem) {
53        volatile uint64_t * uptr = (volatile uint64_t *)ptr;
54        _Static_assert(sizeof(*uptr) == sizeof(*ptr));
55        uint64_t ret = 0;
56        ret = __atomic_load_n(uptr, mem);
57        uint64_t *rp = &ret;
58        double ret = *(volatile double *)rp;
59        /* paranoid */ verify( ret == 0 || ret > 3e-100 );
60        return ret;
61}
62
63// we need to overload the __atomic_store_n because they don't support double
64static inline void __atomic_store_n(volatile double * ptr, double val, int mem) {
65        /* paranoid */ verify( val == 0 || val > 3e-100 );
66        volatile uint64_t * uptr = (volatile uint64_t *)ptr;
67        _Static_assert(sizeof(*uptr) == sizeof(*ptr));
68        uint64_t * valp = (uint64_t *)&val;
69        __atomic_store_n(uptr, *valp, mem);
70}
71
72#elif defined(READYQ_USE_LOGDBL_AVG)
73
74//convert to log2 scale but with fix point u32.32 values
75static inline __readyQ_avg_t __to_readyQ_avg(unsigned long long intsc) { return ulog2_32_32(tsc); }
76
77// 8X factor, +3 in logscale (see above) is + 0x3.00000000
78#define AVG_FACTOR( x ) (0x3_00000000ull + (x))
79
80#else
81#error must pick a scheme for averaging
82#endif
83
84//-----------------------------------------------------------------------
85// Calc moving average based on existing average, before and current time.
86static inline __readyQ_avg_t moving_average(unsigned long long currtsc, unsigned long long intsc, __readyQ_avg_t old_avg, bool strict) {
87        (void)strict; // disable the warning around the fact this is unused in release.
88        /* paranoid */ warn_large_before;
89
90        const unsigned long long new_val = currtsc > intsc ? currtsc - intsc : 0;
91        const __readyQ_avg_t total_weight = 16;
92        const __readyQ_avg_t new_weight   = 12;
93        const __readyQ_avg_t old_weight = total_weight - new_weight;
94        const __readyQ_avg_t ret = ((new_weight * __to_readyQ_avg(new_val)) + (old_weight * old_avg)) / total_weight;
95
96        /* paranoid */ warn_large_after;
97        return ret;
98}
99
100static inline void touch_tsc(__timestamp_t * tscs, size_t idx, unsigned long long ts_prev, unsigned long long ts_next, bool strict) {
101        if (ts_next == ULLONG_MAX) return;
102        unsigned long long now = rdtscl();
103        __readyQ_avg_t pma = __atomic_load_n(&tscs[ idx ].t.ma, __ATOMIC_RELAXED);
104        __atomic_store_n(&tscs[ idx ].t.tv, ts_next, __ATOMIC_RELAXED);
105        __atomic_store_n(&tscs[ idx ].t.ma, moving_average(now, ts_prev, pma, strict), __ATOMIC_RELAXED);
106}
107
108//-----------------------------------------------------------------------
109// Calc age a timestamp should be before needing help.
110forall(Data_t * | { unsigned long long ts(Data_t & this); })
111static inline __readyQ_avg_t calc_cutoff(
112        const unsigned long long ctsc,
113        unsigned procid,
114        size_t count,
115        Data_t * data,
116        __timestamp_t * tscs,
117        const unsigned shard_factor,
118        bool strict
119) {
120        unsigned start = procid;
121        __readyQ_avg_t max = 0;
122        for(i; shard_factor) {
123                unsigned long long ptsc = ts(data[start + i]);
124                if(ptsc != ULLONG_MAX) {
125                        /* paranoid */ verify( start + i < count );
126                        __readyQ_avg_t avg = moving_average(ctsc, ptsc, tscs[start + i].t.ma, strict);
127                        if(avg > max) max = avg;
128                }
129        }
130        return AVG_FACTOR( max );
131}
132
133static inline unsigned cache_id(struct cluster * cltr, unsigned idx) with (cltr->sched) {
134        // Figure out the current cpu and make sure it is valid
135        const int cpu = __kernel_getcpu();
136        /* paranoid */ verify(cpu >= 0);
137        /* paranoid */ verify(cpu < cpu_info.hthrd_count);
138        unsigned this_cache = cpu_info.llc_map[cpu].cache;
139
140        // Super important: don't write the same value over and over again
141        // We want to maximise our chances that his particular values stays in cache
142        if(caches[idx].id != this_cache)
143                __atomic_store_n(&caches[idx].id, this_cache, __ATOMIC_RELAXED);
144
145        return this_cache;
146}
147
148const static struct {
149        unsigned readyq;
150        unsigned io;
151} __shard_factor = { 2, 1 };
152
153// Local Variables: //
154// mode: c //
155// tab-width: 4 //
156// End: //
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