BenchmarkResult.h source code [llvm/tools/llvm-exegesis/lib/BenchmarkResult.h]

1	//===-- BenchmarkResult.h ---------------------------------------- C++ --===//
2	//
3	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4	// See https://llvm.org/LICENSE.txt for license information.
5	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6	//
7	//===----------------------------------------------------------------------===//
8	///
9	/// \file
10	/// Defines classes to represent measurements and serialize/deserialize them to
11	// Yaml.
12	///
13	//===----------------------------------------------------------------------===//
14
15	#ifndef LLVM_TOOLS_LLVM_EXEGESIS_BENCHMARKRESULT_H
16	#define LLVM_TOOLS_LLVM_EXEGESIS_BENCHMARKRESULT_H
17
18	#include "LlvmState.h"
19	#include "RegisterValue.h"
20	#include "ValidationEvent.h"
21	#include "llvm/ADT/StringRef.h"
22	#include "llvm/MC/MCInst.h"
23	#include "llvm/MC/MCInstBuilder.h"
24	#include "llvm/Support/YAMLTraits.h"
25	#include <limits>
26	#include <set>
27	#include <string>
28	#include <unordered_map>
29	#include <vector>
30
31	namespace llvm {
32	class Error;
33
34	namespace exegesis {
35
36	enum class BenchmarkPhaseSelectorE {
37	PrepareSnippet,
38	PrepareAndAssembleSnippet,
39	AssembleMeasuredCode,
40	Measure,
41	};
42
43	enum class BenchmarkFilter { All, RegOnly, WithMem };
44
45	struct MemoryValue {
46	// The arbitrary bit width constant that defines the value.
47	APInt Value;
48	// The size of the value in bytes.
49	size_t SizeBytes;
50	// The index of the memory value.
51	size_t Index;
52	};
53
54	struct MemoryMapping {
55	// The address to place the mapping at.
56	intptr_t Address;
57	// The name of the value that should be mapped.
58	std::string MemoryValueName;
59	};
60
61	struct BenchmarkKey {
62	// The LLVM opcode name.
63	std::vector<MCInst> Instructions;
64	// The initial values of the registers.
65	std::vector<RegisterValue> RegisterInitialValues;
66	// The memory values that can be mapped into the execution context of the
67	// snippet.
68	std::unordered_map<std::string, MemoryValue> MemoryValues;
69	// The memory mappings that the snippet can access.
70	std::vector<MemoryMapping> MemoryMappings;
71	// An opaque configuration, that can be used to separate several benchmarks of
72	// the same instruction under different configurations.
73	std::string Config;
74	// The address that the snippet should be loaded in at if the execution mode
75	// being used supports it.
76	intptr_t SnippetAddress = `0`;
77	// The register that should be used to hold the loop counter.
78	unsigned LoopRegister;
79	};
80
81	struct BenchmarkMeasure {
82	// A helper to create an unscaled BenchmarkMeasure.
83	static BenchmarkMeasure
84	Create(std::string Key, double Value,
85	std::map<ValidationEvent, int64_t> ValCounters) {
86	return {.Key: Key, .PerInstructionValue: Value, .PerSnippetValue: Value, .RawValue: Value, .ValidationCounters: ValCounters};
87	}
88	std::string Key;
89	// This is the per-instruction value, i.e. measured quantity scaled per
90	// instruction.
91	double PerInstructionValue;
92	// This is the per-snippet value, i.e. measured quantity for one repetition of
93	// the whole snippet.
94	double PerSnippetValue;
95	// This is the raw value collected from the full execution.
96	double RawValue;
97	// These are the validation counter values.
98	std::map<ValidationEvent, int64_t> ValidationCounters;
99	};
100
101	// The result of an instruction benchmark.
102	struct Benchmark {
103	BenchmarkKey Key;
104	enum ModeE { Unknown, Latency, Uops, InverseThroughput };
105	ModeE Mode;
106	std::string CpuName;
107	std::string LLVMTriple;
108	// Which instruction is being benchmarked here?
109	const MCInst &keyInstruction() const { return Key.Instructions [`0`]; }
110	// The number of instructions inside the repeated snippet. For example, if a
111	// snippet of 3 instructions is repeated 4 times, this is 12.
112	unsigned MinInstructions = `0`;
113	enum RepetitionModeE {
114	Duplicate,
115	Loop,
116	AggregateMin,
117	MiddleHalfDuplicate,
118	MiddleHalfLoop
119	};
120	// Note that measurements are per instruction.
121	std::vector<BenchmarkMeasure> Measurements;
122	std::string Error;
123	std::string Info;
124	std::vector<uint8_t> AssembledSnippet;
125	// How to aggregate measurements.
126	enum ResultAggregationModeE { Min, Max, Mean, MinVariance };
127
128	Benchmark() = default;
129	Benchmark(Benchmark &&) = default;
130
131	Benchmark(const Benchmark &) = delete;
132	Benchmark &operator=(const Benchmark &) = delete;
133	Benchmark &operator=(Benchmark &&) = delete;
134
135	// Read functions.
136	static Expected<Benchmark> readYaml(const LLVMState &State,
137	MemoryBufferRef Buffer);
138
139	static Expected<std::vector<Benchmark>>
140	readYamls(const LLVMState &State, MemoryBufferRef Buffer);
141
142	// Given a set of serialized instruction benchmarks, returns the set of
143	// triples and CPUs that appear in the list of benchmarks.
144	struct TripleAndCpu {
145	std::string LLVMTriple;
146	std::string CpuName;
147	bool operator<(const TripleAndCpu &O) const {
148	return std::tie(args: LLVMTriple, args: CpuName) < std::tie(args: O.LLVMTriple, args: O.CpuName);
149	}
150	};
151	static Expected<std::set<TripleAndCpu>>
152	readTriplesAndCpusFromYamls(MemoryBufferRef Buffer);
153
154	class Error readYamlFrom(const LLVMState &State, StringRef InputContent);
155
156	// Write functions, non-const because of YAML traits.
157	// NOTE: we intentionally do NOT* have a variant of this function taking*
158	// filename, because it's behaviour is bugprone with regards to
159	// accidentally using it more than once and overriding previous YAML.
160	class Error writeYamlTo(const LLVMState &State, raw_ostream &S);
161	};
162
163	bool operator==(const BenchmarkMeasure &A, const BenchmarkMeasure &B);
164
165	//------------------------------------------------------------------------------
166	// Utilities to work with Benchmark measures.
167
168	// A class that measures stats over benchmark measures.
169	class PerInstructionStats {
170	public:
171	void push(const BenchmarkMeasure &BM);
172
173	double avg() const {
174	assert(NumValues);
175	return SumValues / NumValues;
176	}
177	double min() const { return MinValue; }
178	double max() const { return MaxValue; }
179
180	const std::string &key() const { return Key; }
181
182	private:
183	std::string Key;
184	double SumValues = `0.0`;
185	int NumValues = `0`;
186	double MaxValue = std::numeric_limits<double>::min();
187	double MinValue = std::numeric_limits<double>::max();
188	};
189
190	} // namespace exegesis
191	} // namespace llvm
192
193	#endif // LLVM_TOOLS_LLVM_EXEGESIS_BENCHMARKRESULT_H
194

source code of llvm/tools/llvm-exegesis/lib/BenchmarkResult.h