matterbridge/vendor/github.com/klauspost/cpuid/v2/README.md

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# cpuid
Package cpuid provides information about the CPU running the current program.
CPU features are detected on startup, and kept for fast access through the life of the application.
Currently x86 / x64 (AMD64/i386) and ARM (ARM64) is supported, and no external C (cgo) code is used, which should make the library very easy to use.
You can access the CPU information by accessing the shared CPU variable of the cpuid library.
Package home: https://github.com/klauspost/cpuid
[![PkgGoDev](https://pkg.go.dev/badge/github.com/klauspost/cpuid)](https://pkg.go.dev/github.com/klauspost/cpuid/v2)
[![Build Status][3]][4]
[3]: https://travis-ci.org/klauspost/cpuid.svg?branch=master
[4]: https://travis-ci.org/klauspost/cpuid
## installing
`go get -u github.com/klauspost/cpuid/v2` using modules.
Drop `v2` for others.
## example
```Go
package main
import (
"fmt"
"strings"
. "github.com/klauspost/cpuid/v2"
)
func main() {
// Print basic CPU information:
fmt.Println("Name:", CPU.BrandName)
fmt.Println("PhysicalCores:", CPU.PhysicalCores)
fmt.Println("ThreadsPerCore:", CPU.ThreadsPerCore)
fmt.Println("LogicalCores:", CPU.LogicalCores)
fmt.Println("Family", CPU.Family, "Model:", CPU.Model, "Vendor ID:", CPU.VendorID)
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fmt.Println("Features:", strings.Join(CPU.FeatureSet(), ","))
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fmt.Println("Cacheline bytes:", CPU.CacheLine)
fmt.Println("L1 Data Cache:", CPU.Cache.L1D, "bytes")
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fmt.Println("L1 Instruction Cache:", CPU.Cache.L1I, "bytes")
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fmt.Println("L2 Cache:", CPU.Cache.L2, "bytes")
fmt.Println("L3 Cache:", CPU.Cache.L3, "bytes")
fmt.Println("Frequency", CPU.Hz, "hz")
// Test if we have these specific features:
if CPU.Supports(SSE, SSE2) {
fmt.Println("We have Streaming SIMD 2 Extensions")
}
}
```
Sample output:
```
>go run main.go
Name: AMD Ryzen 9 3950X 16-Core Processor
PhysicalCores: 16
ThreadsPerCore: 2
LogicalCores: 32
Family 23 Model: 113 Vendor ID: AMD
Features: ADX,AESNI,AVX,AVX2,BMI1,BMI2,CLMUL,CMOV,CX16,F16C,FMA3,HTT,HYPERVISOR,LZCNT,MMX,MMXEXT,NX,POPCNT,RDRAND,RDSEED,RDTSCP,SHA,SSE,SSE2,SSE3,SSE4,SSE42,SSE4A,SSSE3
Cacheline bytes: 64
L1 Data Cache: 32768 bytes
L1 Instruction Cache: 32768 bytes
L2 Cache: 524288 bytes
L3 Cache: 16777216 bytes
Frequency 0 hz
We have Streaming SIMD 2 Extensions
```
# usage
The `cpuid.CPU` provides access to CPU features. Use `cpuid.CPU.Supports()` to check for CPU features.
A faster `cpuid.CPU.Has()` is provided which will usually be inlined by the gc compiler.
Note that for some cpu/os combinations some features will not be detected.
`amd64` has rather good support and should work reliably on all platforms.
Note that hypervisors may not pass through all CPU features.
## arm64 feature detection
Not all operating systems provide ARM features directly
and there is no safe way to do so for the rest.
Currently `arm64/linux` and `arm64/freebsd` should be quite reliable.
`arm64/darwin` adds features expected from the M1 processor, but a lot remains undetected.
A `DetectARM()` can be used if you are able to control your deployment,
it will detect CPU features, but may crash if the OS doesn't intercept the calls.
A `-cpu.arm` flag for detecting unsafe ARM features can be added. See below.
Note that currently only features are detected on ARM,
no additional information is currently available.
## flags
It is possible to add flags that affects cpu detection.
For this the `Flags()` command is provided.
This must be called *before* `flag.Parse()` AND after the flags have been parsed `Detect()` must be called.
This means that any detection used in `init()` functions will not contain these flags.
Example:
```Go
package main
import (
"flag"
"fmt"
"strings"
"github.com/klauspost/cpuid/v2"
)
func main() {
cpuid.Flags()
flag.Parse()
cpuid.Detect()
// Test if we have these specific features:
if cpuid.CPU.Supports(cpuid.SSE, cpuid.SSE2) {
fmt.Println("We have Streaming SIMD 2 Extensions")
}
}
```
# license
This code is published under an MIT license. See LICENSE file for more information.