ollama/discover/gpu_linux.go

package discover

import (
	"bufio"
	"fmt"
	"io"
	"os"
	"reflect"
	"regexp"
	"sort"
	"strings"

	"github.com/ollama/ollama/format"
)

var CudartGlobs = []string{
	"/usr/local/cuda/lib64/libcudart.so*",
	"/usr/lib/x86_64-linux-gnu/nvidia/current/libcudart.so*",
	"/usr/lib/x86_64-linux-gnu/libcudart.so*",
	"/usr/lib/wsl/lib/libcudart.so*",
	"/usr/lib/wsl/drivers/*/libcudart.so*",
	"/opt/cuda/lib64/libcudart.so*",
	"/usr/local/cuda*/targets/aarch64-linux/lib/libcudart.so*",
	"/usr/lib/aarch64-linux-gnu/nvidia/current/libcudart.so*",
	"/usr/lib/aarch64-linux-gnu/libcudart.so*",
	"/usr/local/cuda/lib*/libcudart.so*",
	"/usr/lib*/libcudart.so*",
	"/usr/local/lib*/libcudart.so*",
}

var NvmlGlobs = []string{}

var NvcudaGlobs = []string{
	"/usr/local/cuda*/targets/*/lib/libcuda.so*",
	"/usr/lib/*-linux-gnu/nvidia/current/libcuda.so*",
	"/usr/lib/*-linux-gnu/libcuda.so*",
	"/usr/lib/wsl/lib/libcuda.so*",
	"/usr/lib/wsl/drivers/*/libcuda.so*",
	"/opt/cuda/lib*/libcuda.so*",
	"/usr/local/cuda/lib*/libcuda.so*",
	"/usr/lib*/libcuda.so*",
	"/usr/local/lib*/libcuda.so*",
}

var OneapiGlobs = []string{
	"/usr/lib/x86_64-linux-gnu/libze_intel_gpu.so*",
	"/usr/lib*/libze_intel_gpu.so*",
}

var (
	CudartMgmtName = "libcudart.so*"
	NvcudaMgmtName = "libcuda.so*"
	NvmlMgmtName   = "" // not currently wired on linux
	OneapiMgmtName = "libze_intel_gpu.so*"
)

func GetCPUMem() (memInfo, error) {
	var mem memInfo
	var total, available, free, buffers, cached, freeSwap uint64
	f, err := os.Open("/proc/meminfo")
	if err != nil {
		return mem, err
	}
	defer f.Close()
	s := bufio.NewScanner(f)
	for s.Scan() {
		line := s.Text()
		switch {
		case strings.HasPrefix(line, "MemTotal:"):
			_, err = fmt.Sscanf(line, "MemTotal:%d", &total)
		case strings.HasPrefix(line, "MemAvailable:"):
			_, err = fmt.Sscanf(line, "MemAvailable:%d", &available)
		case strings.HasPrefix(line, "MemFree:"):
			_, err = fmt.Sscanf(line, "MemFree:%d", &free)
		case strings.HasPrefix(line, "Buffers:"):
			_, err = fmt.Sscanf(line, "Buffers:%d", &buffers)
		case strings.HasPrefix(line, "Cached:"):
			_, err = fmt.Sscanf(line, "Cached:%d", &cached)
		case strings.HasPrefix(line, "SwapFree:"):
			_, err = fmt.Sscanf(line, "SwapFree:%d", &freeSwap)
		default:
			continue
		}
		if err != nil {
			return mem, err
		}
	}
	mem.TotalMemory = total * format.KibiByte
	mem.FreeSwap = freeSwap * format.KibiByte
	if available > 0 {
		mem.FreeMemory = available * format.KibiByte
	} else {
		mem.FreeMemory = (free + buffers + cached) * format.KibiByte
	}
	return mem, nil
}

const CpuInfoFilename = "/proc/cpuinfo"

type linuxCpuInfo struct {
	ID         string `cpuinfo:"processor"`
	VendorID   string `cpuinfo:"vendor_id"`
	ModelName  string `cpuinfo:"model name"`
	PhysicalID string `cpuinfo:"physical id"`
	Siblings   string `cpuinfo:"siblings"`
	CoreID     string `cpuinfo:"core id"`
}

func GetCPUDetails() ([]CPU, error) {
	file, err := os.Open(CpuInfoFilename)
	if err != nil {
		return nil, err
	}
	return linuxCPUDetails(file)
}

func linuxCPUDetails(file io.Reader) ([]CPU, error) {
	reColumns := regexp.MustCompile("\t+: ")
	scanner := bufio.NewScanner(file)
	cpuInfos := []linuxCpuInfo{}
	cpu := &linuxCpuInfo{}
	for scanner.Scan() {
		line := scanner.Text()
		if sl := reColumns.Split(line, 2); len(sl) > 1 {
			t := reflect.TypeOf(cpu).Elem()
			s := reflect.ValueOf(cpu).Elem()
			for i := range t.NumField() {
				field := t.Field(i)
				tag := field.Tag.Get("cpuinfo")
				if tag == sl[0] {
					s.FieldByName(field.Name).SetString(sl[1])
					break
				}
			}
		} else if strings.TrimSpace(line) == "" && cpu.ID != "" {
			cpuInfos = append(cpuInfos, *cpu)
			cpu = &linuxCpuInfo{}
		}
	}
	if cpu.ID != "" {
		cpuInfos = append(cpuInfos, *cpu)
	}

	// Process the sockets/cores/threads
	socketByID := map[string]*CPU{}
	coreBySocket := map[string]map[string]struct{}{}
	threadsByCoreBySocket := map[string]map[string]int{}
	for _, c := range cpuInfos {
		if _, found := socketByID[c.PhysicalID]; !found {
			socketByID[c.PhysicalID] = &CPU{
				ID:        c.PhysicalID,
				VendorID:  c.VendorID,
				ModelName: c.ModelName,
			}
			coreBySocket[c.PhysicalID] = map[string]struct{}{}
			threadsByCoreBySocket[c.PhysicalID] = map[string]int{}
		}
		if c.CoreID != "" {
			coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID] = struct{}{}
			threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID]++
		} else {
			coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID] = struct{}{}
			threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID]++
		}
	}

	// Tally up the values from the tracking maps
	for id, s := range socketByID {
		s.CoreCount = len(coreBySocket[id])
		s.ThreadCount = 0
		for _, tc := range threadsByCoreBySocket[id] {
			s.ThreadCount += tc
		}

		// This only works if HT is enabled, consider a more reliable model, maybe cache size comparisons?
		efficiencyCoreCount := 0
		for _, threads := range threadsByCoreBySocket[id] {
			if threads == 1 {
				efficiencyCoreCount++
			}
		}
		if efficiencyCoreCount == s.CoreCount {
			// 1:1 mapping means they're not actually efficiency cores, but regular cores
			s.EfficiencyCoreCount = 0
		} else {
			s.EfficiencyCoreCount = efficiencyCoreCount
		}
	}
	keys := make([]string, 0, len(socketByID))
	result := make([]CPU, 0, len(socketByID))
	for k := range socketByID {
		keys = append(keys, k)
	}
	sort.Strings(keys)
	for _, k := range keys {
		result = append(result, *socketByID[k])
	}
	return result, nil
}
Rename gpu package discover (#7143) Cleaning up go package naming 2024-10-17 00:45:00 +00:00			`package discover`
review comments and coverage 2024-06-05 19:07:20 +00:00
			`import (`
			`"bufio"`
			`"fmt"`
Refine default thread selection for NUMA systems (#7322) Until we have full NUMA support, this adjusts the default thread selection algorithm to count up the number of performance cores across all sockets. 2024-10-30 22:05:45 +00:00			`"io"`
review comments and coverage 2024-06-05 19:07:20 +00:00			`"os"`
Discovery CPU details for default thread selection (#6264) On windows, detect large multi-socket systems and reduce to the number of cores in one socket for best performance 2024-10-15 18:36:08 +00:00			`"reflect"`
			`"regexp"`
Refine default thread selection for NUMA systems (#7322) Until we have full NUMA support, this adjusts the default thread selection algorithm to count up the number of performance cores across all sockets. 2024-10-30 22:05:45 +00:00			`"sort"`
review comments and coverage 2024-06-05 19:07:20 +00:00			`"strings"`

			`"github.com/ollama/ollama/format"`
			`)`

			`var CudartGlobs = []string{`
			`"/usr/local/cuda/lib64/libcudart.so*",`
			`"/usr/lib/x86_64-linux-gnu/nvidia/current/libcudart.so*",`
			`"/usr/lib/x86_64-linux-gnu/libcudart.so*",`
			`"/usr/lib/wsl/lib/libcudart.so*",`
			`"/usr/lib/wsl/drivers//libcudart.so",`
			`"/opt/cuda/lib64/libcudart.so*",`
			`"/usr/local/cuda/targets/aarch64-linux/lib/libcudart.so",`
			`"/usr/lib/aarch64-linux-gnu/nvidia/current/libcudart.so*",`
			`"/usr/lib/aarch64-linux-gnu/libcudart.so*",`
			`"/usr/local/cuda/lib/libcudart.so",`
			`"/usr/lib/libcudart.so",`
			`"/usr/local/lib/libcudart.so",`
			`}`

			`var NvmlGlobs = []string{}`

			`var NvcudaGlobs = []string{`
			`"/usr/local/cuda/targets//lib/libcuda.so*",`
			`"/usr/lib/-linux-gnu/nvidia/current/libcuda.so",`
			`"/usr/lib/-linux-gnu/libcuda.so",`
			`"/usr/lib/wsl/lib/libcuda.so*",`
			`"/usr/lib/wsl/drivers//libcuda.so",`
			`"/opt/cuda/lib/libcuda.so",`
			`"/usr/local/cuda/lib/libcuda.so",`
			`"/usr/lib/libcuda.so",`
			`"/usr/local/lib/libcuda.so",`
			`}`

			`var OneapiGlobs = []string{`
			`"/usr/lib/x86_64-linux-gnu/libze_intel_gpu.so*",`
			`"/usr/lib/libze_intel_gpu.so",`
			`}`

lint 2024-08-01 21:52:15 +00:00			`var (`
			`CudartMgmtName = "libcudart.so*"`
			`NvcudaMgmtName = "libcuda.so*"`
			`NvmlMgmtName = "" // not currently wired on linux`
Refactor linux packaging This adjusts linux to follow a similar model to windows with a discrete archive (zip/tgz) to cary the primary executable, and dependent libraries. Runners are still carried as payloads inside the main binary Darwin retain the payload model where the go binary is fully self contained. 2024-07-08 19:50:11 +00:00			`OneapiMgmtName = "libze_intel_gpu.so*"`
lint 2024-08-01 21:52:15 +00:00			`)`
review comments and coverage 2024-06-05 19:07:20 +00:00
			`func GetCPUMem() (memInfo, error) {`
			`var mem memInfo`
llm: avoid loading model if system memory is too small (#5637) * llm: avoid loading model if system memory is too small * update log * Instrument swap free space On linux and windows, expose how much swap space is available so we can take that into consideration when scheduling models * use `systemSwapFreeMemory` in check --------- Co-authored-by: Daniel Hiltgen <daniel@ollama.com> 2024-07-11 23:42:57 +00:00			`var total, available, free, buffers, cached, freeSwap uint64`
review comments and coverage 2024-06-05 19:07:20 +00:00			`f, err := os.Open("/proc/meminfo")`
			`if err != nil {`
			`return mem, err`
			`}`
			`defer f.Close()`
			`s := bufio.NewScanner(f)`
			`for s.Scan() {`
			`line := s.Text()`
			`switch {`
			`case strings.HasPrefix(line, "MemTotal:"):`
			`_, err = fmt.Sscanf(line, "MemTotal:%d", &total)`
			`case strings.HasPrefix(line, "MemAvailable:"):`
			`_, err = fmt.Sscanf(line, "MemAvailable:%d", &available)`
			`case strings.HasPrefix(line, "MemFree:"):`
			`_, err = fmt.Sscanf(line, "MemFree:%d", &free)`
			`case strings.HasPrefix(line, "Buffers:"):`
			`_, err = fmt.Sscanf(line, "Buffers:%d", &buffers)`
			`case strings.HasPrefix(line, "Cached:"):`
			`_, err = fmt.Sscanf(line, "Cached:%d", &cached)`
llm: avoid loading model if system memory is too small (#5637) * llm: avoid loading model if system memory is too small * update log * Instrument swap free space On linux and windows, expose how much swap space is available so we can take that into consideration when scheduling models * use `systemSwapFreeMemory` in check --------- Co-authored-by: Daniel Hiltgen <daniel@ollama.com> 2024-07-11 23:42:57 +00:00			`case strings.HasPrefix(line, "SwapFree:"):`
			`_, err = fmt.Sscanf(line, "SwapFree:%d", &freeSwap)`
review comments and coverage 2024-06-05 19:07:20 +00:00			`default:`
			`continue`
			`}`
			`if err != nil {`
			`return mem, err`
			`}`
			`}`
			`mem.TotalMemory = total * format.KibiByte`
llm: avoid loading model if system memory is too small (#5637) * llm: avoid loading model if system memory is too small * update log * Instrument swap free space On linux and windows, expose how much swap space is available so we can take that into consideration when scheduling models * use `systemSwapFreeMemory` in check --------- Co-authored-by: Daniel Hiltgen <daniel@ollama.com> 2024-07-11 23:42:57 +00:00			`mem.FreeSwap = freeSwap * format.KibiByte`
			`if available > 0 {`
			`mem.FreeMemory = available * format.KibiByte`
			`} else {`
			`mem.FreeMemory = (free + buffers + cached) * format.KibiByte`
			`}`
review comments and coverage 2024-06-05 19:07:20 +00:00			`return mem, nil`
			`}`
Discovery CPU details for default thread selection (#6264) On windows, detect large multi-socket systems and reduce to the number of cores in one socket for best performance 2024-10-15 18:36:08 +00:00
			`const CpuInfoFilename = "/proc/cpuinfo"`

			`type linuxCpuInfo struct {`
			ID string `cpuinfo:"processor"`
			VendorID string `cpuinfo:"vendor_id"`
			ModelName string `cpuinfo:"model name"`
			PhysicalID string `cpuinfo:"physical id"`
			Siblings string `cpuinfo:"siblings"`
			CoreID string `cpuinfo:"core id"`
			`}`

			`func GetCPUDetails() ([]CPU, error) {`
			`file, err := os.Open(CpuInfoFilename)`
			`if err != nil {`
			`return nil, err`
			`}`
Refine default thread selection for NUMA systems (#7322) Until we have full NUMA support, this adjusts the default thread selection algorithm to count up the number of performance cores across all sockets. 2024-10-30 22:05:45 +00:00			`return linuxCPUDetails(file)`
			`}`

			`func linuxCPUDetails(file io.Reader) ([]CPU, error) {`
Discovery CPU details for default thread selection (#6264) On windows, detect large multi-socket systems and reduce to the number of cores in one socket for best performance 2024-10-15 18:36:08 +00:00			`reColumns := regexp.MustCompile("\t+: ")`
			`scanner := bufio.NewScanner(file)`
			`cpuInfos := []linuxCpuInfo{}`
			`cpu := &linuxCpuInfo{}`
			`for scanner.Scan() {`
			`line := scanner.Text()`
			`if sl := reColumns.Split(line, 2); len(sl) > 1 {`
			`t := reflect.TypeOf(cpu).Elem()`
			`s := reflect.ValueOf(cpu).Elem()`
			`for i := range t.NumField() {`
			`field := t.Field(i)`
			`tag := field.Tag.Get("cpuinfo")`
			`if tag == sl[0] {`
			`s.FieldByName(field.Name).SetString(sl[1])`
			`break`
			`}`
			`}`
			`} else if strings.TrimSpace(line) == "" && cpu.ID != "" {`
			`cpuInfos = append(cpuInfos, *cpu)`
			`cpu = &linuxCpuInfo{}`
			`}`
			`}`
Refine default thread selection for NUMA systems (#7322) Until we have full NUMA support, this adjusts the default thread selection algorithm to count up the number of performance cores across all sockets. 2024-10-30 22:05:45 +00:00			`if cpu.ID != "" {`
			`cpuInfos = append(cpuInfos, *cpu)`
			`}`
Discovery CPU details for default thread selection (#6264) On windows, detect large multi-socket systems and reduce to the number of cores in one socket for best performance 2024-10-15 18:36:08 +00:00
			`// Process the sockets/cores/threads`
			`socketByID := map[string]*CPU{}`
			`coreBySocket := map[string]map[string]struct{}{}`
			`threadsByCoreBySocket := map[string]map[string]int{}`
			`for _, c := range cpuInfos {`
			`if _, found := socketByID[c.PhysicalID]; !found {`
			`socketByID[c.PhysicalID] = &CPU{`
			`ID: c.PhysicalID,`
			`VendorID: c.VendorID,`
			`ModelName: c.ModelName,`
			`}`
			`coreBySocket[c.PhysicalID] = map[string]struct{}{}`
			`threadsByCoreBySocket[c.PhysicalID] = map[string]int{}`
			`}`
			`if c.CoreID != "" {`
			`coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID] = struct{}{}`
			`threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID]++`
			`} else {`
			`coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID] = struct{}{}`
			`threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID]++`
			`}`
			`}`

			`// Tally up the values from the tracking maps`
			`for id, s := range socketByID {`
			`s.CoreCount = len(coreBySocket[id])`
			`s.ThreadCount = 0`
			`for _, tc := range threadsByCoreBySocket[id] {`
			`s.ThreadCount += tc`
			`}`

			`// This only works if HT is enabled, consider a more reliable model, maybe cache size comparisons?`
			`efficiencyCoreCount := 0`
			`for _, threads := range threadsByCoreBySocket[id] {`
			`if threads == 1 {`
			`efficiencyCoreCount++`
			`}`
			`}`
			`if efficiencyCoreCount == s.CoreCount {`
			`// 1:1 mapping means they're not actually efficiency cores, but regular cores`
			`s.EfficiencyCoreCount = 0`
			`} else {`
			`s.EfficiencyCoreCount = efficiencyCoreCount`
			`}`
			`}`
Refine default thread selection for NUMA systems (#7322) Until we have full NUMA support, this adjusts the default thread selection algorithm to count up the number of performance cores across all sockets. 2024-10-30 22:05:45 +00:00			`keys := make([]string, 0, len(socketByID))`
			`result := make([]CPU, 0, len(socketByID))`
			`for k := range socketByID {`
			`keys = append(keys, k)`
			`}`
			`sort.Strings(keys)`
			`for _, k := range keys {`
			`result = append(result, *socketByID[k])`
Discovery CPU details for default thread selection (#6264) On windows, detect large multi-socket systems and reduce to the number of cores in one socket for best performance 2024-10-15 18:36:08 +00:00			`}`
			`return result, nil`
			`}`