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
This commit is contained in:
parent
1d7fa3ad2d
commit
24636dfa87
7 changed files with 408 additions and 24 deletions
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@ -229,7 +229,10 @@ func GetGPUInfo() GpuInfoList {
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slog.Warn("error looking up system memory", "error", err)
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}
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depPath := LibraryDir()
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details, err := GetCPUDetails()
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if err != nil {
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slog.Warn("failed to lookup CPU details", "error", err)
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}
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cpus = []CPUInfo{
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{
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GpuInfo: GpuInfo{
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@ -239,6 +242,7 @@ func GetGPUInfo() GpuInfoList {
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ID: "0",
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DependencyPath: depPath,
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},
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CPUs: details,
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},
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}
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@ -10,7 +10,9 @@ package gpu
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import "C"
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import (
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"log/slog"
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"runtime"
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"syscall"
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"github.com/ollama/ollama/format"
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)
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@ -69,11 +71,30 @@ func (l GpuInfoList) GetVisibleDevicesEnv() (string, string) {
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func GetSystemInfo() SystemInfo {
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mem, _ := GetCPUMem()
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query := "hw.perflevel0.physicalcpu"
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perfCores, err := syscall.SysctlUint32(query)
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if err != nil {
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slog.Warn("failed to discover physical CPU details", "query", query, "error", err)
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}
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query = "hw.perflevel1.physicalcpu"
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efficiencyCores, _ := syscall.SysctlUint32(query) // On x86 xeon this wont return data
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// Determine thread count
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query = "hw.logicalcpu"
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logicalCores, _ := syscall.SysctlUint32(query)
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return SystemInfo{
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System: CPUInfo{
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GpuInfo: GpuInfo{
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memInfo: mem,
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},
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CPUs: []CPU{
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{
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CoreCount: int(perfCores + efficiencyCores),
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EfficiencyCoreCount: int(efficiencyCores),
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ThreadCount: int(logicalCores),
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},
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},
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},
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GPUs: GetGPUInfo(),
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}
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@ -4,6 +4,8 @@ import (
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"bufio"
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"fmt"
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"os"
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"reflect"
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"regexp"
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"strings"
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"github.com/ollama/ollama/format"
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@ -90,3 +92,95 @@ func GetCPUMem() (memInfo, error) {
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}
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return mem, nil
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}
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const CpuInfoFilename = "/proc/cpuinfo"
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type linuxCpuInfo struct {
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ID string `cpuinfo:"processor"`
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VendorID string `cpuinfo:"vendor_id"`
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ModelName string `cpuinfo:"model name"`
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PhysicalID string `cpuinfo:"physical id"`
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Siblings string `cpuinfo:"siblings"`
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CoreID string `cpuinfo:"core id"`
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}
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func GetCPUDetails() ([]CPU, error) {
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file, err := os.Open(CpuInfoFilename)
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if err != nil {
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return nil, err
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}
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reColumns := regexp.MustCompile("\t+: ")
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scanner := bufio.NewScanner(file)
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cpuInfos := []linuxCpuInfo{}
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cpu := &linuxCpuInfo{}
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for scanner.Scan() {
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line := scanner.Text()
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if sl := reColumns.Split(line, 2); len(sl) > 1 {
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t := reflect.TypeOf(cpu).Elem()
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s := reflect.ValueOf(cpu).Elem()
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for i := range t.NumField() {
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field := t.Field(i)
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tag := field.Tag.Get("cpuinfo")
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if tag == sl[0] {
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s.FieldByName(field.Name).SetString(sl[1])
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break
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}
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}
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} else if strings.TrimSpace(line) == "" && cpu.ID != "" {
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cpuInfos = append(cpuInfos, *cpu)
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cpu = &linuxCpuInfo{}
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}
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}
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// Process the sockets/cores/threads
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socketByID := map[string]*CPU{}
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coreBySocket := map[string]map[string]struct{}{}
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threadsByCoreBySocket := map[string]map[string]int{}
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for _, c := range cpuInfos {
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if _, found := socketByID[c.PhysicalID]; !found {
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socketByID[c.PhysicalID] = &CPU{
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ID: c.PhysicalID,
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VendorID: c.VendorID,
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ModelName: c.ModelName,
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}
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coreBySocket[c.PhysicalID] = map[string]struct{}{}
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threadsByCoreBySocket[c.PhysicalID] = map[string]int{}
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}
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if c.CoreID != "" {
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coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID] = struct{}{}
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threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID]++
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} else {
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coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID] = struct{}{}
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threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID]++
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}
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}
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// Tally up the values from the tracking maps
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for id, s := range socketByID {
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s.CoreCount = len(coreBySocket[id])
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s.ThreadCount = 0
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for _, tc := range threadsByCoreBySocket[id] {
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s.ThreadCount += tc
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}
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// This only works if HT is enabled, consider a more reliable model, maybe cache size comparisons?
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efficiencyCoreCount := 0
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for _, threads := range threadsByCoreBySocket[id] {
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if threads == 1 {
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efficiencyCoreCount++
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}
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}
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if efficiencyCoreCount == s.CoreCount {
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// 1:1 mapping means they're not actually efficiency cores, but regular cores
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s.EfficiencyCoreCount = 0
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} else {
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s.EfficiencyCoreCount = efficiencyCoreCount
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}
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}
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result := []CPU{}
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for _, c := range socketByID {
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result = append(result, *c)
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}
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return result, nil
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}
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@ -2,6 +2,7 @@ package gpu
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import (
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"fmt"
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"log/slog"
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"syscall"
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"unsafe"
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)
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@ -19,9 +20,10 @@ type MEMORYSTATUSEX struct {
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}
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var (
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k32 = syscall.NewLazyDLL("kernel32.dll")
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globalMemoryStatusExProc = k32.NewProc("GlobalMemoryStatusEx")
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sizeofMemoryStatusEx = uint32(unsafe.Sizeof(MEMORYSTATUSEX{}))
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k32 = syscall.NewLazyDLL("kernel32.dll")
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globalMemoryStatusExProc = k32.NewProc("GlobalMemoryStatusEx")
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sizeofMemoryStatusEx = uint32(unsafe.Sizeof(MEMORYSTATUSEX{}))
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GetLogicalProcessorInformationEx = k32.NewProc("GetLogicalProcessorInformationEx")
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)
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var CudartGlobs = []string{
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@ -55,3 +57,178 @@ func GetCPUMem() (memInfo, error) {
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}
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return memInfo{TotalMemory: memStatus.TotalPhys, FreeMemory: memStatus.AvailPhys, FreeSwap: memStatus.AvailPageFile}, nil
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}
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type LOGICAL_PROCESSOR_RELATIONSHIP uint32
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const (
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RelationProcessorCore LOGICAL_PROCESSOR_RELATIONSHIP = iota
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RelationNumaNode
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RelationCache
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RelationProcessorPackage
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RelationGroup
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RelationProcessorDie
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RelationNumaNodeEx
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RelationProcessorModule
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)
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const RelationAll LOGICAL_PROCESSOR_RELATIONSHIP = 0xffff
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type GROUP_AFFINITY struct {
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Mask uintptr // KAFFINITY
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Group uint16
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Reserved [3]uint16
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}
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type PROCESSOR_RELATIONSHIP struct {
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Flags byte
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EfficiencyClass byte
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Reserved [20]byte
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GroupCount uint16
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GroupMask [1]GROUP_AFFINITY // len GroupCount
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}
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// Omitted unused structs: NUMA_NODE_RELATIONSHIP CACHE_RELATIONSHIP GROUP_RELATIONSHIP
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type SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX struct {
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Relationship LOGICAL_PROCESSOR_RELATIONSHIP
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Size uint32
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U [1]byte // Union len Size
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// PROCESSOR_RELATIONSHIP
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// NUMA_NODE_RELATIONSHIP
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// CACHE_RELATIONSHIP
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// GROUP_RELATIONSHIP
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}
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func (group *GROUP_AFFINITY) IsMember(target *GROUP_AFFINITY) bool {
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if group == nil || target == nil {
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return false
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}
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return group.Mask&target.Mask != 0
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}
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type winPackage struct {
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groups []*GROUP_AFFINITY
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coreCount int // performance cores = coreCount - efficiencyCoreCount
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efficiencyCoreCount int
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threadCount int
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}
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func (pkg *winPackage) IsMember(target *GROUP_AFFINITY) bool {
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for _, group := range pkg.groups {
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if group.IsMember(target) {
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return true
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}
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}
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return false
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}
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func getLogicalProcessorInformationEx() ([]byte, error) {
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buf := make([]byte, 1)
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bufSize := len(buf)
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ret, _, err := GetLogicalProcessorInformationEx.Call(
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uintptr(RelationAll),
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uintptr(unsafe.Pointer(&buf[0])),
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uintptr(unsafe.Pointer(&bufSize)),
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)
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if ret != 0 {
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return nil, fmt.Errorf("failed to determine size info ret:%d %w", ret, err)
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}
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buf = make([]byte, bufSize)
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ret, _, err = GetLogicalProcessorInformationEx.Call(
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uintptr(RelationAll),
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uintptr(unsafe.Pointer(&buf[0])),
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uintptr(unsafe.Pointer(&bufSize)),
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)
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if ret == 0 {
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return nil, fmt.Errorf("failed to gather processor information ret:%d buflen:%d %w", ret, bufSize, err)
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}
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return buf, nil
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}
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func processSystemLogicalProcessorInforationList(buf []byte) []*winPackage {
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var slpi *SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX
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// Find all the packages first
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packages := []*winPackage{}
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for bufOffset := 0; bufOffset < len(buf); bufOffset += int(slpi.Size) {
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slpi = (*SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX)(unsafe.Pointer(&buf[bufOffset]))
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if slpi.Relationship != RelationProcessorPackage {
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continue
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}
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pr := (*PROCESSOR_RELATIONSHIP)(unsafe.Pointer(&slpi.U[0]))
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pkg := &winPackage{}
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ga0 := unsafe.Pointer(&pr.GroupMask[0])
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for j := range pr.GroupCount {
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gm := (*GROUP_AFFINITY)(unsafe.Pointer(uintptr(ga0) + uintptr(j)*unsafe.Sizeof(GROUP_AFFINITY{})))
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pkg.groups = append(pkg.groups, gm)
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}
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packages = append(packages, pkg)
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}
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slog.Info("packages", "count", len(packages))
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// To identify efficiency cores we have to compare the relative values
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// Larger values are "less efficient" (aka, more performant)
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var maxEfficiencyClass byte
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for bufOffset := 0; bufOffset < len(buf); bufOffset += int(slpi.Size) {
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slpi = (*SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX)(unsafe.Pointer(&buf[bufOffset]))
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if slpi.Relationship != RelationProcessorCore {
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continue
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}
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pr := (*PROCESSOR_RELATIONSHIP)(unsafe.Pointer(&slpi.U[0]))
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if pr.EfficiencyClass > maxEfficiencyClass {
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maxEfficiencyClass = pr.EfficiencyClass
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}
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}
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if maxEfficiencyClass > 0 {
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slog.Info("efficiency cores detected", "maxEfficiencyClass", maxEfficiencyClass)
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}
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// then match up the Cores to the Packages, count up cores, threads and efficiency cores
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for bufOffset := 0; bufOffset < len(buf); bufOffset += int(slpi.Size) {
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slpi = (*SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX)(unsafe.Pointer(&buf[bufOffset]))
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if slpi.Relationship != RelationProcessorCore {
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continue
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}
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pr := (*PROCESSOR_RELATIONSHIP)(unsafe.Pointer(&slpi.U[0]))
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ga0 := unsafe.Pointer(&pr.GroupMask[0])
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for j := range pr.GroupCount {
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gm := (*GROUP_AFFINITY)(unsafe.Pointer(uintptr(ga0) + uintptr(j)*unsafe.Sizeof(GROUP_AFFINITY{})))
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for _, pkg := range packages {
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if pkg.IsMember(gm) {
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pkg.coreCount++
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if pr.Flags == 0 {
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pkg.threadCount++
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} else {
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pkg.threadCount += 2
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}
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if pr.EfficiencyClass < maxEfficiencyClass {
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pkg.efficiencyCoreCount++
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}
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}
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}
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}
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}
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// Sumarize the results
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for i, pkg := range packages {
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slog.Info("", "package", i, "cores", pkg.coreCount, "efficiency", pkg.efficiencyCoreCount, "threads", pkg.threadCount)
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}
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return packages
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}
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func GetCPUDetails() ([]CPU, error) {
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buf, err := getLogicalProcessorInformationEx()
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if err != nil {
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return nil, err
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}
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packages := processSystemLogicalProcessorInforationList(buf)
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cpus := make([]CPU, len(packages))
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for i, pkg := range packages {
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cpus[i].CoreCount = pkg.coreCount
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cpus[i].EfficiencyCoreCount = pkg.efficiencyCoreCount
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cpus[i].ThreadCount = pkg.threadCount
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}
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return cpus, nil
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}
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77
gpu/gpu_windows_test.go
Normal file
77
gpu/gpu_windows_test.go
Normal file
File diff suppressed because one or more lines are too long
24
gpu/types.go
24
gpu/types.go
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@ -10,11 +10,11 @@ import (
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type memInfo struct {
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TotalMemory uint64 `json:"total_memory,omitempty"`
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FreeMemory uint64 `json:"free_memory,omitempty"`
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FreeSwap uint64 `json:"free_swap,omitempty"`
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FreeSwap uint64 `json:"free_swap,omitempty"` // TODO split this out for system only
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}
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// Beginning of an `ollama info` command
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type GpuInfo struct {
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type GpuInfo struct { // TODO better name maybe "InferenceProcessor"?
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memInfo
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Library string `json:"library,omitempty"`
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@ -49,6 +49,17 @@ type GpuInfo struct {
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type CPUInfo struct {
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GpuInfo
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CPUs []CPU
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}
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// CPU type represents a CPU Package occupying a socket
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type CPU struct {
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ID string `cpuinfo:"processor"`
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VendorID string `cpuinfo:"vendor_id"`
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ModelName string `cpuinfo:"model name"`
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CoreCount int
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EfficiencyCoreCount int // Performance = CoreCount - Efficiency
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ThreadCount int
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}
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type CudaGPUInfo struct {
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@ -158,3 +169,12 @@ type SystemInfo struct {
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UnsupportedGPUs []UnsupportedGPUInfo `json:"unsupported_gpus"`
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DiscoveryErrors []string `json:"discovery_errors"`
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}
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// Return the optimal number of threads to use for inference
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func (si SystemInfo) GetOptimalThreadCount() int {
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if len(si.System.CPUs) == 0 {
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return 0
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}
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// Allocate thread count matching the performance cores on a single socket
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return si.System.CPUs[0].CoreCount - si.System.CPUs[0].EfficiencyCoreCount
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}
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@ -98,15 +98,11 @@ func NewLlamaServer(gpus gpu.GpuInfoList, model string, ggml *GGML, adapters, pr
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var systemFreeMemory uint64
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var systemSwapFreeMemory uint64
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systemMemInfo, err := gpu.GetCPUMem()
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if err != nil {
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slog.Error("failed to lookup system memory", "error", err)
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} else {
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systemTotalMemory = systemMemInfo.TotalMemory
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systemFreeMemory = systemMemInfo.FreeMemory
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systemSwapFreeMemory = systemMemInfo.FreeSwap
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slog.Info("system memory", "total", format.HumanBytes2(systemTotalMemory), "free", format.HumanBytes2(systemFreeMemory), "free_swap", format.HumanBytes2(systemSwapFreeMemory))
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}
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systemInfo := gpu.GetSystemInfo()
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systemTotalMemory = systemInfo.System.TotalMemory
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systemFreeMemory = systemInfo.System.FreeMemory
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systemSwapFreeMemory = systemInfo.System.FreeSwap
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slog.Info("system memory", "total", format.HumanBytes2(systemTotalMemory), "free", format.HumanBytes2(systemFreeMemory), "free_swap", format.HumanBytes2(systemSwapFreeMemory))
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// If the user wants zero GPU layers, reset the gpu list to be CPU/system ram info
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if opts.NumGPU == 0 {
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@ -217,8 +213,11 @@ func NewLlamaServer(gpus gpu.GpuInfoList, model string, ggml *GGML, adapters, pr
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params = append(params, "--mmproj", projectors[0])
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}
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defaultThreads := systemInfo.GetOptimalThreadCount()
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if opts.NumThread > 0 {
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params = append(params, "--threads", strconv.Itoa(opts.NumThread))
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} else if defaultThreads > 0 {
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params = append(params, "--threads", strconv.Itoa(defaultThreads))
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}
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if !opts.F16KV {
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@ -260,15 +259,7 @@ func NewLlamaServer(gpus gpu.GpuInfoList, model string, ggml *GGML, adapters, pr
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params = append(params, "--mlock")
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}
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if gpu.IsNUMA() && gpus[0].Library == "cpu" {
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numaMode := "distribute"
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if runtime.GOOS == "linux" {
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if _, err := exec.LookPath("numactl"); err == nil {
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numaMode = "numactl"
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}
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}
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params = append(params, "--numa", numaMode)
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}
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// TODO - NUMA support currently doesn't work properly
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params = append(params, "--parallel", strconv.Itoa(numParallel))
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