620 lines
21 KiB
Go
620 lines
21 KiB
Go
package server
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import (
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"context"
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"errors"
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"fmt"
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"log/slog"
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"reflect"
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"runtime"
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"sort"
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"strings"
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"sync"
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"time"
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"github.com/ollama/ollama/api"
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"github.com/ollama/ollama/format"
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"github.com/ollama/ollama/gpu"
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"github.com/ollama/ollama/llm"
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"github.com/ollama/ollama/envconfig"
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"golang.org/x/exp/slices"
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)
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type LlmRequest struct {
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ctx context.Context //nolint:containedctx
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model *Model
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opts api.Options
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sessionDuration time.Duration
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successCh chan *runnerRef
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errCh chan error
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}
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type Scheduler struct {
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pendingReqCh chan *LlmRequest
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finishedReqCh chan *LlmRequest
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expiredCh chan *runnerRef
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unloadedCh chan interface{}
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loaded map[string]*runnerRef
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loadedMu sync.Mutex
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loadFn func(req *LlmRequest, ggml *llm.GGML, gpus gpu.GpuInfoList)
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newServerFn func(gpus gpu.GpuInfoList, model string, ggml *llm.GGML, adapters []string, projectors []string, opts api.Options) (llm.LlamaServer, error)
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getGpuFn func() gpu.GpuInfoList
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}
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var ErrMaxQueue = fmt.Errorf("server busy, please try again. maximum pending requests exceeded")
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func InitScheduler(ctx context.Context) *Scheduler {
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sched := &Scheduler{
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pendingReqCh: make(chan *LlmRequest, envconfig.MaxQueuedRequests),
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finishedReqCh: make(chan *LlmRequest, envconfig.MaxQueuedRequests),
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expiredCh: make(chan *runnerRef, envconfig.MaxQueuedRequests),
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unloadedCh: make(chan interface{}, envconfig.MaxQueuedRequests),
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loaded: make(map[string]*runnerRef),
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newServerFn: llm.NewLlamaServer,
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getGpuFn: gpu.GetGPUInfo,
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}
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sched.loadFn = sched.load
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return sched
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}
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// context must be canceled to decrement ref count and release the runner
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func (s *Scheduler) GetRunner(c context.Context, model *Model, opts api.Options, sessionDuration time.Duration) (chan *runnerRef, chan error) {
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// allocate a large enough kv cache for all parallel requests
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if opts.NumCtx < 4 {
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opts.NumCtx = 4
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}
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opts.NumCtx = opts.NumCtx * envconfig.NumParallel
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req := &LlmRequest{
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ctx: c,
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model: model,
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opts: opts,
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sessionDuration: sessionDuration,
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successCh: make(chan *runnerRef),
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errCh: make(chan error, 1),
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}
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select {
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case s.pendingReqCh <- req:
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default:
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req.errCh <- ErrMaxQueue
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}
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return req.successCh, req.errCh
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}
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// Returns immediately, spawns go routines for the scheduler which will shutdown when ctx is done
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func (s *Scheduler) Run(ctx context.Context) {
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slog.Debug("starting llm scheduler")
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go func() {
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s.processPending(ctx)
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}()
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go func() {
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s.processCompleted(ctx)
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}()
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}
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func (s *Scheduler) processPending(ctx context.Context) {
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for {
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select {
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case <-ctx.Done():
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slog.Debug("shutting down scheduler pending loop")
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return
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case pending := <-s.pendingReqCh:
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// Block other requests until we get this pending request running
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if pending.ctx.Err() != nil {
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slog.Debug("pending request cancelled or timed out, skipping scheduling")
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continue
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}
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for {
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var runnerToExpire *runnerRef
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s.loadedMu.Lock()
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runner := s.loaded[pending.model.ModelPath]
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loadedCount := len(s.loaded)
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s.loadedMu.Unlock()
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if runner != nil {
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if runner.needsReload(ctx, pending) {
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runnerToExpire = runner
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} else {
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// Runner is usable, return it
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pending.useLoadedRunner(runner, s.finishedReqCh)
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break
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}
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} else if envconfig.MaxRunners > 0 && loadedCount >= envconfig.MaxRunners {
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slog.Debug("max runners achieved, unloading one to make room", "runner_count", loadedCount)
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runnerToExpire = s.findRunnerToUnload()
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} else {
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// Either no models are loaded or below envconfig.MaxRunners
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// Get a refreshed GPU list
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gpus := s.getGpuFn()
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// Load model for fitting
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ggml, err := llm.LoadModel(pending.model.ModelPath)
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if err != nil {
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pending.errCh <- err
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break
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}
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// If we're CPU only mode, just limit by envconfig.MaxRunners above
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// TODO handle system memory exhaustion
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if (len(gpus) == 1 && gpus[0].Library == "cpu") || pending.opts.NumGPU == 0 {
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slog.Debug("cpu mode with existing models, loading")
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s.loadFn(pending, ggml, gpus)
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break
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}
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// No models loaded. Load the model but prefer the best fit.
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if loadedCount == 0 {
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slog.Debug("loading first model", "model", pending.model.ModelPath)
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g := pickBestFitGPUs(pending, ggml, gpus)
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if g != nil {
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gpus = g
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}
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s.loadFn(pending, ggml, gpus)
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break
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}
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// More than one loaded model, so we have to see if the new one fits
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// Update free memory from currently loaded models
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s.updateFreeSpace(gpus)
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gpus = pickBestFitGPUs(pending, ggml, gpus)
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if gpus != nil {
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slog.Debug("new model fits with existing models, loading")
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s.loadFn(pending, ggml, gpus)
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break
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}
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runnerToExpire = s.findRunnerToUnload()
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}
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if runnerToExpire == nil {
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// Shouildn't happen
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slog.Error("runner to expire was nil!")
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continue
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}
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// Trigger an expiration to unload once it's done
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runnerToExpire.refMu.Lock()
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slog.Debug("resetting model to expire immediately to make room", "modelPath", runnerToExpire.modelPath, "refCount", runnerToExpire.refCount)
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if runnerToExpire.expireTimer != nil {
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runnerToExpire.expireTimer.Stop()
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runnerToExpire.expireTimer = nil
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}
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runnerToExpire.sessionDuration = 0
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if runnerToExpire.refCount <= 0 {
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s.expiredCh <- runnerToExpire
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}
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runnerToExpire.refMu.Unlock()
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// Wait for the unload to happen
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// Note: at this point we're queueing up all incoming requests, even if they were for
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// a different model that's loaded and not scheduled to be removed.
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slog.Debug("waiting for pending requests to complete and unload to occur", "modelPath", runnerToExpire.modelPath)
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select {
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case <-ctx.Done():
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slog.Debug("shutting down scheduler pending loop")
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return
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case <-s.unloadedCh:
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slog.Debug("unload completed", "modelPath", runnerToExpire.modelPath)
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continue
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}
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}
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case <-s.unloadedCh:
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// An unload request when there are no pending request can be ignored
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slog.Debug("ignoring unload event with no pending requests")
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}
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}
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}
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func (s *Scheduler) processCompleted(ctx context.Context) {
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// Process completed requests, expired timers, and unloading models
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for {
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select {
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case <-ctx.Done():
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slog.Debug("shutting down scheduler completed loop")
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return
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case finished := <-s.finishedReqCh:
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s.loadedMu.Lock()
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runner := s.loaded[finished.model.ModelPath]
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s.loadedMu.Unlock()
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if runner == nil {
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slog.Error("finished request signal received after model unloaded", "modelPath", finished.model.ModelPath)
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continue
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}
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runner.refMu.Lock()
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runner.refCount--
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if runner.refCount <= 0 {
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if runner.sessionDuration <= 0 {
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slog.Debug("runner with zero duration has gone idle, expiring to unload", "modelPath", runner.modelPath)
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if runner.expireTimer != nil {
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runner.expireTimer.Stop()
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runner.expireTimer = nil
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}
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s.expiredCh <- runner
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} else if runner.expireTimer == nil {
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slog.Debug("runner with non-zero duration has gone idle, adding timer", "modelPath", runner.modelPath, "duration", runner.sessionDuration)
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runner.expireTimer = time.AfterFunc(runner.sessionDuration, func() {
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slog.Debug("timer expired, expiring to unload", "modelPath", runner.modelPath)
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runner.refMu.Lock()
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defer runner.refMu.Unlock()
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if runner.expireTimer != nil {
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runner.expireTimer.Stop()
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runner.expireTimer = nil
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}
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s.expiredCh <- runner
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})
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runner.expiresAt = time.Now().Add(runner.sessionDuration)
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} else {
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slog.Debug("runner with non-zero duration has gone idle, resetting timer", "modelPath", runner.modelPath, "duration", runner.sessionDuration)
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runner.expireTimer.Reset(runner.sessionDuration)
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runner.expiresAt = time.Now().Add(runner.sessionDuration)
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}
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}
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slog.Debug("after processing request finished event", "modelPath", runner.modelPath, "refCount", runner.refCount)
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runner.refMu.Unlock()
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case runner := <-s.expiredCh:
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slog.Debug("runner expired event received", "modelPath", runner.modelPath)
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runner.refMu.Lock()
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if runner.refCount > 0 {
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// Shouldn't happen, but safeguard to ensure no leaked runners
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slog.Debug("expired event with positive ref count, retrying", "modelPath", runner.modelPath, "refCount", runner.refCount)
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go func(runner *runnerRef) {
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// We can't unload yet, but want to as soon as the current request completes
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// So queue up another expired event
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time.Sleep(10 * time.Millisecond)
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s.expiredCh <- runner
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}(runner)
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runner.refMu.Unlock()
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continue
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}
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s.loadedMu.Lock()
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slog.Debug("got lock to unload", "modelPath", runner.modelPath)
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finished := runner.waitForVRAMRecovery()
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runner.unload()
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delete(s.loaded, runner.modelPath)
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s.loadedMu.Unlock()
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slog.Debug("runner released", "modelPath", runner.modelPath)
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runner.refMu.Unlock()
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<-finished
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slog.Debug("sending an unloaded event", "modelPath", runner.modelPath)
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s.unloadedCh <- struct{}{}
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}
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}
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}
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// Complete the pending request and send the runner back to the requester
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// Wires up a finished event after the request context is completed
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// Updates session duration, and resets expiration timer
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func (pending *LlmRequest) useLoadedRunner(runner *runnerRef, finished chan *LlmRequest) {
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runner.refMu.Lock()
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defer runner.refMu.Unlock()
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runner.refCount++
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if runner.expireTimer != nil {
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runner.expireTimer.Stop()
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runner.expireTimer = nil
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}
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runner.sessionDuration = pending.sessionDuration
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pending.successCh <- runner
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go func() {
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<-pending.ctx.Done()
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slog.Debug("context for request finished")
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finished <- pending
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}()
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}
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func (s *Scheduler) load(req *LlmRequest, ggml *llm.GGML, gpus gpu.GpuInfoList) {
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llama, err := s.newServerFn(gpus, req.model.ModelPath, ggml, req.model.AdapterPaths, req.model.ProjectorPaths, req.opts)
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if err != nil {
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// some older models are not compatible with newer versions of llama.cpp
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// show a generalized compatibility error until there is a better way to
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// check for model compatibility
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if errors.Is(llm.ErrUnsupportedFormat, err) || strings.Contains(err.Error(), "failed to load model") {
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err = fmt.Errorf("%v: this model may be incompatible with your version of Ollama. If you previously pulled this model, try updating it by running `ollama pull %s`", err, req.model.ShortName)
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}
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slog.Info("NewLlamaServer failed", "model", req.model.ModelPath, "error", err)
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req.errCh <- err
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return
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}
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runner := &runnerRef{
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model: req.model,
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modelPath: req.model.ModelPath,
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llama: llama,
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Options: &req.opts,
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sessionDuration: req.sessionDuration,
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gpus: gpus,
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estimatedVRAM: llama.EstimatedVRAM(),
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estimatedTotal: llama.EstimatedTotal(),
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loading: true,
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refCount: 1,
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}
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runner.refMu.Lock()
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s.loadedMu.Lock()
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s.loaded[req.model.ModelPath] = runner
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slog.Info("loaded runners", "count", len(s.loaded))
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s.loadedMu.Unlock()
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go func() {
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defer runner.refMu.Unlock()
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if err = llama.WaitUntilRunning(req.ctx); err != nil {
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slog.Error("error loading llama server", "error", err)
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runner.refCount--
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req.errCh <- err
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slog.Debug("triggering expiration for failed load", "model", runner.modelPath)
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s.expiredCh <- runner
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return
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}
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slog.Debug("finished setting up runner", "model", req.model.ModelPath)
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runner.loading = false
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go func() {
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<-req.ctx.Done()
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slog.Debug("context for request finished")
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s.finishedReqCh <- req
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}()
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req.successCh <- runner
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}()
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}
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func (s *Scheduler) updateFreeSpace(allGpus gpu.GpuInfoList) {
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type predKey struct {
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Library string
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ID string
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}
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predMap := map[predKey]uint64{} // Sum up the total predicted usage per GPU for all runners
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s.loadedMu.Lock()
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for _, r := range s.loaded {
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r.refMu.Lock()
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gpuIDs := make([]string, 0, len(r.gpus))
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if r.llama != nil {
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// TODO this should be broken down by GPU instead of assuming uniform spread
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estimatedVRAMPerGPU := r.llama.EstimatedVRAM() / uint64(len(r.gpus))
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for _, gpu := range r.gpus {
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gpuIDs = append(gpuIDs, gpu.ID)
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}
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for _, gpu := range allGpus {
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if slices.Contains(gpuIDs, gpu.ID) {
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predMap[predKey{gpu.Library, gpu.ID}] += estimatedVRAMPerGPU
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}
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}
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} else {
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slog.Warn("unexpected nil runner reference, memory prediction may be incorrect")
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}
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r.refMu.Unlock()
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}
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s.loadedMu.Unlock()
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// Now that we've summed up all the GPU usage predictions across all the loaded runners, update the gpu list
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for i := range allGpus {
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if p, ok := predMap[predKey{allGpus[i].Library, allGpus[i].ID}]; ok {
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slog.Debug("gpu reported", "gpu", allGpus[i].ID, "library", allGpus[i].Library, "available", format.HumanBytes2(allGpus[i].FreeMemory))
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if p > allGpus[i].TotalMemory {
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// Shouldn't happen
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slog.Warn("predicted usage exceeds VRAM", "gpu", allGpus[i].ID, "totalMemory", allGpus[i].TotalMemory, "predicted", p)
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allGpus[i].FreeMemory = 0
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} else if (allGpus[i].TotalMemory - p) < allGpus[i].FreeMemory { // predicted free is smaller than reported free, use it
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// TODO maybe we should just always trust our numbers, since cuda's free memory reporting is laggy
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// and we might unload models we didn't actually need to. The risk is if some other GPU intensive app is loaded
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// after we start our first runner, then we'll never acount for that, so picking the smallest free value seems prudent.
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allGpus[i].FreeMemory = allGpus[i].TotalMemory - p
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}
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slog.Info("updated VRAM", "gpu", allGpus[i].ID, "library", allGpus[i].Library, "total", format.HumanBytes2(allGpus[i].TotalMemory), "available", format.HumanBytes2(allGpus[i].FreeMemory))
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}
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}
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}
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type runnerRef struct {
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refMu sync.Mutex
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// refCond sync.Cond // Signaled on transition from 1 -> 0 refCount
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refCount uint // prevent unloading if > 0
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// unloading bool // set to true when we are trying to unload the runner
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llama llm.LlamaServer
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loading bool // True only during initial load, then false forever
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gpus gpu.GpuInfoList // Recorded at time of provisioning
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estimatedVRAM uint64
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estimatedTotal uint64
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sessionDuration time.Duration
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expireTimer *time.Timer
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expiresAt time.Time
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model *Model
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modelPath string
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*api.Options
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}
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// The refMu must already be held when calling unload
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func (runner *runnerRef) unload() {
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if runner.expireTimer != nil {
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runner.expireTimer.Stop()
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runner.expireTimer = nil
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}
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if runner.llama != nil {
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runner.llama.Close()
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}
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runner.model = nil
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runner.llama = nil
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runner.Options = nil
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runner.gpus = nil
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}
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func (runner *runnerRef) needsReload(ctx context.Context, req *LlmRequest) bool {
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slog.Debug("evaluating already loaded", "model", req.model.ModelPath)
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runner.refMu.Lock()
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defer runner.refMu.Unlock()
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timeout := 10 * time.Second
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if runner.loading {
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timeout = 2 * time.Minute // Initial load can take a long time for big models on slow systems...
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}
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if runner.Options == nil {
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return true
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}
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// Don't reload runner if num_gpu=-1 was provided
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optsExisting := runner.Options.Runner
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optsNew := req.opts.Runner
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if optsNew.NumGPU < 0 {
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optsExisting.NumGPU = -1
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optsNew.NumGPU = -1
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}
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ctx, cancel := context.WithTimeout(ctx, timeout)
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defer cancel()
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if !reflect.DeepEqual(runner.model.AdapterPaths, req.model.AdapterPaths) || // have the adapters changed?
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!reflect.DeepEqual(runner.model.ProjectorPaths, req.model.ProjectorPaths) || // have the projectors changed?
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!reflect.DeepEqual(optsExisting, optsNew) || // have the runner options changed?
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runner.llama.Ping(ctx) != nil {
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return true
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}
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return false
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}
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// Free memory reporting on GPUs can lag for a while even after the runner
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// exits, so we have to keep checking until we see the available memory recover,
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// otherwise subsequent model loads will get far less layers loaded or worse
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// case, may completely fall back to CPU mode.
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// This routine must be called before the runner unloads so it can establish
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// a before and after GPU memory allocation. The returned channel
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// will be notified when we're done waiting, or have timed out and should
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// proceed anyway
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func (runner *runnerRef) waitForVRAMRecovery() chan interface{} {
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finished := make(chan interface{}, 1)
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|
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// CPU or Metal don't need checking, so no waiting required, windows can page VRAM, and the APIs we query tend to be optimistic on free space
|
|
if (len(runner.gpus) == 1 && (runner.gpus[0].Library == "cpu" || runner.gpus[0].Library == "metal")) || runtime.GOOS == "windows" {
|
|
finished <- struct{}{}
|
|
return finished
|
|
}
|
|
start := time.Now()
|
|
|
|
// Establish a baseline before we unload
|
|
gpusBefore := gpu.GetGPUInfo()
|
|
var totalMemoryBefore, freeMemoryBefore uint64
|
|
for _, gpu := range gpusBefore {
|
|
totalMemoryBefore += gpu.TotalMemory
|
|
freeMemoryBefore += gpu.FreeMemory
|
|
}
|
|
go func() {
|
|
expiresAt := start.Add(5 * time.Second) // typical convergence is 0.5-1.5s
|
|
ticker := time.NewTicker(250 * time.Millisecond)
|
|
defer ticker.Stop()
|
|
for {
|
|
<-ticker.C
|
|
if time.Now().After(expiresAt) {
|
|
slog.Warn("gpu VRAM usage didn't recover within timeout", "seconds", time.Since(start).Seconds())
|
|
finished <- struct{}{}
|
|
}
|
|
|
|
// Query GPUs, look for free to go back up
|
|
gpusNow := gpu.GetGPUInfo()
|
|
var totalMemoryNow, freeMemoryNow uint64
|
|
for _, gpu := range gpusNow {
|
|
totalMemoryNow += gpu.TotalMemory
|
|
freeMemoryNow += gpu.FreeMemory
|
|
}
|
|
// If we're within ~80% of the estimated memory usage recovered, bail out
|
|
if float32(freeMemoryNow-freeMemoryBefore) > float32(runner.estimatedVRAM)*0.8 {
|
|
slog.Debug(fmt.Sprintf("gpu VRAM free memory converged after %0.2f seconds", time.Since(start).Seconds()))
|
|
finished <- struct{}{}
|
|
return
|
|
}
|
|
}
|
|
}()
|
|
return finished
|
|
|
|
}
|
|
|
|
type ByDuration []*runnerRef
|
|
|
|
func (a ByDuration) Len() int { return len(a) }
|
|
func (a ByDuration) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
|
|
func (a ByDuration) Less(i, j int) bool {
|
|
// uint64 to turn negative time (never unload) to largest
|
|
return uint64(a[i].sessionDuration) < uint64(a[j].sessionDuration)
|
|
}
|
|
|
|
// TODO - future consideration to pick runners based on size
|
|
// type BySize []*runnerRef
|
|
// func (a BySize) Len() int { return len(a) }
|
|
// func (a BySize) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
|
|
// func (a BySize) Less(i, j int) bool { return a[i].estimatedVRAM < a[j].estimatedVRAM }
|
|
|
|
// pickBestFitGPUs will try to find the optimal placement of the model in the available GPUs where the model fully fits
|
|
// If the model can not be fit fully within the available GPU(s) nil is returned
|
|
func pickBestFitGPUs(req *LlmRequest, ggml *llm.GGML, gpus gpu.GpuInfoList) gpu.GpuInfoList {
|
|
var estimatedVRAM uint64
|
|
for _, gl := range gpus.ByLibrary() {
|
|
var ok bool
|
|
sgl := append(make(gpu.GpuInfoList, 0, len(gl)), gl...)
|
|
|
|
// TODO - potentially sort by performance capability, existing models loaded, etc.
|
|
// Note: at present, this will favor more VRAM over faster GPU speed in mixed setups
|
|
sort.Sort(sort.Reverse(gpu.ByFreeMemory(sgl)))
|
|
|
|
// First attempt to fit the model into a single GPU
|
|
for _, g := range sgl {
|
|
if ok, estimatedVRAM = llm.PredictServerFit([]gpu.GpuInfo{g}, ggml, req.model.AdapterPaths, req.model.ProjectorPaths, req.opts); ok {
|
|
slog.Debug("new model will fit in available VRAM in single GPU, loading", "model", req.model.ModelPath, "gpu", g.ID, "available", g.FreeMemory, "required", format.HumanBytes2(estimatedVRAM))
|
|
return []gpu.GpuInfo{g}
|
|
}
|
|
}
|
|
|
|
// TODO future refinements
|
|
// - if multiple Libraries, see if any single GPU in any Library will fit
|
|
// - try subsets of GPUs instead of just falling back to 1 or all in a family
|
|
|
|
// Now try all the GPUs
|
|
if ok, estimatedVRAM = llm.PredictServerFit(sgl, ggml, req.model.AdapterPaths, req.model.ProjectorPaths, req.opts); ok {
|
|
slog.Debug("new model will fit in available VRAM, loading", "model", req.model.ModelPath, "library", sgl[0].Library, "required", format.HumanBytes2(estimatedVRAM))
|
|
return sgl
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// findRunnerToUnload finds a runner to unload to make room for a new model
|
|
func (s *Scheduler) findRunnerToUnload() *runnerRef {
|
|
s.loadedMu.Lock()
|
|
runnerList := make([]*runnerRef, 0, len(s.loaded))
|
|
for _, r := range s.loaded {
|
|
runnerList = append(runnerList, r)
|
|
}
|
|
s.loadedMu.Unlock()
|
|
|
|
// In the future we can enhance the algorithm to be smarter about picking the optimal runner to unload
|
|
// e.g., if we have multiple options, will one make room for the request?
|
|
sort.Sort(ByDuration(runnerList))
|
|
|
|
// First try to find a runner that's already idle
|
|
for _, runner := range runnerList {
|
|
runner.refMu.Lock()
|
|
rc := runner.refCount
|
|
runner.refMu.Unlock()
|
|
if rc == 0 {
|
|
slog.Debug("found an idle runner to unload")
|
|
return runner
|
|
}
|
|
}
|
|
// None appear idle, just wait for the one with the shortest duration
|
|
slog.Debug("no idle runners, picking the shortest duration", "count", len(runnerList))
|
|
return runnerList[0]
|
|
}
|
|
|
|
func (s *Scheduler) unloadAllRunners() {
|
|
s.loadedMu.Lock()
|
|
defer s.loadedMu.Unlock()
|
|
for model, runner := range s.loaded {
|
|
if runner.llama != nil {
|
|
slog.Debug("shutting down runner", "model", model)
|
|
runner.llama.Close()
|
|
}
|
|
}
|
|
}
|