Add isfinite guard, exception chaining, and unit tests for Number Convert node

- Add math.isfinite() check to prevent int() crash on inf/nan string inputs
- Use 'from None' for cleaner exception chaining on string parse failure
- Add 21 unit tests covering all input types and error paths

comfy/cli_args.py

@@ -49,7 +49,7 @@ parser.add_argument("--temp-directory", type=str, default=None, help="Set the Co
 parser.add_argument("--input-directory", type=str, default=None, help="Set the ComfyUI input directory. Overrides --base-directory.")
 parser.add_argument("--auto-launch", action="store_true", help="Automatically launch ComfyUI in the default browser.")
 parser.add_argument("--disable-auto-launch", action="store_true", help="Disable auto launching the browser.")
-parser.add_argument("--cuda-device", type=str, default=None, metavar="DEVICE_ID", help="Set the ids of cuda devices this instance will use. All other devices will not be visible.")
+parser.add_argument("--cuda-device", type=int, default=None, metavar="DEVICE_ID", help="Set the id of the cuda device this instance will use. All other devices will not be visible.")
 parser.add_argument("--default-device", type=int, default=None, metavar="DEFAULT_DEVICE_ID", help="Set the id of the default device, all other devices will stay visible.")
 cm_group = parser.add_mutually_exclusive_group()
 cm_group.add_argument("--cuda-malloc", action="store_true", help="Enable cudaMallocAsync (enabled by default for torch 2.0 and up).")

comfy/controlnet.py

@@ -15,14 +15,13 @@
     You should have received a copy of the GNU General Public License
     along with this program.  If not, see <https://www.gnu.org/licenses/>.
 """
-from __future__ import annotations
+
 
 import torch
 from enum import Enum
 import math
 import os
 import logging
-import copy
 import comfy.utils
 import comfy.model_management
 import comfy.model_detection
@@ -39,7 +38,7 @@ import comfy.ldm.hydit.controlnet
 import comfy.ldm.flux.controlnet
 import comfy.ldm.qwen_image.controlnet
 import comfy.cldm.dit_embedder
-from typing import TYPE_CHECKING, Union
+from typing import TYPE_CHECKING
 if TYPE_CHECKING:
     from comfy.hooks import HookGroup
 
@@ -65,18 +64,6 @@ class StrengthType(Enum):
     CONSTANT = 1
     LINEAR_UP = 2
 
-class ControlIsolation:
-    '''Temporarily set a ControlBase object's previous_controlnet to None to prevent cascading calls.'''
-    def __init__(self, control: ControlBase):
-        self.control = control
-        self.orig_previous_controlnet = control.previous_controlnet
-
-    def __enter__(self):
-        self.control.previous_controlnet = None
-
-    def __exit__(self, *args):
-        self.control.previous_controlnet = self.orig_previous_controlnet
-
 class ControlBase:
     def __init__(self):
         self.cond_hint_original = None
@@ -90,7 +77,7 @@ class ControlBase:
         self.compression_ratio = 8
         self.upscale_algorithm = 'nearest-exact'
         self.extra_args = {}
-        self.previous_controlnet: Union[ControlBase, None] = None
+        self.previous_controlnet = None
         self.extra_conds = []
         self.strength_type = StrengthType.CONSTANT
         self.concat_mask = False
@@ -98,7 +85,6 @@ class ControlBase:
         self.extra_concat = None
         self.extra_hooks: HookGroup = None
         self.preprocess_image = lambda a: a
-        self.multigpu_clones: dict[torch.device, ControlBase] = {}
 
     def set_cond_hint(self, cond_hint, strength=1.0, timestep_percent_range=(0.0, 1.0), vae=None, extra_concat=[]):
         self.cond_hint_original = cond_hint
@@ -125,38 +111,17 @@ class ControlBase:
     def cleanup(self):
         if self.previous_controlnet is not None:
             self.previous_controlnet.cleanup()
-        for device_cnet in self.multigpu_clones.values():
-            with ControlIsolation(device_cnet):
-                device_cnet.cleanup()
+
         self.cond_hint = None
         self.extra_concat = None
         self.timestep_range = None
 
     def get_models(self):
         out = []
-        for device_cnet in self.multigpu_clones.values():
-            out += device_cnet.get_models_only_self()
         if self.previous_controlnet is not None:
             out += self.previous_controlnet.get_models()
         return out
 
-    def get_models_only_self(self):
-        'Calls get_models, but temporarily sets previous_controlnet to None.'
-        with ControlIsolation(self):
-            return self.get_models()
-
-    def get_instance_for_device(self, device):
-        'Returns instance of this Control object intended for selected device.'
-        return self.multigpu_clones.get(device, self)
-
-    def deepclone_multigpu(self, load_device, autoregister=False):
-        '''
-        Create deep clone of Control object where model(s) is set to other devices.
-
-        When autoregister is set to True, the deep clone is also added to multigpu_clones dict.
-        '''
-        raise NotImplementedError("Classes inheriting from ControlBase should define their own deepclone_multigpu funtion.")
-
     def get_extra_hooks(self):
         out = []
         if self.extra_hooks is not None:
@@ -165,7 +130,7 @@ class ControlBase:
             out += self.previous_controlnet.get_extra_hooks()
         return out
 
-    def copy_to(self, c: ControlBase):
+    def copy_to(self, c):
         c.cond_hint_original = self.cond_hint_original
         c.strength = self.strength
         c.timestep_percent_range = self.timestep_percent_range
@@ -319,14 +284,6 @@ class ControlNet(ControlBase):
         self.copy_to(c)
         return c
 
-    def deepclone_multigpu(self, load_device, autoregister=False):
-        c = self.copy()
-        c.control_model = copy.deepcopy(c.control_model)
-        c.control_model_wrapped = comfy.model_patcher.ModelPatcher(c.control_model, load_device=load_device, offload_device=comfy.model_management.unet_offload_device())
-        if autoregister:
-            self.multigpu_clones[load_device] = c
-        return c
-
     def get_models(self):
         out = super().get_models()
         out.append(self.control_model_wrapped)
@@ -949,14 +906,6 @@ class T2IAdapter(ControlBase):
         self.copy_to(c)
         return c
 
-    def deepclone_multigpu(self, load_device, autoregister=False):
-        c = self.copy()
-        c.t2i_model = copy.deepcopy(c.t2i_model)
-        c.device = load_device
-        if autoregister:
-            self.multigpu_clones[load_device] = c
-        return c
-
 def load_t2i_adapter(t2i_data, model_options={}): #TODO: model_options
     compression_ratio = 8
     upscale_algorithm = 'nearest-exact'

comfy/model_management.py

@@ -15,7 +15,6 @@
     You should have received a copy of the GNU General Public License
     along with this program.  If not, see <https://www.gnu.org/licenses/>.
 """
-from __future__ import annotations
 
 import psutil
 import logging
@@ -33,11 +32,6 @@ import comfy.memory_management
 import comfy.utils
 import comfy.quant_ops
 
-from typing import TYPE_CHECKING
-if TYPE_CHECKING:
-    from comfy.model_patcher import ModelPatcher
-
-
 class VRAMState(Enum):
     DISABLED = 0    #No vram present: no need to move models to vram
     NO_VRAM = 1     #Very low vram: enable all the options to save vram
@@ -211,25 +205,6 @@ def get_torch_device():
         else:
             return torch.device(torch.cuda.current_device())
 
-def get_all_torch_devices(exclude_current=False):
-    global cpu_state
-    devices = []
-    if cpu_state == CPUState.GPU:
-        if is_nvidia():
-            for i in range(torch.cuda.device_count()):
-                devices.append(torch.device(i))
-        elif is_intel_xpu():
-            for i in range(torch.xpu.device_count()):
-                devices.append(torch.device(i))
-        elif is_ascend_npu():
-            for i in range(torch.npu.device_count()):
-                devices.append(torch.device(i))
-    else:
-        devices.append(get_torch_device())
-    if exclude_current:
-        devices.remove(get_torch_device())
-    return devices
-
 def get_total_memory(dev=None, torch_total_too=False):
     global directml_enabled
     if dev is None:
@@ -518,13 +493,9 @@ try:
     logging.info("Device: {}".format(get_torch_device_name(get_torch_device())))
 except:
     logging.warning("Could not pick default device.")
-try:
-    for device in get_all_torch_devices(exclude_current=True):
-        logging.info("Device: {}".format(get_torch_device_name(device)))
-except:
-    pass
 
-current_loaded_models: list[LoadedModel] = []
+
+current_loaded_models = []
 
 def module_size(module):
     module_mem = 0
@@ -557,7 +528,7 @@ def module_mmap_residency(module, free=False):
     return mmap_touched_mem, module_mem
 
 class LoadedModel:
-    def __init__(self, model: ModelPatcher):
+    def __init__(self, model):
         self._set_model(model)
         self.device = model.load_device
         self.real_model = None
@@ -565,7 +536,7 @@ class LoadedModel:
         self.model_finalizer = None
         self._patcher_finalizer = None
 
-    def _set_model(self, model: ModelPatcher):
+    def _set_model(self, model):
         self._model = weakref.ref(model)
         if model.parent is not None:
             self._parent_model = weakref.ref(model.parent)
@@ -1809,34 +1780,7 @@ def soft_empty_cache(force=False):
         torch.cuda.ipc_collect()
 
 def unload_all_models():
-    for device in get_all_torch_devices():
-        free_memory(1e30, device)
-
-def unload_model_and_clones(model: ModelPatcher, unload_additional_models=True, all_devices=False):
-    'Unload only model and its clones - primarily for multigpu cloning purposes.'
-    initial_keep_loaded: list[LoadedModel] = current_loaded_models.copy()
-    additional_models = []
-    if unload_additional_models:
-        additional_models = model.get_nested_additional_models()
-    keep_loaded = []
-    for loaded_model in initial_keep_loaded:
-        if loaded_model.model is not None:
-            if model.clone_base_uuid == loaded_model.model.clone_base_uuid:
-                continue
-            # check additional models if they are a match
-            skip = False
-            for add_model in additional_models:
-                if add_model.clone_base_uuid == loaded_model.model.clone_base_uuid:
-                    skip = True
-                    break
-            if skip:
-                continue
-        keep_loaded.append(loaded_model)
-    if not all_devices:
-        free_memory(1e30, get_torch_device(), keep_loaded)
-    else:
-        for device in get_all_torch_devices():
-            free_memory(1e30, device, keep_loaded)
+    free_memory(1e30, get_torch_device())
 
 def debug_memory_summary():
     if is_amd() or is_nvidia():

comfy/model_patcher.py

@@ -23,7 +23,6 @@ import inspect
 import logging
 import math
 import uuid
-import copy
 from typing import Callable, Optional
 
 import torch
@@ -76,15 +75,12 @@ def set_model_options_pre_cfg_function(model_options, pre_cfg_function, disable_
 def create_model_options_clone(orig_model_options: dict):
     return comfy.patcher_extension.copy_nested_dicts(orig_model_options)
 
-def create_hook_patches_clone(orig_hook_patches, copy_tuples=False):
+def create_hook_patches_clone(orig_hook_patches):
     new_hook_patches = {}
     for hook_ref in orig_hook_patches:
         new_hook_patches[hook_ref] = {}
         for k in orig_hook_patches[hook_ref]:
             new_hook_patches[hook_ref][k] = orig_hook_patches[hook_ref][k][:]
-            if copy_tuples:
-                for i in range(len(new_hook_patches[hook_ref][k])):
-                    new_hook_patches[hook_ref][k][i] = tuple(new_hook_patches[hook_ref][k][i])
     return new_hook_patches
 
 def wipe_lowvram_weight(m):
@@ -276,10 +272,7 @@ class ModelPatcher:
         self.is_clip = False
         self.hook_mode = comfy.hooks.EnumHookMode.MaxSpeed
 
-        self.cached_patcher_init: tuple[Callable, tuple] | tuple[Callable, tuple, int] | None = None
-        self.is_multigpu_base_clone = False
-        self.clone_base_uuid = uuid.uuid4()
-
+        self.cached_patcher_init: tuple[Callable, tuple] | None = None
         if not hasattr(self.model, 'model_loaded_weight_memory'):
             self.model.model_loaded_weight_memory = 0
 
@@ -336,8 +329,6 @@ class ModelPatcher:
                 if self.cached_patcher_init is None:
                     raise RuntimeError("Cannot create non-dynamic delegate: cached_patcher_init is not initialized.")
                 temp_model_patcher = self.cached_patcher_init[0](*self.cached_patcher_init[1], disable_dynamic=True)
-                if len(self.cached_patcher_init) > 2:
-                    temp_model_patcher = temp_model_patcher[self.cached_patcher_init[2]]
                 model_override = temp_model_patcher.get_clone_model_override()
         if model_override is None:
             model_override = self.get_clone_model_override()
@@ -396,98 +387,19 @@ class ModelPatcher:
         n.hook_mode = self.hook_mode
 
         n.cached_patcher_init = self.cached_patcher_init
-        n.is_multigpu_base_clone = self.is_multigpu_base_clone
-        n.clone_base_uuid = self.clone_base_uuid
 
         for callback in self.get_all_callbacks(CallbacksMP.ON_CLONE):
             callback(self, n)
         return n
 
-    def deepclone_multigpu(self, new_load_device=None, models_cache: dict[uuid.UUID,ModelPatcher]=None):
-        logging.info(f"Creating deepclone of {self.model.__class__.__name__} for {new_load_device if new_load_device else self.load_device}.")
-        comfy.model_management.unload_model_and_clones(self)
-        n = self.clone()
-        # set load device, if present
-        if new_load_device is not None:
-            n.load_device = new_load_device
-        if self.cached_patcher_init is not None:
-            temp_model_patcher: ModelPatcher | list[ModelPatcher] = self.cached_patcher_init[0](*self.cached_patcher_init[1])
-            if len(self.cached_patcher_init) > 2:
-                temp_model_patcher = temp_model_patcher[self.cached_patcher_init[2]]
-            n.model = temp_model_patcher.model
-        else:
-            n.model = copy.deepcopy(n.model)
-        # unlike for normal clone, backup dicts that shared same ref should not;
-        # otherwise, patchers that have deep copies of base models will erroneously influence each other.
-        n.backup = copy.deepcopy(n.backup)
-        n.object_patches_backup = copy.deepcopy(n.object_patches_backup)
-        n.hook_backup = copy.deepcopy(n.hook_backup)
-        # multigpu clone should not have multigpu additional_models entry
-        n.remove_additional_models("multigpu")
-        # multigpu_clone all stored additional_models; make sure circular references are properly handled
-        if models_cache is None:
-            models_cache = {}
-        for key, model_list in n.additional_models.items():
-            for i in range(len(model_list)):
-                add_model = n.additional_models[key][i]
-                if add_model.clone_base_uuid not in models_cache:
-                    models_cache[add_model.clone_base_uuid] = add_model.deepclone_multigpu(new_load_device=new_load_device, models_cache=models_cache)
-                n.additional_models[key][i] = models_cache[add_model.clone_base_uuid]
-        for callback in self.get_all_callbacks(CallbacksMP.ON_DEEPCLONE_MULTIGPU):
-            callback(self, n)
-        return n
-
-    def match_multigpu_clones(self):
-        multigpu_models = self.get_additional_models_with_key("multigpu")
-        if len(multigpu_models) > 0:
-            new_multigpu_models = []
-            for mm in multigpu_models:
-                # clone main model, but bring over relevant props from existing multigpu clone
-                n = self.clone()
-                n.load_device = mm.load_device
-                n.backup = mm.backup
-                n.object_patches_backup = mm.object_patches_backup
-                n.hook_backup = mm.hook_backup
-                n.model = mm.model
-                n.is_multigpu_base_clone = mm.is_multigpu_base_clone
-                n.remove_additional_models("multigpu")
-                orig_additional_models: dict[str, list[ModelPatcher]] = comfy.patcher_extension.copy_nested_dicts(n.additional_models)
-                n.additional_models = comfy.patcher_extension.copy_nested_dicts(mm.additional_models)
-                # figure out which additional models are not present in multigpu clone
-                models_cache = {}
-                for mm_add_model in mm.get_additional_models():
-                    models_cache[mm_add_model.clone_base_uuid] = mm_add_model
-                remove_models_uuids = set(list(models_cache.keys()))
-                for key, model_list in orig_additional_models.items():
-                    for orig_add_model in model_list:
-                        if orig_add_model.clone_base_uuid not in models_cache:
-                            models_cache[orig_add_model.clone_base_uuid] = orig_add_model.deepclone_multigpu(new_load_device=n.load_device, models_cache=models_cache)
-                            existing_list = n.get_additional_models_with_key(key)
-                            existing_list.append(models_cache[orig_add_model.clone_base_uuid])
-                            n.set_additional_models(key, existing_list)
-                        if orig_add_model.clone_base_uuid in remove_models_uuids:
-                            remove_models_uuids.remove(orig_add_model.clone_base_uuid)
-                # remove duplicate additional models
-                for key, model_list in n.additional_models.items():
-                    new_model_list = [x for x in model_list if x.clone_base_uuid not in remove_models_uuids]
-                    n.set_additional_models(key, new_model_list)
-                for callback in self.get_all_callbacks(CallbacksMP.ON_MATCH_MULTIGPU_CLONES):
-                    callback(self, n)
-                new_multigpu_models.append(n)
-            self.set_additional_models("multigpu", new_multigpu_models)
-
     def is_clone(self, other):
         if hasattr(other, 'model') and self.model is other.model:
             return True
         return False
 
-    def clone_has_same_weights(self, clone: ModelPatcher, allow_multigpu=False):
-        if allow_multigpu:
-            if self.clone_base_uuid != clone.clone_base_uuid:
-                return False
-        else:
-            if not self.is_clone(clone):
-                return False
+    def clone_has_same_weights(self, clone: 'ModelPatcher'):
+        if not self.is_clone(clone):
+            return False
 
         if self.current_hooks != clone.current_hooks:
             return False
@@ -1258,7 +1170,7 @@ class ModelPatcher:
         return self.additional_models.get(key, [])
 
     def get_additional_models(self):
-        all_models: list[ModelPatcher] = []
+        all_models = []
         for models in self.additional_models.values():
             all_models.extend(models)
         return all_models
@@ -1312,13 +1224,9 @@ class ModelPatcher:
         for callback in self.get_all_callbacks(CallbacksMP.ON_PRE_RUN):
             callback(self)
 
-    def prepare_state(self, timestep, model_options, ignore_multigpu=False):
+    def prepare_state(self, timestep):
         for callback in self.get_all_callbacks(CallbacksMP.ON_PREPARE_STATE):
-            callback(self, timestep, model_options, ignore_multigpu)
-        if not ignore_multigpu and "multigpu_clones" in model_options:
-            for p in model_options["multigpu_clones"].values():
-                p: ModelPatcher
-                p.prepare_state(timestep, model_options, ignore_multigpu=True)
+            callback(self, timestep)
 
     def restore_hook_patches(self):
         if self.hook_patches_backup is not None:
@@ -1331,18 +1239,12 @@ class ModelPatcher:
     def prepare_hook_patches_current_keyframe(self, t: torch.Tensor, hook_group: comfy.hooks.HookGroup, model_options: dict[str]):
         curr_t = t[0]
         reset_current_hooks = False
-        multigpu_kf_changed_cache = None
         transformer_options = model_options.get("transformer_options", {})
         for hook in hook_group.hooks:
             changed = hook.hook_keyframe.prepare_current_keyframe(curr_t=curr_t, transformer_options=transformer_options)
             # if keyframe changed, remove any cached HookGroups that contain hook with the same hook_ref;
             # this will cause the weights to be recalculated when sampling
             if changed:
-                # cache changed for multigpu usage
-                if "multigpu_clones" in model_options:
-                    if multigpu_kf_changed_cache is None:
-                        multigpu_kf_changed_cache = []
-                    multigpu_kf_changed_cache.append(hook)
                 # reset current_hooks if contains hook that changed
                 if self.current_hooks is not None:
                     for current_hook in self.current_hooks.hooks:
@@ -1354,28 +1256,6 @@ class ModelPatcher:
                         self.cached_hook_patches.pop(cached_group)
         if reset_current_hooks:
             self.patch_hooks(None)
-        if "multigpu_clones" in model_options:
-            for p in model_options["multigpu_clones"].values():
-                p: ModelPatcher
-                p._handle_changed_hook_keyframes(multigpu_kf_changed_cache)
-
-    def _handle_changed_hook_keyframes(self, kf_changed_cache: list[comfy.hooks.Hook]):
-        'Used to handle multigpu behavior inside prepare_hook_patches_current_keyframe.'
-        if kf_changed_cache is None:
-            return
-        reset_current_hooks = False
-        # reset current_hooks if contains hook that changed
-        for hook in kf_changed_cache:
-            if self.current_hooks is not None:
-                for current_hook in self.current_hooks.hooks:
-                    if current_hook == hook:
-                        reset_current_hooks = True
-                        break
-            for cached_group in list(self.cached_hook_patches.keys()):
-                if cached_group.contains(hook):
-                    self.cached_hook_patches.pop(cached_group)
-        if reset_current_hooks:
-            self.patch_hooks(None)
 
     def register_all_hook_patches(self, hooks: comfy.hooks.HookGroup, target_dict: dict[str], model_options: dict=None,
                                   registered: comfy.hooks.HookGroup = None):

comfy/multigpu.py

@@ -1,167 +0,0 @@
-from __future__ import annotations
-import torch
-import logging
-
-from collections import namedtuple
-from typing import TYPE_CHECKING
-if TYPE_CHECKING:
-    from comfy.model_patcher import ModelPatcher
-import comfy.utils
-import comfy.patcher_extension
-import comfy.model_management
-
-
-class GPUOptions:
-    def __init__(self, device_index: int, relative_speed: float):
-        self.device_index = device_index
-        self.relative_speed = relative_speed
-
-    def clone(self):
-        return GPUOptions(self.device_index, self.relative_speed)
-
-    def create_dict(self):
-        return {
-            "relative_speed": self.relative_speed
-        }
-
-class GPUOptionsGroup:
-    def __init__(self):
-        self.options: dict[int, GPUOptions] = {}
-
-    def add(self, info: GPUOptions):
-        self.options[info.device_index] = info
-
-    def clone(self):
-        c = GPUOptionsGroup()
-        for opt in self.options.values():
-            c.add(opt)
-        return c
-
-    def register(self, model: ModelPatcher):
-        opts_dict = {}
-        # get devices that are valid for this model
-        devices: list[torch.device] = [model.load_device]
-        for extra_model in model.get_additional_models_with_key("multigpu"):
-            extra_model: ModelPatcher
-            devices.append(extra_model.load_device)
-        # create dictionary with actual device mapped to its GPUOptions
-        device_opts_list: list[GPUOptions] = []
-        for device in devices:
-            device_opts = self.options.get(device.index, GPUOptions(device_index=device.index, relative_speed=1.0))
-            opts_dict[device] = device_opts.create_dict()
-            device_opts_list.append(device_opts)
-        # make relative_speed relative to 1.0
-        min_speed = min([x.relative_speed for x in device_opts_list])
-        for value in opts_dict.values():
-            value['relative_speed'] /= min_speed
-        model.model_options['multigpu_options'] = opts_dict
-
-
-def create_multigpu_deepclones(model: ModelPatcher, max_gpus: int, gpu_options: GPUOptionsGroup=None, reuse_loaded=False):
-    'Prepare ModelPatcher to contain deepclones of its BaseModel and related properties.'
-    model = model.clone()
-    # check if multigpu is already prepared - get the load devices from them if possible to exclude
-    skip_devices = set()
-    multigpu_models = model.get_additional_models_with_key("multigpu")
-    if len(multigpu_models) > 0:
-        for mm in multigpu_models:
-            skip_devices.add(mm.load_device)
-    skip_devices = list(skip_devices)
-
-    full_extra_devices = comfy.model_management.get_all_torch_devices(exclude_current=True)
-    limit_extra_devices = full_extra_devices[:max_gpus-1]
-    extra_devices = limit_extra_devices.copy()
-    # exclude skipped devices
-    for skip in skip_devices:
-        if skip in extra_devices:
-            extra_devices.remove(skip)
-    # create new deepclones
-    if len(extra_devices) > 0:
-        for device in extra_devices:
-            device_patcher = None
-            if reuse_loaded:
-                # check if there are any ModelPatchers currently loaded that could be referenced here after a clone
-                loaded_models: list[ModelPatcher] = comfy.model_management.loaded_models()
-                for lm in loaded_models:
-                    if lm.model is not None and lm.clone_base_uuid == model.clone_base_uuid and lm.load_device == device:
-                        device_patcher = lm.clone()
-                        logging.info(f"Reusing loaded deepclone of {device_patcher.model.__class__.__name__} for {device}")
-                        break
-            if device_patcher is None:
-                device_patcher = model.deepclone_multigpu(new_load_device=device)
-                device_patcher.is_multigpu_base_clone = True
-            multigpu_models = model.get_additional_models_with_key("multigpu")
-            multigpu_models.append(device_patcher)
-            model.set_additional_models("multigpu", multigpu_models)
-        model.match_multigpu_clones()
-        if gpu_options is None:
-            gpu_options = GPUOptionsGroup()
-        gpu_options.register(model)
-    else:
-        logging.info("No extra torch devices need initialization, skipping initializing MultiGPU Work Units.")
-    # TODO: only keep model clones that don't go 'past' the intended max_gpu count
-    # multigpu_models = model.get_additional_models_with_key("multigpu")
-    # new_multigpu_models = []
-    # for m in multigpu_models:
-    #     if m.load_device in limit_extra_devices:
-    #         new_multigpu_models.append(m)
-    # model.set_additional_models("multigpu", new_multigpu_models)
-    # persist skip_devices for use in sampling code
-    # if len(skip_devices) > 0 or "multigpu_skip_devices" in model.model_options:
-    #     model.model_options["multigpu_skip_devices"] = skip_devices
-    return model
-
-
-LoadBalance = namedtuple('LoadBalance', ['work_per_device', 'idle_time'])
-def load_balance_devices(model_options: dict[str], total_work: int, return_idle_time=False, work_normalized: int=None):
-    'Optimize work assigned to different devices, accounting for their relative speeds and splittable work.'
-    opts_dict = model_options['multigpu_options']
-    devices = list(model_options['multigpu_clones'].keys())
-    speed_per_device = []
-    work_per_device = []
-    # get sum of each device's relative_speed
-    total_speed = 0.0
-    for opts in opts_dict.values():
-        total_speed += opts['relative_speed']
-    # get relative work for each device;
-    # obtained by w = (W*r)/R
-    for device in devices:
-        relative_speed = opts_dict[device]['relative_speed']
-        relative_work = (total_work*relative_speed) / total_speed
-        speed_per_device.append(relative_speed)
-        work_per_device.append(relative_work)
-    # relative work must be expressed in whole numbers, but likely is a decimal;
-    # perform rounding while maintaining total sum equal to total work (sum of relative works)
-    work_per_device = round_preserved(work_per_device)
-    dict_work_per_device = {}
-    for device, relative_work in zip(devices, work_per_device):
-        dict_work_per_device[device] = relative_work
-    if not return_idle_time:
-        return LoadBalance(dict_work_per_device, None)
-    # divide relative work by relative speed to get estimated completion time of said work by each device;
-    # time here is relative and does not correspond to real-world units
-    completion_time = [w/r for w,r in zip(work_per_device, speed_per_device)]
-    # calculate relative time spent by the devices waiting on each other after their work is completed
-    idle_time = abs(min(completion_time) - max(completion_time))
-    # if need to compare work idle time, need to normalize to a common total work
-    if work_normalized:
-        idle_time *= (work_normalized/total_work)
-
-    return LoadBalance(dict_work_per_device, idle_time)
-
-def round_preserved(values: list[float]):
-    'Round all values in a list, preserving the combined sum of values.'
-    # get floor of values; casting to int does it too
-    floored = [int(x) for x in values]
-    total_floored = sum(floored)
-    # get remainder to distribute
-    remainder = round(sum(values)) - total_floored
-    # pair values with fractional portions
-    fractional = [(i, x-floored[i]) for i, x in enumerate(values)]
-    # sort by fractional part in descending order
-    fractional.sort(key=lambda x: x[1], reverse=True)
-    # distribute the remainder
-    for i in range(remainder):
-        index = fractional[i][0]
-        floored[index] += 1
-    return floored

comfy/patcher_extension.py

@@ -3,8 +3,6 @@ from typing import Callable
 
 class CallbacksMP:
     ON_CLONE = "on_clone"
-    ON_DEEPCLONE_MULTIGPU = "on_deepclone_multigpu"
-    ON_MATCH_MULTIGPU_CLONES = "on_match_multigpu_clones"
     ON_LOAD = "on_load_after"
     ON_DETACH = "on_detach_after"
     ON_CLEANUP = "on_cleanup"

comfy/quant_ops.py

@@ -20,7 +20,7 @@ try:
         if cuda_version < (13,):
             ck.registry.disable("cuda")
             logging.warning("WARNING: You need pytorch with cu130 or higher to use optimized CUDA operations.")
-    ck.registry.disable("cuda") # multigpu will not work rn with comfy-kitchen on cuda backend
+
     ck.registry.disable("triton")
     for k, v in ck.list_backends().items():
         logging.info(f"Found comfy_kitchen backend {k}: {v}")

comfy/sampler_helpers.py

@@ -1,17 +1,16 @@
 from __future__ import annotations
-import torch
 import uuid
 import math
 import collections
 import comfy.model_management
 import comfy.conds
-import comfy.model_patcher
 import comfy.utils
 import comfy.hooks
 import comfy.patcher_extension
 from typing import TYPE_CHECKING
 if TYPE_CHECKING:
     from comfy.model_patcher import ModelPatcher
+    from comfy.model_base import BaseModel
     from comfy.controlnet import ControlBase
 
 def prepare_mask(noise_mask, shape, device):
@@ -119,47 +118,6 @@ def cleanup_additional_models(models):
         if hasattr(m, 'cleanup'):
             m.cleanup()
 
-def preprocess_multigpu_conds(conds: dict[str, list[dict[str]]], model: ModelPatcher, model_options: dict[str]):
-    '''If multigpu acceleration required, creates deepclones of ControlNets and GLIGEN per device.'''
-    multigpu_models: list[ModelPatcher] = model.get_additional_models_with_key("multigpu")
-    if len(multigpu_models) == 0:
-        return
-    extra_devices = [x.load_device for x in multigpu_models]
-    # handle controlnets
-    controlnets: set[ControlBase] = set()
-    for k in conds:
-        for kk in conds[k]:
-            if 'control' in kk:
-                controlnets.add(kk['control'])
-    if len(controlnets) > 0:
-        # first, unload all controlnet clones
-        for cnet in list(controlnets):
-            cnet_models = cnet.get_models()
-            for cm in cnet_models:
-                comfy.model_management.unload_model_and_clones(cm, unload_additional_models=True)
-
-        # next, make sure each controlnet has a deepclone for all relevant devices
-        for cnet in controlnets:
-            curr_cnet = cnet
-            while curr_cnet is not None:
-                for device in extra_devices:
-                    if device not in curr_cnet.multigpu_clones:
-                        curr_cnet.deepclone_multigpu(device, autoregister=True)
-                curr_cnet = curr_cnet.previous_controlnet
-        # since all device clones are now present, recreate the linked list for cloned cnets per device
-        for cnet in controlnets:
-            curr_cnet = cnet
-            while curr_cnet is not None:
-                prev_cnet = curr_cnet.previous_controlnet
-                for device in extra_devices:
-                    device_cnet = curr_cnet.get_instance_for_device(device)
-                    prev_device_cnet = None
-                    if prev_cnet is not None:
-                        prev_device_cnet = prev_cnet.get_instance_for_device(device)
-                    device_cnet.set_previous_controlnet(prev_device_cnet)
-                curr_cnet = prev_cnet
-    # potentially handle gligen - since not widely used, ignored for now
-
 def estimate_memory(model, noise_shape, conds):
     cond_shapes = collections.defaultdict(list)
     cond_shapes_min = {}
@@ -184,8 +142,7 @@ def prepare_sampling(model: ModelPatcher, noise_shape, conds, model_options=None
     return executor.execute(model, noise_shape, conds, model_options=model_options, force_full_load=force_full_load, force_offload=force_offload)
 
 def _prepare_sampling(model: ModelPatcher, noise_shape, conds, model_options=None, force_full_load=False, force_offload=False):
-    model.match_multigpu_clones()
-    preprocess_multigpu_conds(conds, model, model_options)
+    real_model: BaseModel = None
     models, inference_memory = get_additional_models(conds, model.model_dtype())
     models += get_additional_models_from_model_options(model_options)
     models += model.get_nested_additional_models()  # TODO: does this require inference_memory update?
@@ -197,7 +154,7 @@ def _prepare_sampling(model: ModelPatcher, noise_shape, conds, model_options=Non
         memory_required += inference_memory
         minimum_memory_required += inference_memory
     comfy.model_management.load_models_gpu([model] + models, memory_required=memory_required, minimum_memory_required=minimum_memory_required, force_full_load=force_full_load)
-    real_model: BaseModel = model.model
+    real_model = model.model
 
     return real_model, conds, models
 
@@ -243,18 +200,3 @@ def prepare_model_patcher(model: ModelPatcher, conds, model_options: dict):
         comfy.patcher_extension.merge_nested_dicts(to_load_options.setdefault(wc_name, {}), model_options["transformer_options"][wc_name],
                                                     copy_dict1=False)
     return to_load_options
-
-def prepare_model_patcher_multigpu_clones(model_patcher: ModelPatcher, loaded_models: list[ModelPatcher], model_options: dict):
-    '''
-    In case multigpu acceleration is enabled, prep ModelPatchers for each device.
-    '''
-    multigpu_patchers: list[ModelPatcher] = [x for x in loaded_models if x.is_multigpu_base_clone]
-    if len(multigpu_patchers) > 0:
-        multigpu_dict: dict[torch.device, ModelPatcher] = {}
-        multigpu_dict[model_patcher.load_device] = model_patcher
-        for x in multigpu_patchers:
-            x.hook_patches = comfy.model_patcher.create_hook_patches_clone(model_patcher.hook_patches, copy_tuples=True)
-            x.hook_mode = model_patcher.hook_mode # match main model's hook_mode
-            multigpu_dict[x.load_device] = x
-        model_options["multigpu_clones"] = multigpu_dict
-    return multigpu_patchers

comfy/samplers.py

@@ -1,9 +1,7 @@
 from __future__ import annotations
-
-import comfy.model_management
 from .k_diffusion import sampling as k_diffusion_sampling
 from .extra_samplers import uni_pc
-from typing import TYPE_CHECKING, Callable, NamedTuple, Any
+from typing import TYPE_CHECKING, Callable, NamedTuple
 if TYPE_CHECKING:
     from comfy.model_patcher import ModelPatcher
     from comfy.model_base import BaseModel
@@ -21,7 +19,6 @@ import comfy.context_windows
 import comfy.utils
 import scipy.stats
 import numpy
-import threading
 
 
 def add_area_dims(area, num_dims):
@@ -144,7 +141,7 @@ def can_concat_cond(c1, c2):
 
     return cond_equal_size(c1.conditioning, c2.conditioning)
 
-def cond_cat(c_list, device=None):
+def cond_cat(c_list):
     temp = {}
     for x in c_list:
         for k in x:
@@ -156,8 +153,6 @@ def cond_cat(c_list, device=None):
     for k in temp:
         conds = temp[k]
         out[k] = conds[0].concat(conds[1:])
-        if device is not None and hasattr(out[k], 'to'):
-            out[k] = out[k].to(device)
 
     return out
 
@@ -217,9 +212,7 @@ def _calc_cond_batch_outer(model: BaseModel, conds: list[list[dict]], x_in: torc
     )
     return executor.execute(model, conds, x_in, timestep, model_options)
 
-def _calc_cond_batch(model: BaseModel, conds: list[list[dict]], x_in: torch.Tensor, timestep: torch.Tensor, model_options: dict[str]):
-    if 'multigpu_clones' in model_options:
-        return _calc_cond_batch_multigpu(model, conds, x_in, timestep, model_options)
+def _calc_cond_batch(model: BaseModel, conds: list[list[dict]], x_in: torch.Tensor, timestep, model_options):
     out_conds = []
     out_counts = []
     # separate conds by matching hooks
@@ -251,7 +244,7 @@ def _calc_cond_batch(model: BaseModel, conds: list[list[dict]], x_in: torch.Tens
     if has_default_conds:
         finalize_default_conds(model, hooked_to_run, default_conds, x_in, timestep, model_options)
 
-    model.current_patcher.prepare_state(timestep, model_options)
+    model.current_patcher.prepare_state(timestep)
 
     # run every hooked_to_run separately
     for hooks, to_run in hooked_to_run.items():
@@ -352,196 +345,6 @@ def _calc_cond_batch(model: BaseModel, conds: list[list[dict]], x_in: torch.Tens
 
     return out_conds
 
-def _calc_cond_batch_multigpu(model: BaseModel, conds: list[list[dict]], x_in: torch.Tensor, timestep: torch.Tensor, model_options: dict[str]):
-    out_conds = []
-    out_counts = []
-    # separate conds by matching hooks
-    hooked_to_run: dict[comfy.hooks.HookGroup,list[tuple[tuple,int]]] = {}
-    default_conds = []
-    has_default_conds = False
-
-    output_device = x_in.device
-
-    for i in range(len(conds)):
-        out_conds.append(torch.zeros_like(x_in))
-        out_counts.append(torch.ones_like(x_in) * 1e-37)
-
-        cond = conds[i]
-        default_c = []
-        if cond is not None:
-            for x in cond:
-                if 'default' in x:
-                    default_c.append(x)
-                    has_default_conds = True
-                    continue
-                p = get_area_and_mult(x, x_in, timestep)
-                if p is None:
-                    continue
-                if p.hooks is not None:
-                    model.current_patcher.prepare_hook_patches_current_keyframe(timestep, p.hooks, model_options)
-                hooked_to_run.setdefault(p.hooks, list())
-                hooked_to_run[p.hooks] += [(p, i)]
-        default_conds.append(default_c)
-
-    if has_default_conds:
-        finalize_default_conds(model, hooked_to_run, default_conds, x_in, timestep, model_options)
-
-    model.current_patcher.prepare_state(timestep, model_options)
-
-    devices = [dev_m for dev_m in model_options['multigpu_clones'].keys()]
-    device_batched_hooked_to_run: dict[torch.device, list[tuple[comfy.hooks.HookGroup, tuple]]] = {}
-
-    total_conds = 0
-    for to_run in hooked_to_run.values():
-        total_conds += len(to_run)
-    conds_per_device = max(1, math.ceil(total_conds//len(devices)))
-    index_device = 0
-    current_device = devices[index_device]
-    # run every hooked_to_run separately
-    for hooks, to_run in hooked_to_run.items():
-        while len(to_run) > 0:
-            current_device = devices[index_device % len(devices)]
-            batched_to_run = device_batched_hooked_to_run.setdefault(current_device, [])
-            # keep track of conds currently scheduled onto this device
-            batched_to_run_length = 0
-            for btr in batched_to_run:
-                batched_to_run_length += len(btr[1])
-
-            first = to_run[0]
-            first_shape = first[0][0].shape
-            to_batch_temp = []
-            # make sure not over conds_per_device limit when creating temp batch
-            for x in range(len(to_run)):
-                if can_concat_cond(to_run[x][0], first[0]) and len(to_batch_temp) < (conds_per_device - batched_to_run_length):
-                    to_batch_temp += [x]
-
-            to_batch_temp.reverse()
-            to_batch = to_batch_temp[:1]
-
-            free_memory = comfy.model_management.get_free_memory(current_device)
-            for i in range(1, len(to_batch_temp) + 1):
-                batch_amount = to_batch_temp[:len(to_batch_temp)//i]
-                input_shape = [len(batch_amount) * first_shape[0]] + list(first_shape)[1:]
-                if model.memory_required(input_shape) * 1.5 < free_memory:
-                    to_batch = batch_amount
-                    break
-            conds_to_batch = []
-            for x in to_batch:
-                conds_to_batch.append(to_run.pop(x))
-            batched_to_run_length += len(conds_to_batch)
-
-            batched_to_run.append((hooks, conds_to_batch))
-            if batched_to_run_length >= conds_per_device:
-                index_device += 1
-
-    class thread_result(NamedTuple):
-        output: Any
-        mult: Any
-        area: Any
-        batch_chunks: int
-        cond_or_uncond: Any
-        error: Exception = None
-
-    def _handle_batch(device: torch.device, batch_tuple: tuple[comfy.hooks.HookGroup, tuple], results: list[thread_result]):
-        try:
-            model_current: BaseModel = model_options["multigpu_clones"][device].model
-            # run every hooked_to_run separately
-            with torch.no_grad():
-                for hooks, to_batch in batch_tuple:
-                    input_x = []
-                    mult = []
-                    c = []
-                    cond_or_uncond = []
-                    uuids = []
-                    area = []
-                    control: ControlBase = None
-                    patches = None
-                    for x in to_batch:
-                        o = x
-                        p = o[0]
-                        input_x.append(p.input_x)
-                        mult.append(p.mult)
-                        c.append(p.conditioning)
-                        area.append(p.area)
-                        cond_or_uncond.append(o[1])
-                        uuids.append(p.uuid)
-                        control = p.control
-                        patches = p.patches
-
-                    batch_chunks = len(cond_or_uncond)
-                    input_x = torch.cat(input_x).to(device)
-                    c = cond_cat(c, device=device)
-                    timestep_ = torch.cat([timestep.to(device)] * batch_chunks)
-
-                    transformer_options = model_current.current_patcher.apply_hooks(hooks=hooks)
-                    if 'transformer_options' in model_options:
-                        transformer_options = comfy.patcher_extension.merge_nested_dicts(transformer_options,
-                                                                                        model_options['transformer_options'],
-                                                                                        copy_dict1=False)
-
-                    if patches is not None:
-                        transformer_options["patches"] = comfy.patcher_extension.merge_nested_dicts(
-                            transformer_options.get("patches", {}),
-                            patches
-                        )
-
-                    transformer_options["cond_or_uncond"] = cond_or_uncond[:]
-                    transformer_options["uuids"] = uuids[:]
-                    transformer_options["sigmas"] = timestep.to(device)
-                    transformer_options["sample_sigmas"] = transformer_options["sample_sigmas"].to(device)
-                    transformer_options["multigpu_thread_device"] = device
-
-                    cast_transformer_options(transformer_options, device=device)
-                    c['transformer_options'] = transformer_options
-
-                    if control is not None:
-                        device_control = control.get_instance_for_device(device)
-                        c['control'] = device_control.get_control(input_x, timestep_, c, len(cond_or_uncond), transformer_options)
-
-                    if 'model_function_wrapper' in model_options:
-                        output = model_options['model_function_wrapper'](model_current.apply_model, {"input": input_x, "timestep": timestep_, "c": c, "cond_or_uncond": cond_or_uncond}).to(output_device).chunk(batch_chunks)
-                    else:
-                        output = model_current.apply_model(input_x, timestep_, **c).to(output_device).chunk(batch_chunks)
-                    results.append(thread_result(output, mult, area, batch_chunks, cond_or_uncond))
-        except Exception as e:
-            results.append(thread_result(None, None, None, None, None, error=e))
-            raise
-
-
-    results: list[thread_result] = []
-    threads: list[threading.Thread] = []
-    for device, batch_tuple in device_batched_hooked_to_run.items():
-        new_thread = threading.Thread(target=_handle_batch, args=(device, batch_tuple, results))
-        threads.append(new_thread)
-        new_thread.start()
-
-    for thread in threads:
-        thread.join()
-
-    for output, mult, area, batch_chunks, cond_or_uncond, error in results:
-        if error is not None:
-            raise error
-        for o in range(batch_chunks):
-            cond_index = cond_or_uncond[o]
-            a = area[o]
-            if a is None:
-                out_conds[cond_index] += output[o] * mult[o]
-                out_counts[cond_index] += mult[o]
-            else:
-                out_c = out_conds[cond_index]
-                out_cts = out_counts[cond_index]
-                dims = len(a) // 2
-                for i in range(dims):
-                    out_c = out_c.narrow(i + 2, a[i + dims], a[i])
-                    out_cts = out_cts.narrow(i + 2, a[i + dims], a[i])
-                out_c += output[o] * mult[o]
-                out_cts += mult[o]
-
-    for i in range(len(out_conds)):
-        out_conds[i] /= out_counts[i]
-
-    return out_conds
-
 def calc_cond_uncond_batch(model, cond, uncond, x_in, timestep, model_options): #TODO: remove
     logging.warning("WARNING: The comfy.samplers.calc_cond_uncond_batch function is deprecated please use the calc_cond_batch one instead.")
     return tuple(calc_cond_batch(model, [cond, uncond], x_in, timestep, model_options))
@@ -846,8 +649,6 @@ def pre_run_control(model, conds):
         percent_to_timestep_function = lambda a: s.percent_to_sigma(a)
         if 'control' in x:
             x['control'].pre_run(model, percent_to_timestep_function)
-            for device_cnet in x['control'].multigpu_clones.values():
-                device_cnet.pre_run(model, percent_to_timestep_function)
 
 def apply_empty_x_to_equal_area(conds, uncond, name, uncond_fill_func):
     cond_cnets = []
@@ -1090,9 +891,7 @@ def cast_to_load_options(model_options: dict[str], device=None, dtype=None):
     to_load_options = model_options.get("to_load_options", None)
     if to_load_options is None:
         return
-    cast_transformer_options(to_load_options, device, dtype)
 
-def cast_transformer_options(transformer_options: dict[str], device=None, dtype=None):
     casts = []
     if device is not None:
         casts.append(device)
@@ -1101,17 +900,18 @@ def cast_transformer_options(transformer_options: dict[str], device=None, dtype=
     # if nothing to apply, do nothing
     if len(casts) == 0:
         return
+
     # try to call .to on patches
-    if "patches" in transformer_options:
-        patches = transformer_options["patches"]
+    if "patches" in to_load_options:
+        patches = to_load_options["patches"]
         for name in patches:
             patch_list = patches[name]
             for i in range(len(patch_list)):
                 if hasattr(patch_list[i], "to"):
                     for cast in casts:
                         patch_list[i] = patch_list[i].to(cast)
-    if "patches_replace" in transformer_options:
-        patches = transformer_options["patches_replace"]
+    if "patches_replace" in to_load_options:
+        patches = to_load_options["patches_replace"]
         for name in patches:
             patch_list = patches[name]
             for k in patch_list:
@@ -1121,8 +921,8 @@ def cast_transformer_options(transformer_options: dict[str], device=None, dtype=
     # try to call .to on any wrappers/callbacks
     wrappers_and_callbacks = ["wrappers", "callbacks"]
     for wc_name in wrappers_and_callbacks:
-        if wc_name in transformer_options:
-            wc: dict[str, list] = transformer_options[wc_name]
+        if wc_name in to_load_options:
+            wc: dict[str, list] = to_load_options[wc_name]
             for wc_dict in wc.values():
                 for wc_list in wc_dict.values():
                     for i in range(len(wc_list)):
@@ -1130,6 +930,7 @@ def cast_transformer_options(transformer_options: dict[str], device=None, dtype=
                             for cast in casts:
                                 wc_list[i] = wc_list[i].to(cast)
 
+
 class CFGGuider:
     def __init__(self, model_patcher: ModelPatcher):
         self.model_patcher = model_patcher
@@ -1184,8 +985,6 @@ class CFGGuider:
         self.inner_model, self.conds, self.loaded_models = comfy.sampler_helpers.prepare_sampling(self.model_patcher, noise.shape, self.conds, self.model_options)
         device = self.model_patcher.load_device
 
-        multigpu_patchers = comfy.sampler_helpers.prepare_model_patcher_multigpu_clones(self.model_patcher, self.loaded_models, self.model_options)
-
         noise = noise.to(device)
         latent_image = latent_image.to(device)
         sigmas = sigmas.to(device)
@@ -1193,13 +992,9 @@ class CFGGuider:
 
         try:
             self.model_patcher.pre_run()
-            for multigpu_patcher in multigpu_patchers:
-                multigpu_patcher.pre_run()
             output = self.inner_sample(noise, latent_image, device, sampler, sigmas, denoise_mask, callback, disable_pbar, seed, latent_shapes=latent_shapes)
         finally:
             self.model_patcher.cleanup()
-            for multigpu_patcher in multigpu_patchers:
-                multigpu_patcher.cleanup()
 
         comfy.sampler_helpers.cleanup_models(self.conds, self.loaded_models)
         del self.inner_model

comfy/sd.py

@@ -1554,7 +1554,10 @@ def load_checkpoint_guess_config(ckpt_path, output_vae=True, output_clip=True, o
     out = load_state_dict_guess_config(sd, output_vae, output_clip, output_clipvision, embedding_directory, output_model, model_options, te_model_options=te_model_options, metadata=metadata, disable_dynamic=disable_dynamic)
     if out is None:
         raise RuntimeError("ERROR: Could not detect model type of: {}\n{}".format(ckpt_path, model_detection_error_hint(ckpt_path, sd)))
-    out[0].cached_patcher_init = (load_checkpoint_guess_config, (ckpt_path, False, False, False, embedding_directory, output_model, model_options, te_model_options), 0)
+    if output_model and out[0] is not None:
+        out[0].cached_patcher_init = (load_checkpoint_guess_config_model_only, (ckpt_path, embedding_directory, model_options, te_model_options))
+    if output_clip and out[1] is not None:
+        out[1].patcher.cached_patcher_init = (load_checkpoint_guess_config_clip_only, (ckpt_path, embedding_directory, model_options, te_model_options))
     return out
 
 def load_checkpoint_guess_config_model_only(ckpt_path, embedding_directory=None, model_options={}, te_model_options={}, disable_dynamic=False):

comfy_extras/nodes_multigpu.py

@@ -1,86 +0,0 @@
-from __future__ import annotations
-from inspect import cleandoc
-
-from typing import TYPE_CHECKING
-if TYPE_CHECKING:
-    from comfy.model_patcher import ModelPatcher
-import comfy.multigpu
-
-
-class MultiGPUWorkUnitsNode:
-    """
-    Prepares model to have sampling accelerated via splitting work units.
-
-    Should be placed after nodes that modify the model object itself, such as compile or attention-switch nodes.
-
-    Other than those exceptions, this node can be placed in any order.
-    """
-
-    NodeId = "MultiGPU_WorkUnits"
-    NodeName = "MultiGPU Work Units"
-    @classmethod
-    def INPUT_TYPES(cls):
-        return {
-            "required": {
-                "model": ("MODEL",),
-                "max_gpus" : ("INT", {"default": 8, "min": 1, "step": 1}),
-            },
-            "optional": {
-                "gpu_options": ("GPU_OPTIONS",)
-            }
-        }
-
-    RETURN_TYPES = ("MODEL",)
-    FUNCTION = "init_multigpu"
-    CATEGORY = "advanced/multigpu"
-    DESCRIPTION = cleandoc(__doc__)
-
-    def init_multigpu(self, model: ModelPatcher, max_gpus: int, gpu_options: comfy.multigpu.GPUOptionsGroup=None):
-        model = comfy.multigpu.create_multigpu_deepclones(model, max_gpus, gpu_options, reuse_loaded=True)
-        return (model,)
-
-class MultiGPUOptionsNode:
-    """
-    Select the relative speed of GPUs in the special case they have significantly different performance from one another.
-    """
-
-    NodeId = "MultiGPU_Options"
-    NodeName = "MultiGPU Options"
-    @classmethod
-    def INPUT_TYPES(cls):
-        return {
-            "required": {
-                "device_index": ("INT", {"default": 0, "min": 0, "max": 64}),
-                "relative_speed": ("FLOAT", {"default": 1.0, "min": 0.0, "step": 0.01})
-            },
-            "optional": {
-                "gpu_options": ("GPU_OPTIONS",)
-            }
-        }
-
-    RETURN_TYPES = ("GPU_OPTIONS",)
-    FUNCTION = "create_gpu_options"
-    CATEGORY = "advanced/multigpu"
-    DESCRIPTION = cleandoc(__doc__)
-
-    def create_gpu_options(self, device_index: int, relative_speed: float, gpu_options: comfy.multigpu.GPUOptionsGroup=None):
-        if not gpu_options:
-            gpu_options = comfy.multigpu.GPUOptionsGroup()
-        gpu_options.clone()
-
-        opt = comfy.multigpu.GPUOptions(device_index=device_index, relative_speed=relative_speed)
-        gpu_options.add(opt)
-
-        return (gpu_options,)
-
-
-node_list = [
-    MultiGPUWorkUnitsNode,
-    MultiGPUOptionsNode
-]
-NODE_CLASS_MAPPINGS = {}
-NODE_DISPLAY_NAME_MAPPINGS = {}
-
-for node in node_list:
-    NODE_CLASS_MAPPINGS[node.NodeId] = node
-    NODE_DISPLAY_NAME_MAPPINGS[node.NodeId] = node.NodeName

comfy_extras/nodes_number_convert.py

@@ -0,0 +1,79 @@
+"""Number Convert node for unified numeric type conversion.
+
+Provides a single node that converts INT, FLOAT, STRING, and BOOL
+inputs into FLOAT and INT outputs.
+"""
+
+from __future__ import annotations
+
+import math
+
+from typing_extensions import override
+
+from comfy_api.latest import ComfyExtension, io
+
+
+class NumberConvertNode(io.ComfyNode):
+    """Converts various types to numeric FLOAT and INT outputs."""
+
+    @classmethod
+    def define_schema(cls) -> io.Schema:
+        return io.Schema(
+            node_id="ComfyNumberConvert",
+            display_name="Number Convert",
+            category="math",
+            search_aliases=[
+                "int to float", "float to int", "number convert",
+                "int2float", "float2int", "cast", "parse number",
+                "string to number", "bool to int",
+            ],
+            inputs=[
+                io.MultiType.Input(
+                    "value",
+                    [io.Int, io.Float, io.String, io.Boolean],
+                    display_name="value",
+                ),
+            ],
+            outputs=[
+                io.Float.Output(display_name="FLOAT"),
+                io.Int.Output(display_name="INT"),
+            ],
+        )
+
+    @classmethod
+    def execute(cls, value) -> io.NodeOutput:
+        if isinstance(value, bool):
+            float_val = 1.0 if value else 0.0
+        elif isinstance(value, (int, float)):
+            float_val = float(value)
+        elif isinstance(value, str):
+            text = value.strip()
+            if not text:
+                raise ValueError("Cannot convert empty string to number.")
+            try:
+                float_val = float(text)
+            except ValueError:
+                raise ValueError(
+                    f"Cannot convert string to number: {value!r}"
+                ) from None
+        else:
+            raise TypeError(
+                f"Unsupported input type: {type(value).__name__}"
+            )
+
+        if not math.isfinite(float_val):
+            raise ValueError(
+                f"Cannot convert non-finite value to number: {float_val}"
+            )
+
+        return io.NodeOutput(float_val, int(float_val))
+
+
+class NumberConvertExtension(ComfyExtension):
+    @override
+    async def get_node_list(self) -> list[type[io.ComfyNode]]:
+        return [NumberConvertNode]
+
+
+async def comfy_entrypoint() -> NumberConvertExtension:
+    return NumberConvertExtension()

nodes.py

@@ -2410,7 +2410,6 @@ async def init_builtin_extra_nodes():
         "nodes_lt_audio.py",
         "nodes_lt.py",
         "nodes_hooks.py",
-        "nodes_multigpu.py",
         "nodes_load_3d.py",
         "nodes_cosmos.py",
         "nodes_video.py",
@@ -2453,6 +2452,7 @@ async def init_builtin_extra_nodes():
         "nodes_nag.py",
         "nodes_sdpose.py",
         "nodes_math.py",
+        "nodes_number_convert.py",
         "nodes_painter.py",
     ]
 

tests-unit/comfy_extras_test/nodes_number_convert_test.py

@@ -0,0 +1,123 @@
+import pytest
+from unittest.mock import patch, MagicMock
+
+mock_nodes = MagicMock()
+mock_nodes.MAX_RESOLUTION = 16384
+mock_server = MagicMock()
+
+with patch.dict("sys.modules", {"nodes": mock_nodes, "server": mock_server}):
+    from comfy_extras.nodes_number_convert import NumberConvertNode
+
+
+class TestNumberConvertExecute:
+    @staticmethod
+    def _exec(value) -> object:
+        return NumberConvertNode.execute(value)
+
+    # --- INT input ---
+
+    def test_int_input(self):
+        result = self._exec(42)
+        assert result[0] == 42.0
+        assert result[1] == 42
+
+    def test_int_zero(self):
+        result = self._exec(0)
+        assert result[0] == 0.0
+        assert result[1] == 0
+
+    def test_int_negative(self):
+        result = self._exec(-7)
+        assert result[0] == -7.0
+        assert result[1] == -7
+
+    # --- FLOAT input ---
+
+    def test_float_input(self):
+        result = self._exec(3.14)
+        assert result[0] == 3.14
+        assert result[1] == 3
+
+    def test_float_truncation_toward_zero(self):
+        result = self._exec(-2.9)
+        assert result[0] == -2.9
+        assert result[1] == -2  # int() truncates toward zero, not floor
+
+    def test_float_output_type(self):
+        result = self._exec(5)
+        assert isinstance(result[0], float)
+
+    def test_int_output_type(self):
+        result = self._exec(5.7)
+        assert isinstance(result[1], int)
+
+    # --- BOOL input ---
+
+    def test_bool_true(self):
+        result = self._exec(True)
+        assert result[0] == 1.0
+        assert result[1] == 1
+
+    def test_bool_false(self):
+        result = self._exec(False)
+        assert result[0] == 0.0
+        assert result[1] == 0
+
+    # --- STRING input ---
+
+    def test_string_integer(self):
+        result = self._exec("42")
+        assert result[0] == 42.0
+        assert result[1] == 42
+
+    def test_string_float(self):
+        result = self._exec("3.14")
+        assert result[0] == 3.14
+        assert result[1] == 3
+
+    def test_string_negative(self):
+        result = self._exec("-5.5")
+        assert result[0] == -5.5
+        assert result[1] == -5
+
+    def test_string_with_whitespace(self):
+        result = self._exec("  7.0  ")
+        assert result[0] == 7.0
+        assert result[1] == 7
+
+    def test_string_scientific_notation(self):
+        result = self._exec("1e3")
+        assert result[0] == 1000.0
+        assert result[1] == 1000
+
+    # --- STRING error paths ---
+
+    def test_empty_string_raises(self):
+        with pytest.raises(ValueError, match="Cannot convert empty string"):
+            self._exec("")
+
+    def test_whitespace_only_string_raises(self):
+        with pytest.raises(ValueError, match="Cannot convert empty string"):
+            self._exec("   ")
+
+    def test_non_numeric_string_raises(self):
+        with pytest.raises(ValueError, match="Cannot convert string to number"):
+            self._exec("abc")
+
+    def test_string_inf_raises(self):
+        with pytest.raises(ValueError, match="non-finite"):
+            self._exec("inf")
+
+    def test_string_nan_raises(self):
+        with pytest.raises(ValueError, match="non-finite"):
+            self._exec("nan")
+
+    def test_string_negative_inf_raises(self):
+        with pytest.raises(ValueError, match="non-finite"):
+            self._exec("-inf")
+
+    # --- Unsupported type ---
+
+    def test_unsupported_type_raises(self):
+        with pytest.raises(TypeError, match="Unsupported input type"):
+            self._exec([1, 2, 3])