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hf_text-generation-inference/server/text_generation_server/utils/gptq/exllama.py

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import torch
from exllama_kernels import make_q4, q4_matmul, prepare_buffers, set_tuning_params
# Dummy tensor to pass instead of g_idx since there is no way to pass "None" to a C++ extension
none_tensor = torch.empty((1, 1), device="meta")
def ext_make_q4(qweight, qzeros, scales, g_idx, device):
"""Construct Q4Matrix, return handle"""
return make_q4(
qweight, qzeros, scales, g_idx if g_idx is not None else none_tensor, device
)
def ext_q4_matmul(x, q4, q4_width):
"""Matrix multiplication, returns x @ q4"""
outshape = x.shape[:-1] + (q4_width,)
x = x.view(-1, x.shape[-1])
output = torch.empty((x.shape[0], q4_width), dtype=torch.float16, device=x.device)
q4_matmul(x, q4, output)
return output.view(outshape)
MAX_DQ = 1
MAX_INNER = 1
ACT_ORDER = False
DEVICE = None
TEMP_STATE = None
TEMP_DQ = None
def set_device(device):
global DEVICE
DEVICE = device
def create_exllama_buffers():
global MAX_DQ, MAX_INNER, ACT_ORDER, DEVICE, TEMP_STATE, TEMP_DQ
assert DEVICE is not None, "call set_device first"
if ACT_ORDER:
# TODO: this should be set to rust side `max_total_tokens`, but TGI
# does not offer an API to expose this variable to python, as this variable
# is handled by the client but it appears the model is initialized by the server.
# An alternative could be to initialize the buffers during warmup.
# Dummy
max_total_tokens = 2048
else:
max_total_tokens = 1
# This temp_state buffer is required to reorder X in the act-order case.
temp_state = torch.zeros(
(max_total_tokens, MAX_INNER), dtype=torch.float16, device=DEVICE
)
temp_dq = torch.zeros((1, MAX_DQ), dtype=torch.float16, device=DEVICE)
# This temp_dq buffer is required to dequantize weights when using cuBLAS, typically for the prefill.
prepare_buffers(DEVICE, temp_state, temp_dq)
matmul_recons_thd = 8
matmul_fused_remap = False
matmul_no_half2 = False
set_tuning_params(matmul_recons_thd, matmul_fused_remap, matmul_no_half2)
TEMP_STATE, TEMP_DQ = temp_state, temp_dq
class Ex4bitLinear:
"""Linear layer implementation with per-group 4-bit quantization of the weights"""
def __init__(self, qweight, qzeros, scales, g_idx, bias, bits, groupsize):
global MAX_DQ, MAX_INNER, ACT_ORDER, DEVICE
assert bits == 4
self.device = qweight.device
self.qweight = qweight
self.qzeros = qzeros
self.scales = scales
self.g_idx = g_idx.cpu() if g_idx is not None else None
self.bias = bias if bias is not None else None
if self.g_idx is not None and (
(self.g_idx == 0).all()
or torch.equal(
g_idx.cpu(),
torch.tensor(
[i // groupsize for i in range(g_idx.shape[0])], dtype=torch.int32
),
)
):
self.empty_g_idx = True
self.g_idx = None
assert self.device.type == "cuda"
assert self.device.index is not None
self.q4 = ext_make_q4(
self.qweight, self.qzeros, self.scales, self.g_idx, self.device.index
)
self.height = qweight.shape[0] * 8
self.width = qweight.shape[1]
# Infer groupsize from height of qzeros
self.groupsize = None
if self.qzeros.shape[0] > 1:
self.groupsize = (self.qweight.shape[0] * 8) // (self.qzeros.shape[0])
if self.groupsize is not None:
assert groupsize == self.groupsize
# Handle act-order matrix
if self.g_idx is not None:
if self.groupsize is None:
raise ValueError("Found group index but no groupsize. What do?")
self.act_order = True
else:
self.act_order = False
DEVICE = self.qweight.device
MAX_DQ = max(MAX_DQ, self.qweight.numel() * 8)
if self.act_order:
MAX_INNER = max(MAX_INNER, self.height, self.width)
ACT_ORDER = True
def forward(self, x):
out = ext_q4_matmul(x, self.q4, self.width)
if self.bias is not None:
out.add_(self.bias)
return out
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