Sync from v0.13

tests/kernels/quantization/nvfp4_utils.py

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+# SPDX-License-Identifier: Apache-2.0
+# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
+import torch
+
+from vllm._custom_ops import scaled_fp4_quant
+from vllm.scalar_type import scalar_types
+
+FLOAT4_E2M1_MAX = scalar_types.float4_e2m1f.max()
+FLOAT8_E4M3_MAX = torch.finfo(torch.float8_e4m3fn).max
+
+kE2M1ToFloat = torch.tensor(
+    [0.0, 0.5, 1.0, 1.5, 2.0, 3.0, 4.0, 6.0], dtype=torch.float32
+)
+
+
+def convert_swizzled_to_linear(a_sf_swizzled: torch.Tensor, m, k, block_size):
+    m_tiles = (m + 128 - 1) // 128
+    f = block_size * 4
+    k_tiles = (k + f - 1) // f
+    tmp = torch.reshape(a_sf_swizzled, (1, m_tiles, k_tiles, 32, 4, 4))
+    tmp = torch.permute(tmp, (0, 1, 4, 3, 2, 5))
+    out = tmp.reshape(m_tiles * 128, k_tiles * f // block_size)
+    return out[0:m, 0:k]
+
+
+def dequantize_nvfp4_to_dtype(
+    tensor_fp4, tensor_sf, global_scale, dtype, device, block_size=16
+):
+    """Dequantize the fp4 tensor back to high precision."""
+    # Two fp4 values are packed into one uint8.
+    assert tensor_fp4.dtype == torch.uint8
+    m, packed_k = tensor_fp4.shape
+    k = packed_k * 2
+    tensor_f32 = break_fp4_bytes(tensor_fp4, dtype)
+    tensor_f32 = tensor_f32.reshape(m, k // block_size, block_size)
+    tensor_sf = tensor_sf.view(torch.float8_e4m3fn)
+    tensor_sf = convert_swizzled_to_linear(tensor_sf, m, k, block_size)
+    tensor_sf_dtype = tensor_sf.to(torch.float32) / global_scale
+
+    # scale the tensor
+    out = (tensor_f32 * tensor_sf_dtype.unsqueeze(-1)).reshape(m, k)
+    return out.to(dtype=dtype)
+
+
+def break_fp4_bytes(a, dtype):
+    assert a.dtype == torch.uint8
+    m, n = a.shape
+
+    # Vectorized nibble processing
+    a_flat = a.flatten()
+    high = (a_flat & 0xF0) >> 4  # Upper nibbles
+    low = a_flat & 0x0F  # Lower nibbles
+
+    # Combine nibbles for batch processing
+    combined = torch.stack((low, high), dim=1).flatten()
+
+    # Vectorized sign and magnitude extraction
+    signs = (combined & 0x08).to(torch.bool)  # Sign bits
+    abs_vals = (combined & 0x07).to(torch.long)  # Magnitude indices
+
+    # Device-aware lookup and sign application
+    kE2M1 = kE2M1ToFloat.to(device=a.device)
+    values = kE2M1[abs_vals] * torch.where(signs, -1.0, 1.0)
+
+    # Reshape to final form
+    return values.reshape(m, n * 2).to(dtype=dtype)
+
+
+def get_nvfp4_global_scale(a: torch.Tensor):
+    return (FLOAT8_E4M3_MAX * FLOAT4_E2M1_MAX) / torch.abs(a).max().to(torch.float32)
+
+
+def quant_nvfp4_tensor(a: torch.Tensor):
+    a_global_scale = get_nvfp4_global_scale(a)
+    a_quant, a_block_scale = scaled_fp4_quant(a, a_global_scale)
+    return a_quant, a_block_scale, a_global_scale