164 lines
5.8 KiB
Python
164 lines
5.8 KiB
Python
# Licensed to the Apache Software Foundation (ASF) under one
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# or more contributor license agreements. See the NOTICE file
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# distributed with this work for additional information
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# regarding copyright ownership. The ASF licenses this file
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# to you under the Apache License, Version 2.0 (the
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# "License"); you may not use this file except in compliance
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# with the License. You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing,
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# software distributed under the License is distributed on an
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# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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# KIND, either express or implied. See the License for the
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# specific language governing permissions and limitations
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# under the License.
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import tvm
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import tvm.testing
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from tvm import relax
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from tvm.script import ir as I
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from tvm.script import relax as R
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@I.ir_module
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class Module:
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@R.function
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def fused_relax_nn_attention_cutlass(
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q: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v: R.Tensor((32, 8, 16, 8), dtype="float16"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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R.func_attr(
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{
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"Codegen": "cutlass",
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"WorkspaceSize": 65536,
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"global_symbol": "fused_relax_nn_attention_cutlass",
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}
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)
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@R.function
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def gv(
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q_1: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k_1: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v_1: R.Tensor((32, 8, 16, 8), dtype="float16"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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R.func_attr(
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{"Composite": "cutlass.attention", "Primitive": True, "WorkspaceSize": 65536}
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)
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with R.dataflow():
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gv_2: R.Tensor((32, 8, 16, 8), dtype="float16") = R.nn.attention(
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q_1, k_1, v_1, scale=None
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)
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R.output(gv_2)
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return gv_2
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gv1: R.Tensor((32, 8, 16, 8), dtype="float16") = gv(q, k, v)
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return gv1
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@R.function
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def entry_a(
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q: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v: R.Tensor((32, 8, 16, 8), dtype="float16"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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cls = Module
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with R.dataflow():
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gv: R.Tensor((32, 8, 16, 8), dtype="float16") = cls.fused_relax_nn_attention_cutlass(
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q, k, v
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)
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R.output(gv)
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return gv
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@R.function
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def entry_b(
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q: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v: R.Tensor((32, 8, 16, 8), dtype="float16"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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cls = Module
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with R.dataflow():
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gv: R.Tensor((32, 8, 16, 8), dtype="float16") = cls.fused_relax_nn_attention_cutlass(
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q, k, v
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) + R.const(1, dtype="float16")
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R.output(gv)
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return gv
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@I.ir_module
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class Expected:
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@R.function
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def fused_relax_nn_attention_cutlass1(
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q: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v: R.Tensor((32, 8, 16, 8), dtype="float16"),
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workspace: R.Tensor((65536,), dtype="uint8"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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R.func_attr(
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{
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"Codegen": "cutlass",
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"global_symbol": "fused_relax_nn_attention_cutlass1",
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}
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)
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@R.function
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def gv(
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q_1: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k_1: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v_1: R.Tensor((32, 8, 16, 8), dtype="float16"),
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workspace_1: R.Tensor((65536,), dtype="uint8"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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R.func_attr({"Composite": "cutlass.attention", "Primitive": True})
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with R.dataflow():
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gv_2: R.Tensor((32, 8, 16, 8), dtype="float16") = R.nn.attention(
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q_1, k_1, v_1, scale=None
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)
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R.output(gv_2)
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return gv_2
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gv1: R.Tensor((32, 8, 16, 8), dtype="float16") = gv(q, k, v, workspace)
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return gv1
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@R.function
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def entry_a(
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q: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v: R.Tensor((32, 8, 16, 8), dtype="float16"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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cls = Expected
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with R.dataflow():
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workspace_main: R.Tensor((65536,), dtype="uint8") = R.builtin.alloc_tensor(
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R.shape([65536]), R.dtype("uint8"), R.prim_value(0)
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)
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gv: R.Tensor((32, 8, 16, 8), dtype="float16") = cls.fused_relax_nn_attention_cutlass1(
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q, k, v, workspace_main
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)
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R.output(gv)
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return gv
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@R.function
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def entry_b(
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q: R.Tensor((32, 8, 16, 8), dtype="float16"),
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k: R.Tensor((32, 8, 16, 8), dtype="float16"),
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v: R.Tensor((32, 8, 16, 8), dtype="float16"),
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) -> R.Tensor((32, 8, 16, 8), dtype="float16"):
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cls = Expected
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with R.dataflow():
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workspace_main: R.Tensor((65536,), dtype="uint8") = R.builtin.alloc_tensor(
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R.shape([65536]), R.dtype("uint8"), R.prim_value(0)
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)
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gv: R.Tensor((32, 8, 16, 8), dtype="float16") = cls.fused_relax_nn_attention_cutlass1(
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q, k, v, workspace_main
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) + R.const(1, dtype="float16")
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R.output(gv)
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return gv
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def test_single_attention():
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rewritten = relax.transform.AllocateWorkspace()(Module)
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tvm.ir.assert_structural_equal(rewritten, Expected)
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if __name__ == "__main__":
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tvm.testing.main()
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