test_benchmark_gemm.py 11.5 KB
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import tvm
import numpy as np
from tvm.contrib import util
import vta.testing


def test_gemm():
    def run_gemm_packed(env, remote, batch_size, channel, block):
        data_shape = (batch_size // env.BATCH,
                      channel // env.BLOCK_IN,
                      env.BATCH,
                      env.BLOCK_IN)
        weight_shape = (channel // env.BLOCK_OUT,
                        channel // env.BLOCK_IN,
                        env.BLOCK_OUT,
                        env.BLOCK_IN)
        res_shape = (batch_size // env.BATCH,
                     channel // env.BLOCK_OUT,
                     env.BATCH,
                     env.BLOCK_OUT)
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        # To compute number of ops, use a x2 factor for FMA
        num_ops = 2 * channel * channel * batch_size
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        ko = tvm.reduce_axis((0, channel // env.BLOCK_IN), name='ko')
        ki = tvm.reduce_axis((0, env.BLOCK_IN), name='ki')

        data = tvm.placeholder(data_shape,
                               name="data",
                               dtype=env.inp_dtype)
        weight = tvm.placeholder(weight_shape,
                                 name="weight",
                                 dtype=env.wgt_dtype)
        data_buf = tvm.compute(data_shape,
                               lambda *i: data(*i),
                               "data_buf")
        weight_buf = tvm.compute(weight_shape,
                                 lambda *i: weight(*i),
                                 "weight_buf")
        res_gem = tvm.compute(res_shape,
                              lambda bo, co, bi, ci: tvm.sum(
                                  data_buf[bo, ko, bi, ki].astype(env.acc_dtype) *
                                  weight_buf[co, ko, ci, ki].astype(env.acc_dtype),
                                  axis=[ko, ki]),
                              name="res_gem")
        res_shf = tvm.compute(res_shape,
                              lambda *i: res_gem(*i)>>8,
                            name="res_shf")
        res_max = tvm.compute(res_shape,
                              lambda *i: tvm.max(res_shf(*i), 0),
                              "res_max") #relu
        res_min = tvm.compute(res_shape,
                              lambda *i: tvm.min(res_max(*i), (1<<(env.INP_WIDTH-1))-1),
                              "res_min") #relu
        res = tvm.compute(res_shape,
                          lambda *i: res_min(*i).astype(env.inp_dtype),
                          name="res")

        def verify(s, check_correctness=True):
            mod = vta.build(s, [data, weight, res],
                            "ext_dev", env.target_host, name="gemm")
            temp = util.tempdir()
            mod.save(temp.relpath("gemm.o"))
            remote.upload(temp.relpath("gemm.o"))
            f = remote.load_module("gemm.o")
            # verify
            ctx = remote.ext_dev(0)
            # Data in original format
            data_orig = np.random.randint(
                -128, 128, size=(batch_size, channel)).astype(data.dtype)
            weight_orig = np.random.randint(
                -128, 128, size=(channel, channel)).astype(weight.dtype)
            data_packed = data_orig.reshape(
                batch_size // env.BATCH, env.BATCH,
                channel // env.BLOCK_IN, env.BLOCK_IN).transpose((0, 2, 1, 3))
            weight_packed = weight_orig.reshape(
                channel // env.BLOCK_OUT, env.BLOCK_OUT,
                channel // env.BLOCK_IN, env.BLOCK_IN).transpose((0, 2, 1, 3))
            res_np = np.zeros(res_shape).astype(res.dtype)
            data_arr = tvm.nd.array(data_packed, ctx)
            weight_arr = tvm.nd.array(weight_packed, ctx)
            res_arr = tvm.nd.array(res_np, ctx)
            res_ref = np.zeros(res_shape).astype(env.acc_dtype)
            for b in range(batch_size // env.BATCH):
                for i in range(channel // env.BLOCK_OUT):
                    for j in range(channel // env.BLOCK_IN):
                        res_ref[b,i,:] += np.dot(data_packed[b,j,:].astype(env.acc_dtype),
                                                 weight_packed[i,j].T.astype(env.acc_dtype))
            res_ref = np.right_shift(res_ref, 8)
            res_ref = np.clip(res_ref, 0, (1<<(env.INP_WIDTH-1))-1).astype(res.dtype)
            time_f = f.time_evaluator("gemm", ctx, number=20)
            cost = time_f(data_arr, weight_arr, res_arr)
            res_unpack = res_arr.asnumpy().reshape(batch_size // env.BATCH,
                                                   channel // env.BLOCK_OUT,
                                                   env.BATCH,
                                                   env.BLOCK_OUT)
            if check_correctness:
                np.testing.assert_allclose(res_unpack, res_ref)
            return cost

        def run_schedule(load_inp,
                         load_wgt,
                         gemm,
                         alu,
                         store_out,
                         print_ir,
                         check_correctness):
            s = tvm.create_schedule(res.op)
            s[data_buf].set_scope(env.inp_scope)
            s[weight_buf].set_scope(env.wgt_scope)
            s[res_gem].set_scope(env.acc_scope)
            s[res_shf].set_scope(env.acc_scope)
            s[res_min].set_scope(env.acc_scope)
            s[res_max].set_scope(env.acc_scope)

            if block:
                bblock = block // env.BATCH
                iblock = block // env.BLOCK_IN
                oblock = block // env.BLOCK_OUT
                xbo, xco, xbi, xci = s[res].op.axis
                xb1, xco1, xb2, xco2 = s[res].tile(xbo, xco, bblock, oblock)
                store_pt = xb2

                s[res_gem].compute_at(s[res], xco1)
                s[res_shf].compute_at(s[res], xco1)
                s[res_min].compute_at(s[res], xco1)
                s[res_max].compute_at(s[res], xco1)

                xbo, xco, xbi, xci = s[res_gem].op.axis
                # Compute one line at a time
                ko1, ko2 = s[res_gem].split(ko, iblock)
                s[res_gem].reorder(ko1, ko2, xbo, xco, xbi, xci, ki)
                s[data_buf].compute_at(s[res_gem], ko1)
                s[weight_buf].compute_at(s[res_gem], ko1)
                # Use VTA instructions
                s[data_buf].pragma(s[data_buf].op.axis[0], load_inp)
                s[weight_buf].pragma(s[weight_buf].op.axis[0], load_wgt)
                s[res_gem].tensorize(xbi, gemm)
                s[res_shf].pragma(s[res_shf].op.axis[0], alu)
                s[res_min].pragma(s[res_min].op.axis[0], alu)
                s[res_max].pragma(s[res_max].op.axis[0], alu)
                s[res].pragma(store_pt, store_out)
            else:
                xbo, xco, xbi, xci = s[res_gem].op.axis
                s[res_gem].reorder(ko, xbo, xco, xbi, xci, ki)
                # Use VTA instructions
                s[data_buf].pragma(s[data_buf].op.axis[0], load_inp)
                s[weight_buf].pragma(s[weight_buf].op.axis[0], load_wgt)
                s[res_gem].tensorize(xbi, gemm)
                s[res_shf].pragma(s[res_shf].op.axis[0], alu)
                s[res_min].pragma(s[res_min].op.axis[0], alu)
                s[res_max].pragma(s[res_max].op.axis[0], alu)
                s[res].pragma(s[res].op.axis[0], store_out)


            if print_ir:
                print(tvm.lower(s, [data, weight, res], simple_mode=True))
            return verify(s, check_correctness)

        def gemm_normal(print_ir):
            mock = env.mock
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            print("----- GEMM GOPS End-to-End Test-------")
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            def run_test(header, print_ir, check_correctness):
                cost = run_schedule(
                    env.dma_copy, env.dma_copy, env.gemm, env.alu, env.dma_copy,
                    print_ir, check_correctness)
                gops = (num_ops / cost.mean) / float(10 ** 9)
                print(header)
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                print("\tTime cost = %g sec/op, %g GOPS" % (cost.mean, gops))
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            with vta.build_config():
                run_test("NORMAL", print_ir, True)

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        def gemm_unittest(print_ir):
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            mock = env.mock
            print("----- GEMM Unit Test-------")
            def run_test(header, print_ir):
                cost = run_schedule(
                    mock.dma_copy, mock.dma_copy, env.gemm, mock.alu, mock.dma_copy,
                    print_ir, False)
                gops = (num_ops / cost.mean) / float(10 ** 9)
                print(header)
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                print("\tTime cost = %g sec/op, %g GOPS" % (cost.mean, gops))
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            with vta.build_config():
                run_test("NORMAL", print_ir)

        def alu_unittest(print_ir):
            mock = env.mock
            print("----- ALU Unit Test-------")
            def run_test(header, print_ir):
                cost = run_schedule(
                    mock.dma_copy, mock.dma_copy, mock.gemm, env.alu, mock.dma_copy,
                    print_ir, False)
                gops = (num_ops / cost.mean) / float(10 ** 9)
                print(header)
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                print("\tTime cost = %g sec/op, %g GOPS" % (cost.mean, gops))
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            with vta.build_config():
                run_test("NORMAL", print_ir)
            print("")

        def load_inp_unittest(print_ir):
            mock = env.mock
            print("----- LoadInp Unit Test-------")
            def run_test(header, print_ir):
                cost = run_schedule(
                    env.dma_copy, mock.dma_copy, mock.gemm, mock.alu, mock.dma_copy, print_ir, False)
                gops = (num_ops / cost.mean) / float(10 ** 9)
                bandwith = (batch_size * channel * env.INP_WIDTH / cost.mean) / float(10 ** 9)
                print(header)
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                print("\tTime cost = %g sec/op, %g GOPS, bandwidth=%g Gbits" % (
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                    cost.mean, gops, bandwith))
            with vta.build_config():
                run_test("NORMAL", print_ir)
            print("")

        def load_wgt_unittest(print_ir):
            mock = env.mock
            print("----- LoadWgt Unit Test-------")
            def run_test(header, print_ir):
                cost = run_schedule(
                    mock.dma_copy, env.dma_copy, mock.gemm, mock.alu, mock.dma_copy, print_ir, False)
                gops = (num_ops / cost.mean) / float(10 ** 9)
                bandwith = (channel * channel * env.WGT_WIDTH / cost.mean) / float(10 ** 9)
                print(header)
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                print("\tTime cost = %g sec/op, %g GOPS, bandwidth=%g Gbits" % (
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                    cost.mean, gops, bandwith))
            with vta.build_config():
                run_test("NORMAL", print_ir)
            print("")

        def store_out_unittest(print_ir):
            mock = env.mock
            print("----- StoreOut Unit Test-------")
            def run_test(header, print_ir):
                cost = run_schedule(
                    mock.dma_copy, mock.dma_copy, mock.gemm, mock.alu, env.dma_copy,
                    print_ir, False)
                gops = (num_ops / cost.mean) / float(10 ** 9)
                bandwith = (batch_size * channel * env.OUT_WIDTH / cost.mean) / float(10 ** 9)
                print(header)
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                print("\tTime cost = %g sec/op, %g GOPS, bandwidth=%g Gbits" % (
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                    cost.mean, gops, bandwith))
            with vta.build_config():
                run_test("NORMAL", print_ir)
            print("")



        gemm_normal(False)
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        gemm_unittest(False)
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        alu_unittest(False)

    def _run(env, remote):
        print("========GEMM 128=========")
        run_gemm_packed(env, remote, 128, 128, 128)

    vta.testing.run(_run)

if __name__ == "__main__":
    test_gemm()