Пример #1
0
def test_partial_fit(nrows, ncols, n_components, density, batch_size_divider,
                     whiten):

    X, _ = make_blobs(n_samples=nrows, n_features=ncols, random_state=10)

    cu_ipca = cuIPCA(n_components=n_components, whiten=whiten)

    sample_size = int(nrows / batch_size_divider)
    for i in range(0, nrows, sample_size):
        cu_ipca.partial_fit(X[i:i + sample_size].copy())

    cu_t = cu_ipca.transform(X)
    cu_inv = cu_ipca.inverse_transform(cu_t)

    sk_ipca = skIPCA(n_components=n_components, whiten=whiten)

    X = cp.asnumpy(X)

    for i in range(0, nrows, sample_size):
        sk_ipca.partial_fit(X[i:i + sample_size].copy())

    sk_t = sk_ipca.transform(X)
    sk_inv = sk_ipca.inverse_transform(sk_t)

    assert array_equal(cu_inv, sk_inv, 5e-5, with_sign=True)
Пример #2
0
def test_fit(nrows, ncols, n_components, sparse_input, density, sparse_format,
             batch_size_divider, whiten):

    if sparse_format == 'csc':
        pytest.skip("cupyx.scipy.sparse.csc.csc_matrix does not support"
                    " indexing as of cupy 7.6.0")

    if sparse_input:
        X = cupyx.scipy.sparse.random(nrows,
                                      ncols,
                                      density=density,
                                      random_state=10,
                                      format=sparse_format)
    else:
        X, _ = make_blobs(n_samples=nrows, n_features=ncols, random_state=10)

    cu_ipca = cuIPCA(n_components=n_components,
                     whiten=whiten,
                     batch_size=int(nrows / batch_size_divider))
    cu_ipca.fit(X)
    cu_t = cu_ipca.transform(X)
    cu_inv = cu_ipca.inverse_transform(cu_t)

    sk_ipca = skIPCA(n_components=n_components,
                     whiten=whiten,
                     batch_size=int(nrows / batch_size_divider))
    if sparse_input:
        X = X.get()
    else:
        X = cp.asnumpy(X)
    sk_ipca.fit(X)
    sk_t = sk_ipca.transform(X)
    sk_inv = sk_ipca.inverse_transform(sk_t)

    assert array_equal(cu_inv, sk_inv, 5e-5, with_sign=True)