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Because\nof linearity, we only need the unit vectors with angles in [0, pi].\n\n" }, { "__type": "Code", "__tag": 4050, "value": "t = np.linspace(0, np.pi, 2000)\nu = np.array([np.cos(t), np.sin(t)])\n", "execution_status": "success" }, { "__type": "Code", "__tag": 4050, "value": "np.linalg.norm(m.dot(u), axis=0).max()\n", "execution_status": "failure" }, { "__type": "Text", "__tag": 4046, "value": "\n`p` is a projection matrix with rank 1. With exact arithmetic,\nits singular values would be [1, 0, 0, 0].\n\n" }, { "__type": "Code", "__tag": 4050, "value": "v = np.array([0.1, 0.3, 0.9, 0.3])\np = np.outer(v, v)\n", "execution_status": "success" }, { "__type": "Code", "__tag": 4050, "value": "svdvals(p)\n", "execution_status": "failure" }, { "__type": "Text", "__tag": 4046, "value": "\nThe singular values of an orthogonal matrix are all 1. Here, we\ncreate a random orthogonal matrix by using the `rvs()` method of\n`scipy.stats.ortho_group`.\n\n" }, { "__type": "Code", "__tag": 4050, "value": "from scipy.stats import ortho_group\north = ortho_group.rvs(4)\n", "execution_status": "success" }, { "__type": "Code", "__tag": 4050, "value": "svdvals(orth)\n", "execution_status": "failure" } ], "title": [], "level": 0, "target": null }, "see_also": [ { "__type": "SeeAlsoItem", "__tag": 4028, "name": { "__type": "CrossRef", "__tag": 4002, "value": "diagsvd", "reference": { "__type": "LocalRef", "__tag": 4022, "kind": "module", "path": "scipy.linalg._decomp_svd:diagsvd" }, "kind": "module" }, "descriptions": [ { "__type": "Paragraph", "__tag": 4045, "children": [ { "__type": "Text", "__tag": 4046, "value": "Construct the Sigma matrix, given the vector s." } ] } ], "type": "func" }, { "__type": "SeeAlsoItem", "__tag": 4028, "name": { "__type": "CrossRef", "__tag": 4002, "value": "svd", "reference": { "__type": "RefInfo", "__tag": 4000, "module": "current-module", "version": "current-version", "kind": "to-resolve", "path": "svd" }, "kind": "module" }, "descriptions": [ { "__type": "Paragraph", "__tag": 4045, "children": [ { "__type": "Text", "__tag": 4046, "value": "Compute the full singular value decomposition of a matrix." } ] } ], "type": "func" } ], "signature": { "__type": "SignatureNode", "__tag": 4029, "kind": "function", "parameters": [ { "__type": "SigParam", "__tag": 4030, "name": "a", "annotation": { "__type": "Empty", "__tag": 4031 }, "kind": "POSITIONAL_OR_KEYWORD", "default": { "__type": "Empty", "__tag": 4031 } }, { "__type": "SigParam", "__tag": 4030, "name": "overwrite_a", "annotation": { "__type": "Empty", "__tag": 4031 }, "kind": "POSITIONAL_OR_KEYWORD", "default": "False" }, { "__type": "SigParam", "__tag": 4030, "name": "check_finite", "annotation": { "__type": "Empty", "__tag": 4031 }, "kind": "POSITIONAL_OR_KEYWORD", "default": "True" } ], "return_annotation": { "__type": "Empty", "__tag": 4031 }, "target_name": "svdvals" }, "references": null, "qa": "scipy.linalg._decomp_svd:svdvals", "arbitrary": [], "local_refs": [ "a", "check_finite", "overwrite_a", "s" ] }