{ "name": "loop_113", "op_type": "loop_113", "description": "Sum adjacent uint32 pairs across an array (horizontal pairwise add)", "tags": [ "simd-loop" ], "axes": { "N": { "type": "var", "description": "Array length" } }, "inputs": { "a0": { "shape": [ "N" ], "dtype": "int32" }, "b0": { "shape": [ "N" ], "dtype": "int32" } }, "outputs": { "c0": { "shape": [ "N" ], "dtype": "uint32", "description": "Output array" } }, "reference": "import numpy as np\n\ndef run(a0, b0):\n n = len(a0)\n ap = np.concatenate([a0.astype(np.int32), np.zeros(2, np.int32)])\n bp = np.concatenate([b0.astype(np.int32), np.zeros(2, np.int32)])\n n_pairs = (n + 1) // 2\n even = np.arange(n_pairs) * 2\n c = np.zeros(n, dtype=np.int32)\n # c[2k] = a[2k]+a[2k+1]\n c_ev = (ap[even].astype(np.int64) + ap[even + 1].astype(np.int64)).astype(np.int32)\n valid_ev = even[even < n]\n c[valid_ev] = c_ev[:len(valid_ev)]\n # c[2k+1] = b[2k]+b[2k+1]\n c_od = (bp[even].astype(np.int64) + bp[even + 1].astype(np.int64)).astype(np.int32)\n odd = even + 1\n valid_od = odd[odd < n]\n c[valid_od] = c_od[:len(valid_od)]\n return c\n", "simd_loop_meta": { "output_inplace": false, "array_pad": 2, "scratch": [] } }