{ "results": { "agieval": { "acc,none": 0.39646831156265117, "acc_stderr,none": 0.005025874456441722, "alias": "agieval" }, "agieval_aqua_rat": { "alias": " - agieval_aqua_rat", "acc,none": 0.28346456692913385, "acc_stderr,none": 0.02833400492130763, "acc_norm,none": 0.25984251968503935, "acc_norm_stderr,none": 0.027571279139611004 }, "agieval_gaokao_biology": { "alias": " - agieval_gaokao_biology", "acc,none": 0.43333333333333335, "acc_stderr,none": 0.0342769159111587, "acc_norm,none": 0.45714285714285713, "acc_norm_stderr,none": 0.03445843938031584 }, "agieval_gaokao_chemistry": { "alias": " - agieval_gaokao_chemistry", "acc,none": 0.30434782608695654, "acc_stderr,none": 0.032058822365635266, "acc_norm,none": 0.28019323671497587, "acc_norm_stderr,none": 0.031289827964521094 }, "agieval_gaokao_chinese": { "alias": " - agieval_gaokao_chinese", "acc,none": 0.3089430894308943, "acc_stderr,none": 0.02951977938940492, "acc_norm,none": 0.2967479674796748, "acc_norm_stderr,none": 0.029185445861037915 }, "agieval_gaokao_english": { "alias": " - agieval_gaokao_english", "acc,none": 0.6372549019607843, "acc_stderr,none": 0.027530078447110307, "acc_norm,none": 0.6568627450980392, "acc_norm_stderr,none": 0.027184498909941613 }, "agieval_gaokao_geography": { "alias": " - agieval_gaokao_geography", "acc,none": 0.6180904522613065, "acc_stderr,none": 0.03452817946540989, "acc_norm,none": 0.6231155778894473, "acc_norm_stderr,none": 0.034439417931776 }, "agieval_gaokao_history": { "alias": " - agieval_gaokao_history", "acc,none": 0.6042553191489362, "acc_stderr,none": 0.03196758697835361, "acc_norm,none": 0.5404255319148936, "acc_norm_stderr,none": 0.03257901482099834 }, "agieval_gaokao_mathcloze": { "alias": " - agieval_gaokao_mathcloze", "acc,none": 0.03389830508474576, "acc_stderr,none": 0.0167304446370449 }, "agieval_gaokao_mathqa": { "alias": " - agieval_gaokao_mathqa", "acc,none": 0.30484330484330485, "acc_stderr,none": 0.024606263101409013, "acc_norm,none": 0.31054131054131057, "acc_norm_stderr,none": 0.02473317061233447 }, "agieval_gaokao_physics": { "alias": " - agieval_gaokao_physics", "acc,none": 0.47, "acc_stderr,none": 0.03538020341900045, "acc_norm,none": 0.445, "acc_norm_stderr,none": 0.03522897106090459 }, "agieval_jec_qa_ca": { "alias": " - agieval_jec_qa_ca", "acc,none": 0.5205205205205206, "acc_stderr,none": 0.015813888401348383, "acc_norm,none": 0.4914914914914915, "acc_norm_stderr,none": 0.015824931665172324 }, "agieval_jec_qa_kd": { "alias": " - agieval_jec_qa_kd", "acc,none": 0.607, "acc_stderr,none": 0.015452824654081496, "acc_norm,none": 0.535, "acc_norm_stderr,none": 0.01578049505003016 }, "agieval_logiqa_en": { "alias": " - agieval_logiqa_en", "acc,none": 0.34408602150537637, "acc_stderr,none": 0.01863375065717621, "acc_norm,none": 0.34101382488479265, "acc_norm_stderr,none": 0.01859377050860097 }, "agieval_logiqa_zh": { "alias": " - agieval_logiqa_zh", "acc,none": 0.3533026113671275, "acc_stderr,none": 0.018748533323899717, "acc_norm,none": 0.38402457757296465, "acc_norm_stderr,none": 0.019076755948732337 }, "agieval_lsat_ar": { "alias": " - agieval_lsat_ar", "acc,none": 0.23478260869565218, "acc_stderr,none": 0.028009647070930118, "acc_norm,none": 0.23043478260869565, "acc_norm_stderr,none": 0.027827807522276156 }, "agieval_lsat_lr": { "alias": " - agieval_lsat_lr", "acc,none": 0.3568627450980392, "acc_stderr,none": 0.02123457379560983, "acc_norm,none": 0.3411764705882353, "acc_norm_stderr,none": 0.021014312949349186 }, "agieval_lsat_rc": { "alias": " - agieval_lsat_rc", "acc,none": 0.49814126394052044, "acc_stderr,none": 0.030542150046756422, "acc_norm,none": 0.43866171003717475, "acc_norm_stderr,none": 0.03031166554071835 }, "agieval_math": { "alias": " - agieval_math", "acc,none": 0.077, "acc_stderr,none": 0.00843458014024063 }, "agieval_sat_en": { "alias": " - agieval_sat_en", "acc,none": 0.6650485436893204, "acc_stderr,none": 0.032964058640862416, "acc_norm,none": 0.616504854368932, "acc_norm_stderr,none": 0.0339602794458664 }, "agieval_sat_en_without_passage": { "alias": " - agieval_sat_en_without_passage", "acc,none": 0.39805825242718446, "acc_stderr,none": 0.03418799390613398, "acc_norm,none": 0.3592233009708738, "acc_norm_stderr,none": 0.03350878450608781 }, "agieval_sat_math": { "alias": " - agieval_sat_math", "acc,none": 0.2909090909090909, "acc_stderr,none": 0.03069075327671109, "acc_norm,none": 0.2772727272727273, "acc_norm_stderr,none": 0.03024953767588669 } }, "groups": { "agieval": { "acc,none": 0.39646831156265117, "acc_stderr,none": 0.005025874456441722, "alias": "agieval" } }, "group_subtasks": { "agieval": [ "agieval_gaokao_biology", "agieval_gaokao_chemistry", "agieval_gaokao_chinese", "agieval_gaokao_geography", "agieval_gaokao_history", "agieval_gaokao_mathcloze", "agieval_gaokao_mathqa", "agieval_gaokao_physics", "agieval_jec_qa_ca", "agieval_jec_qa_kd", "agieval_logiqa_zh", "agieval_aqua_rat", "agieval_gaokao_english", "agieval_logiqa_en", "agieval_lsat_ar", "agieval_lsat_lr", "agieval_lsat_rc", "agieval_math", "agieval_sat_en_without_passage", "agieval_sat_en", "agieval_sat_math" ] }, "configs": { "agieval_aqua_rat": { "task": "agieval_aqua_rat", "dataset_path": "hails/agieval-aqua-rat", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_biology": { "task": "agieval_gaokao_biology", "dataset_path": "hails/agieval-gaokao-biology", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_chemistry": { "task": "agieval_gaokao_chemistry", "dataset_path": "hails/agieval-gaokao-chemistry", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_chinese": { "task": "agieval_gaokao_chinese", "dataset_path": "hails/agieval-gaokao-chinese", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_english": { "task": "agieval_gaokao_english", "dataset_path": "hails/agieval-gaokao-english", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_geography": { "task": "agieval_gaokao_geography", "dataset_path": "hails/agieval-gaokao-geography", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_history": { "task": "agieval_gaokao_history", "dataset_path": "hails/agieval-gaokao-history", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_mathcloze": { "task": "agieval_gaokao_mathcloze", "dataset_path": "hails/agieval-gaokao-mathcloze", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{answer}}", "process_results": "def process_results(doc: dict, results: List[str]) -> Dict[str, int]:\n candidate = results[0]\n\n gold = doc[\"answer\"]\n\n if not gold:\n print(doc, candidate, gold)\n if is_equiv(candidate, gold):\n retval = 1\n else:\n retval = 0\n\n results = {\n \"acc\": retval,\n }\n return results\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true } ], "output_type": "generate_until", "generation_kwargs": { "max_gen_toks": 32, "do_sample": false, "temperature": 0.0, "until": [ "Q:" ] }, "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_mathqa": { "task": "agieval_gaokao_mathqa", "dataset_path": "hails/agieval-gaokao-mathqa", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_gaokao_physics": { "task": "agieval_gaokao_physics", "dataset_path": "hails/agieval-gaokao-physics", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_jec_qa_ca": { "task": "agieval_jec_qa_ca", "dataset_path": "hails/agieval-jec-qa-ca", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_jec_qa_kd": { "task": "agieval_jec_qa_kd", "dataset_path": "hails/agieval-jec-qa-kd", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_logiqa_en": { "task": "agieval_logiqa_en", "dataset_path": "hails/agieval-logiqa-en", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_logiqa_zh": { "task": "agieval_logiqa_zh", "dataset_path": "hails/agieval-logiqa-zh", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_lsat_ar": { "task": "agieval_lsat_ar", "dataset_path": "hails/agieval-lsat-ar", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_lsat_lr": { "task": "agieval_lsat_lr", "dataset_path": "hails/agieval-lsat-lr", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_lsat_rc": { "task": "agieval_lsat_rc", "dataset_path": "hails/agieval-lsat-rc", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_math": { "task": "agieval_math", "dataset_path": "hails/agieval-math", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{answer}}", "process_results": "def process_results(doc: dict, results: List[str]) -> Dict[str, int]:\n candidate = results[0]\n\n gold = doc[\"answer\"]\n\n if not gold:\n print(doc, candidate, gold)\n if is_equiv(candidate, gold):\n retval = 1\n else:\n retval = 0\n\n results = {\n \"acc\": retval,\n }\n return results\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true } ], "output_type": "generate_until", "generation_kwargs": { "max_gen_toks": 32, "do_sample": false, "temperature": 0.0, "until": [ "Q:" ] }, "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_sat_en": { "task": "agieval_sat_en", "dataset_path": "hails/agieval-sat-en", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_sat_en_without_passage": { "task": "agieval_sat_en_without_passage", "dataset_path": "hails/agieval-sat-en-without-passage", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } }, "agieval_sat_math": { "task": "agieval_sat_math", "dataset_path": "hails/agieval-sat-math", "test_split": "test", "doc_to_text": "{{query}}", "doc_to_target": "{{gold}}", "doc_to_choice": "{{choices}}", "process_results": "def process_results_mcqa(doc, results):\n results = [result[0] for result in results]\n\n gold = doc[\"gold\"]\n\n acc = 1.0 if int(np.argmax(results)) in gold else 0.0\n completion_len = np.array([float(len(i)) for i in doc[\"choices\"]])\n acc_norm = 1.0 if int(np.argmax(results / completion_len)) in gold else 0.0\n\n return {\n \"acc\": acc,\n \"acc_norm\": acc_norm,\n }\n", "description": "", "target_delimiter": " ", "fewshot_delimiter": "\n\n", "num_fewshot": 0, "metric_list": [ { "metric": "acc", "aggregation": "mean", "higher_is_better": true }, { "metric": "acc_norm", "aggregation": "mean", "higher_is_better": true } ], "output_type": "multiple_choice", "repeats": 1, "should_decontaminate": false, "metadata": { "version": 1.0 } } }, "versions": { "agieval": 0.0, "agieval_aqua_rat": 1.0, "agieval_gaokao_biology": 1.0, "agieval_gaokao_chemistry": 1.0, "agieval_gaokao_chinese": 1.0, "agieval_gaokao_english": 1.0, "agieval_gaokao_geography": 1.0, "agieval_gaokao_history": 1.0, "agieval_gaokao_mathcloze": 1.0, "agieval_gaokao_mathqa": 1.0, "agieval_gaokao_physics": 1.0, "agieval_jec_qa_ca": 1.0, "agieval_jec_qa_kd": 1.0, "agieval_logiqa_en": 1.0, "agieval_logiqa_zh": 1.0, "agieval_lsat_ar": 1.0, "agieval_lsat_lr": 1.0, "agieval_lsat_rc": 1.0, "agieval_math": 1.0, "agieval_sat_en": 1.0, "agieval_sat_en_without_passage": 1.0, "agieval_sat_math": 1.0 }, "n-shot": { "agieval_aqua_rat": 0, "agieval_gaokao_biology": 0, "agieval_gaokao_chemistry": 0, "agieval_gaokao_chinese": 0, "agieval_gaokao_english": 0, "agieval_gaokao_geography": 0, "agieval_gaokao_history": 0, "agieval_gaokao_mathcloze": 0, "agieval_gaokao_mathqa": 0, "agieval_gaokao_physics": 0, "agieval_jec_qa_ca": 0, "agieval_jec_qa_kd": 0, "agieval_logiqa_en": 0, "agieval_logiqa_zh": 0, "agieval_lsat_ar": 0, "agieval_lsat_lr": 0, "agieval_lsat_rc": 0, "agieval_math": 0, "agieval_sat_en": 0, "agieval_sat_en_without_passage": 0, "agieval_sat_math": 0 }, "higher_is_better": { "agieval": { "acc": true, "acc_norm": true }, "agieval_aqua_rat": { "acc": true, "acc_norm": true }, "agieval_gaokao_biology": { "acc": true, "acc_norm": true }, "agieval_gaokao_chemistry": { "acc": true, "acc_norm": true }, "agieval_gaokao_chinese": { "acc": true, "acc_norm": true }, "agieval_gaokao_english": { "acc": true, "acc_norm": true }, "agieval_gaokao_geography": { "acc": true, "acc_norm": true }, "agieval_gaokao_history": { "acc": true, "acc_norm": true }, "agieval_gaokao_mathcloze": { "acc": true }, "agieval_gaokao_mathqa": { "acc": true, "acc_norm": true }, "agieval_gaokao_physics": { "acc": true, "acc_norm": true }, "agieval_jec_qa_ca": { "acc": true, "acc_norm": true }, "agieval_jec_qa_kd": { "acc": true, "acc_norm": true }, "agieval_logiqa_en": { "acc": true, "acc_norm": true }, "agieval_logiqa_zh": { "acc": true, "acc_norm": true }, "agieval_lsat_ar": { "acc": true, "acc_norm": true }, "agieval_lsat_lr": { "acc": true, "acc_norm": true }, "agieval_lsat_rc": { "acc": true, "acc_norm": true }, "agieval_math": { "acc": true }, "agieval_sat_en": { "acc": true, "acc_norm": true }, "agieval_sat_en_without_passage": { "acc": true, "acc_norm": true }, "agieval_sat_math": { "acc": true, "acc_norm": true } }, "n-samples": { "agieval_gaokao_biology": { "original": 210, "effective": 210 }, "agieval_gaokao_chemistry": { "original": 207, "effective": 207 }, "agieval_gaokao_chinese": { "original": 246, "effective": 246 }, "agieval_gaokao_geography": { "original": 199, "effective": 199 }, "agieval_gaokao_history": { "original": 235, "effective": 235 }, "agieval_gaokao_mathcloze": { "original": 118, "effective": 118 }, "agieval_gaokao_mathqa": { "original": 351, "effective": 351 }, "agieval_gaokao_physics": { "original": 200, "effective": 200 }, "agieval_jec_qa_ca": { "original": 999, "effective": 999 }, "agieval_jec_qa_kd": { "original": 1000, "effective": 1000 }, "agieval_logiqa_zh": { "original": 651, "effective": 651 }, "agieval_aqua_rat": { "original": 254, "effective": 254 }, "agieval_gaokao_english": { "original": 306, "effective": 306 }, "agieval_logiqa_en": { "original": 651, "effective": 651 }, "agieval_lsat_ar": { "original": 230, "effective": 230 }, "agieval_lsat_lr": { "original": 510, "effective": 510 }, "agieval_lsat_rc": { "original": 269, "effective": 269 }, "agieval_math": { "original": 1000, "effective": 1000 }, "agieval_sat_en_without_passage": { "original": 206, "effective": 206 }, "agieval_sat_en": { "original": 206, "effective": 206 }, "agieval_sat_math": { "original": 220, "effective": 220 } }, "config": { "model": "hf", "model_args": "pretrained=mistralai/Mistral-Nemo-Instruct-2407,trust_remote_code=True,cache_dir=/tmp,parallelize=True", "model_num_parameters": 12247782400, "model_dtype": "torch.bfloat16", "model_revision": "main", "model_sha": "8aedd450f2583e9c67fae1929f6936b8fc5aef9c", "batch_size": "auto", "batch_sizes": [ 16 ], "device": null, "use_cache": null, "limit": null, "bootstrap_iters": 100000, "gen_kwargs": null, "random_seed": 0, "numpy_seed": 1234, "torch_seed": 1234, "fewshot_seed": 1234 }, "git_hash": "788a3672", "date": 1737890908.913618, "pretty_env_info": "PyTorch version: 2.4.0+cu121\nIs debug build: False\nCUDA used to build PyTorch: 12.1\nROCM used to build PyTorch: N/A\n\nOS: Ubuntu 22.04.3 LTS (x86_64)\nGCC version: (Ubuntu 11.4.0-1ubuntu1~22.04) 11.4.0\nClang version: Could not collect\nCMake version: version 3.27.1\nLibc version: glibc-2.35\n\nPython version: 3.10.12 (main, Jun 11 2023, 05:26:28) [GCC 11.4.0] (64-bit runtime)\nPython platform: Linux-5.15.0-1064-azure-x86_64-with-glibc2.35\nIs CUDA available: True\nCUDA runtime version: 12.2.128\nCUDA_MODULE_LOADING set to: LAZY\nGPU models and configuration: \nGPU 0: NVIDIA A100 80GB PCIe\nGPU 1: NVIDIA A100 80GB PCIe\n\nNvidia driver version: 535.161.08\ncuDNN version: Probably one of the following:\n/usr/lib/x86_64-linux-gnu/libcudnn.so.8.9.4\n/usr/lib/x86_64-linux-gnu/libcudnn_adv_infer.so.8.9.4\n/usr/lib/x86_64-linux-gnu/libcudnn_adv_train.so.8.9.4\n/usr/lib/x86_64-linux-gnu/libcudnn_cnn_infer.so.8.9.4\n/usr/lib/x86_64-linux-gnu/libcudnn_cnn_train.so.8.9.4\n/usr/lib/x86_64-linux-gnu/libcudnn_ops_infer.so.8.9.4\n/usr/lib/x86_64-linux-gnu/libcudnn_ops_train.so.8.9.4\nHIP runtime version: N/A\nMIOpen runtime version: N/A\nIs XNNPACK available: True\n\nCPU:\nArchitecture: x86_64\nCPU op-mode(s): 32-bit, 64-bit\nAddress sizes: 48 bits physical, 48 bits virtual\nByte Order: Little Endian\nCPU(s): 48\nOn-line CPU(s) list: 0-47\nVendor ID: AuthenticAMD\nModel name: AMD EPYC 7V13 64-Core Processor\nCPU family: 25\nModel: 1\nThread(s) per core: 1\nCore(s) per socket: 48\nSocket(s): 1\nStepping: 1\nBogoMIPS: 4890.89\nFlags: fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush mmx fxsr sse sse2 ht syscall nx mmxext fxsr_opt pdpe1gb rdtscp lm constant_tsc rep_good nopl tsc_reliable nonstop_tsc cpuid extd_apicid aperfmperf pni pclmulqdq ssse3 fma cx16 pcid sse4_1 sse4_2 movbe popcnt aes xsave avx f16c rdrand hypervisor lahf_lm cmp_legacy cr8_legacy abm sse4a misalignsse 3dnowprefetch osvw topoext perfctr_core invpcid_single vmmcall fsgsbase bmi1 avx2 smep bmi2 erms invpcid rdseed adx smap clflushopt clwb sha_ni xsaveopt xsavec xgetbv1 xsaves clzero xsaveerptr rdpru arat umip vaes vpclmulqdq rdpid fsrm\nHypervisor vendor: Microsoft\nVirtualization type: full\nL1d cache: 1.5 MiB (48 instances)\nL1i cache: 1.5 MiB (48 instances)\nL2 cache: 24 MiB (48 instances)\nL3 cache: 192 MiB (6 instances)\nNUMA node(s): 2\nNUMA node0 CPU(s): 0-23\nNUMA node1 CPU(s): 24-47\nVulnerability Gather data sampling: Not affected\nVulnerability Itlb multihit: Not affected\nVulnerability L1tf: Not affected\nVulnerability Mds: Not affected\nVulnerability Meltdown: Not affected\nVulnerability Mmio stale data: Not affected\nVulnerability Retbleed: Not affected\nVulnerability Spec rstack overflow: Mitigation; safe RET, no microcode\nVulnerability Spec store bypass: Vulnerable\nVulnerability Spectre v1: Mitigation; usercopy/swapgs barriers and __user pointer sanitization\nVulnerability Spectre v2: Mitigation; Retpolines; STIBP disabled; RSB filling; PBRSB-eIBRS Not affected; BHI Not affected\nVulnerability Srbds: Not affected\nVulnerability Tsx async abort: Not affected\n\nVersions of relevant libraries:\n[pip3] numpy==1.26.4\n[pip3] onnx==1.14.0\n[pip3] pytorch-lightning==2.0.7\n[pip3] pytorch-quantization==2.1.2\n[pip3] torch==2.4.0\n[pip3] torch-tensorrt==2.0.0.dev0\n[pip3] torchaudio==2.1.0\n[pip3] torchdata==0.7.0a0\n[pip3] torchmetrics==1.2.0\n[pip3] torchvision==0.19.0\n[pip3] triton==3.0.0\n[conda] Could not collect", "transformers_version": "4.48.1", "upper_git_hash": "086919bd66f4e15fdcd4b792a7b27a698c1ba091", "tokenizer_pad_token": [ "", "0" ], "tokenizer_eos_token": [ "", "2" ], "tokenizer_bos_token": [ "", "1" ], "eot_token_id": 2, "max_length": 131072, "task_hashes": {}, "model_source": "hf", "model_name": "mistralai/Mistral-Nemo-Instruct-2407", "model_name_sanitized": "mistralai__Mistral-Nemo-Instruct-2407", "system_instruction": null, "system_instruction_sha": null, "fewshot_as_multiturn": false, "chat_template": null, "chat_template_sha": null, "start_time": 3284.740785435, "end_time": 5079.899630597, "total_evaluation_time_seconds": "1795.1588451620005" }