Datasets:

mteb
/

arena-results

@@ -313,3 +313,5 @@
 {"tstamp": 1723016987.4012, "task_type": "retrieval", "type": "chat", "model": "text-embedding-004", "gen_params": {}, "start": 1723016985.0596, "finish": 1723016987.4012, "ip": "", "conv_id": "6a26b634dd4c43beaf7ca881f5c9669a", "model_name": "text-embedding-004", "prompt": "Which test was devised to determine whether robots can think?", "output": [["Which test was devised to determine whether robots can think?", "Turing test\n\nThe Turing test, originally called the imitation game by Alan Turing in 1950, is a test of a machine's ability to exhibit intelligent behaviour equivalent to, or indistinguishable from, that of a human. Turing proposed that a human evaluator would judge natural language conversations between a human and a machine designed to generate human-like responses. The evaluator would be aware that one of the two partners in conversation was a machine, and all participants would be separated from one another. The conversation would be limited to a text-only channel, such as a computer keyboard and screen, so the result would not depend on the machine's ability to render words as speech. If the evaluator could not reliably tell the machine from the human, the machine would be said to have passed the test. The test results would not depend on the machine's ability to give correct answers to questions, only on how closely its answers resembled those a human would give. Since the Turing test is a test of indistinguishability in performance capacity, the verbal version generalizes naturally to all of human performance capacity, verbal as well as nonverbal (robotic)."]], "corpus": "wikipedia"}
 {"tstamp": 1723017026.514, "task_type": "retrieval", "type": "chat", "model": "BAAI/bge-large-en-v1.5", "gen_params": {}, "start": 1723017026.2986, "finish": 1723017026.514, "ip": "", "conv_id": "0feafadd996d47fbb58be957b70eb590", "model_name": "BAAI/bge-large-en-v1.5", "prompt": "can a dc switch be used for ac?", "output": [["can a dc switch be used for ac?", "Electronics Stackexchange\n\nQ: Using automotive relay to switch AC I want to use this automotive relay to switch 60VAC, the current max. is 10A. But all its parameters are for DC usage. Can I use it safely to switch AC? It states its \"Max. switching voltage\" is 50VDC, then what about AC? How can I infer the AC parameters?\n\nA: Given that AC voltage is usually measured in RMS, that means the peak voltage you expect to see on your AC line is 60 * sqrt(2) ~= 84.85 V(peak). This is quite a bit higher than the rated 50V(dc) (peak is the same as given voltage for DC), and you could possibly damage the device and the rest of your circuit. \nEDIT: \nI had a another look at the data sheet, and the issue you may run into is that if you select one of the options with a diode (called a freewheel diode, used to prevent reverse voltage spikes when the contacts are opened), it will cause issues as the diode will conduct when the AC voltage goes negative (even with the contacts open).   \nAlso, I'm assuming you are using a DC control current with a AC load current\n"]], "corpus": "stackexchange"}
 {"tstamp": 1723017026.514, "task_type": "retrieval", "type": "chat", "model": "GritLM/GritLM-7B", "gen_params": {}, "start": 1723017026.2986, "finish": 1723017026.514, "ip": "", "conv_id": "3d91fce6e0c742d6970519e5cbe41eb0", "model_name": "GritLM/GritLM-7B", "prompt": "can a dc switch be used for ac?", "output": [["can a dc switch be used for ac?", "Electronics Stackexchange\n\nQ: will a circuit breaker designed for 230VAC work for 12VDC? Will a standard home automatic circuit breaker, designed and sold as to work on 230V AC (alternating current), and for example 16A, or 25A etc, will it work (break the circuit if it exceeds the rated amperage) on 12V direct current (DC)?\nIf not, are there any automatic circuit breakers for over-current protection, which work on DC? I mean besides fuses which blow, I want the thing to be reusable with a click, not one-time-use.\n\nA: The key here is AC - alternating current - vs  DC - direct current.  They are different  - AC oscillates while DC doesn't.  That means, as the answer above notes, that AC breaks contact easier that DC and DC creates greater arcing across the contacts - AC doesn't to the same degree - use a DC circuit breaker - they are available..... \nSame applies to standard switches.  A 230v switch will fail very quickly if used in a DC circuit because of the arcing.\n"]], "corpus": "stackexchange"}

 {"tstamp": 1723016987.4012, "task_type": "retrieval", "type": "chat", "model": "text-embedding-004", "gen_params": {}, "start": 1723016985.0596, "finish": 1723016987.4012, "ip": "", "conv_id": "6a26b634dd4c43beaf7ca881f5c9669a", "model_name": "text-embedding-004", "prompt": "Which test was devised to determine whether robots can think?", "output": [["Which test was devised to determine whether robots can think?", "Turing test\n\nThe Turing test, originally called the imitation game by Alan Turing in 1950, is a test of a machine's ability to exhibit intelligent behaviour equivalent to, or indistinguishable from, that of a human. Turing proposed that a human evaluator would judge natural language conversations between a human and a machine designed to generate human-like responses. The evaluator would be aware that one of the two partners in conversation was a machine, and all participants would be separated from one another. The conversation would be limited to a text-only channel, such as a computer keyboard and screen, so the result would not depend on the machine's ability to render words as speech. If the evaluator could not reliably tell the machine from the human, the machine would be said to have passed the test. The test results would not depend on the machine's ability to give correct answers to questions, only on how closely its answers resembled those a human would give. Since the Turing test is a test of indistinguishability in performance capacity, the verbal version generalizes naturally to all of human performance capacity, verbal as well as nonverbal (robotic)."]], "corpus": "wikipedia"}
 {"tstamp": 1723017026.514, "task_type": "retrieval", "type": "chat", "model": "BAAI/bge-large-en-v1.5", "gen_params": {}, "start": 1723017026.2986, "finish": 1723017026.514, "ip": "", "conv_id": "0feafadd996d47fbb58be957b70eb590", "model_name": "BAAI/bge-large-en-v1.5", "prompt": "can a dc switch be used for ac?", "output": [["can a dc switch be used for ac?", "Electronics Stackexchange\n\nQ: Using automotive relay to switch AC I want to use this automotive relay to switch 60VAC, the current max. is 10A. But all its parameters are for DC usage. Can I use it safely to switch AC? It states its \"Max. switching voltage\" is 50VDC, then what about AC? How can I infer the AC parameters?\n\nA: Given that AC voltage is usually measured in RMS, that means the peak voltage you expect to see on your AC line is 60 * sqrt(2) ~= 84.85 V(peak). This is quite a bit higher than the rated 50V(dc) (peak is the same as given voltage for DC), and you could possibly damage the device and the rest of your circuit. \nEDIT: \nI had a another look at the data sheet, and the issue you may run into is that if you select one of the options with a diode (called a freewheel diode, used to prevent reverse voltage spikes when the contacts are opened), it will cause issues as the diode will conduct when the AC voltage goes negative (even with the contacts open).   \nAlso, I'm assuming you are using a DC control current with a AC load current\n"]], "corpus": "stackexchange"}
 {"tstamp": 1723017026.514, "task_type": "retrieval", "type": "chat", "model": "GritLM/GritLM-7B", "gen_params": {}, "start": 1723017026.2986, "finish": 1723017026.514, "ip": "", "conv_id": "3d91fce6e0c742d6970519e5cbe41eb0", "model_name": "GritLM/GritLM-7B", "prompt": "can a dc switch be used for ac?", "output": [["can a dc switch be used for ac?", "Electronics Stackexchange\n\nQ: will a circuit breaker designed for 230VAC work for 12VDC? Will a standard home automatic circuit breaker, designed and sold as to work on 230V AC (alternating current), and for example 16A, or 25A etc, will it work (break the circuit if it exceeds the rated amperage) on 12V direct current (DC)?\nIf not, are there any automatic circuit breakers for over-current protection, which work on DC? I mean besides fuses which blow, I want the thing to be reusable with a click, not one-time-use.\n\nA: The key here is AC - alternating current - vs  DC - direct current.  They are different  - AC oscillates while DC doesn't.  That means, as the answer above notes, that AC breaks contact easier that DC and DC creates greater arcing across the contacts - AC doesn't to the same degree - use a DC circuit breaker - they are available..... \nSame applies to standard switches.  A 230v switch will fail very quickly if used in a DC circuit because of the arcing.\n"]], "corpus": "stackexchange"}
+{"tstamp": 1723022831.7008, "task_type": "retrieval", "type": "chat", "model": "Salesforce/SFR-Embedding-2_R", "gen_params": {}, "start": 1723022829.4174, "finish": 1723022831.7008, "ip": "", "conv_id": "d50b25cf6d514388bf540ecc241060da", "model_name": "Salesforce/SFR-Embedding-2_R", "prompt": "What's the purpose of `if __name__ == '__main__'`?", "output": [["What's the purpose of `if __name__ == '__main__'`?", "Stackoverflow Stackexchange\n\nQ: What does `if name == \"__main__\"` mean in Python? \nPossible Duplicate:\nWhat does <if name==“main”:> do? \n\nI have wrote scripts in Python for quite a while now and I study more of Python as I need it. When reading other people's code I meet if name == \"__main__\": construct quite often. \nWhat is it good for?\n\nA: Basically, \nThere's a distinction between the \"main\" script file and external files which were imported or referenced in another way. If the script is the \"main\" script then the special variable __name__ will equal \"__main__\".\nYou can use this to protect the \"execution\" code from the classes and variables the script has. This enables you to import a script and use classes and variables without actually running that script's main code if it has any.\nSee also: What does if name == “main”: do?\n"]], "corpus": "stackexchange"}
+{"tstamp": 1723022831.7008, "task_type": "retrieval", "type": "chat", "model": "intfloat/e5-mistral-7b-instruct", "gen_params": {}, "start": 1723022829.4174, "finish": 1723022831.7008, "ip": "", "conv_id": "5f743355ff3f4b4eb9c73fbe4f417f77", "model_name": "intfloat/e5-mistral-7b-instruct", "prompt": "What's the purpose of `if __name__ == '__main__'`?", "output": [["What's the purpose of `if __name__ == '__main__'`?", "Stackoverflow Stackexchange\n\nQ: What does `if name == \"__main__\"` mean in Python? \nPossible Duplicate:\nWhat does <if name==“main”:> do? \n\nI have wrote scripts in Python for quite a while now and I study more of Python as I need it. When reading other people's code I meet if name == \"__main__\": construct quite often. \nWhat is it good for?\n\nA: Basically, \nThere's a distinction between the \"main\" script file and external files which were imported or referenced in another way. If the script is the \"main\" script then the special variable __name__ will equal \"__main__\".\nYou can use this to protect the \"execution\" code from the classes and variables the script has. This enables you to import a script and use classes and variables without actually running that script's main code if it has any.\nSee also: What does if name == “main”: do?\n"]], "corpus": "stackexchange"}