Scheduled Commit

data/retrieval_battle-5b78c89f-244c-4bc4-9693-2c3c7acb6977.jsonl

@@ -27,3 +27,4 @@
 {"tstamp": 1723094732.5564, "task_type": "retrieval", "type": "leftvote", "models": ["", ""], "ip": "", "0_conv_id": "7d76a0b2c42847e0a7a15101c035c72e", "0_model_name": "voyage-multilingual-2", "0_prompt": "what line code is used in usb and ethernet", "0_output": [["what line code is used in usb and ethernet", "Line code\n\nIn telecommunication, a line code is a pattern of voltage, current, or photons used to represent digital data transmitted down a communication channel or written to a storage medium. This repertoire of signals is usually called a constrained code in data storage systems.\nSome signals are more prone to error than others as the physics of the communication channel or storage medium constrains the repertoire of signals that can be used reliably.\nCommon line encodings are unipolar, polar, bipolar, and Manchester code."]], "0_corpus": "wikipedia", "1_conv_id": "f65a620f02474beca8e049dc0d5afb2c", "1_model_name": "intfloat/multilingual-e5-large-instruct", "1_prompt": "what line code is used in usb and ethernet", "1_output": [["what line code is used in usb and ethernet", "USB communications\n\nA USB connection is always between a host or hub at the A connector end, and a device or hub's upstream port at the other end.\nSignaling state\nThe host includes 15 kΩ pull-down resistors on each data line. When no device is connected, this pulls both data lines low into the so-called single-ended zero state (SE0 in the USB documentation), and indicates a reset or disconnected connection.\nLine transition state\nThe following terminology is used to assist in the technical discussion regarding USB PHY signaling.\nThe idle line state is when the device is connected to the host with a pull-up on either D+ (for full speed USB 1.x) or D− (for low speed USB 1.x), with transmitter output on both host and device is set to high impedance (hi-Z) (disconnected output).\nA USB device pulls one of the data lines high with a 1.5 kΩ resistor. This overpowers one of the 15 kΩ pull-down resistors in the host and leaves the data lines in an idle state called J.\nFor USB 1.x, the choice of data line indicates what signal rates the device is capable of:\nfull-bandwidth devices pull D+ high,\nlow-bandwidth devices pull D− high.\nThe K state has opposite polarity to the J state."]], "1_corpus": "wikipedia"}
 {"tstamp": 1723094744.5351, "task_type": "retrieval", "type": "tievote", "models": ["", ""], "ip": "", "0_conv_id": "9943bf1b8ea34a4ea2826a1621c8ef09", "0_model_name": "text-embedding-004", "0_prompt": "what are line codes", "0_output": [["what are line codes", "Line code\n\nIn telecommunication, a line code is a pattern of voltage, current, or photons used to represent digital data transmitted down a communication channel or written to a storage medium. This repertoire of signals is usually called a constrained code in data storage systems.\nSome signals are more prone to error than others as the physics of the communication channel or storage medium constrains the repertoire of signals that can be used reliably.\nCommon line encodings are unipolar, polar, bipolar, and Manchester code."]], "0_corpus": "wikipedia", "1_conv_id": "2aabc28c73954e7a905ada9f9fb32fc1", "1_model_name": "mixedbread-ai/mxbai-embed-large-v1", "1_prompt": "what are line codes", "1_output": [["what are line codes", "Line code\n\nIn telecommunication, a line code is a pattern of voltage, current, or photons used to represent digital data transmitted down a communication channel or written to a storage medium. This repertoire of signals is usually called a constrained code in data storage systems.\nSome signals are more prone to error than others as the physics of the communication channel or storage medium constrains the repertoire of signals that can be used reliably.\nCommon line encodings are unipolar, polar, bipolar, and Manchester code."]], "1_corpus": "wikipedia"}
 {"tstamp": 1723094787.1293, "task_type": "retrieval", "type": "rightvote", "models": ["", ""], "ip": "", "0_conv_id": "c9d70ad9cbbb43ce92b90b1575a7fdc6", "0_model_name": "BAAI/bge-large-en-v1.5", "0_prompt": "what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "0_output": [["what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "Physical layer\n\nThe physical layer performs bit-by-bit or symbol-by-symbol data delivery over a physical transmission medium. It provides a standardized interface to the transmission medium, including a mechanical specification of electrical connectors and cables, for example maximum cable length, an electrical specification of transmission line signal level and impedance. The physical layer is responsible for electromagnetic compatibility including electromagnetic spectrum frequency allocation and specification of signal strength, analog bandwidth, etc. The transmission medium may be electrical or optical  over optical fiber or a wireless communication link such as free-space optical communication or radio.\nLine coding is used to convert data into a pattern of electrical fluctuations which may be modulated onto a carrier wave or infrared light. The flow of data is managed with bit synchronization in synchronous serial communication or start-stop signalling and flow control in asynchronous serial communication. Sharing of the transmission medium among multiple network participants can be handled by simple circuit switching or multiplexing. More complex medium access control protocols for sharing the transmission medium may use carrier sense and collision detection such as in Ethernet's Carrier-sense multiple access with collision detection (CSMA/CD).\nTo optimize reliability and efficiency, signal processing techniques such as equalization, training sequences and pulse shaping may be used. Error correction codes and techniques including forward error correction may be applied to further improve reliability."]], "0_corpus": "wikipedia", "1_conv_id": "4a10a067951246b3b9caec626adc8f8b", "1_model_name": "BM25", "1_prompt": "what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "1_output": [["what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "Line code\n\nTransmission and storage After line coding, the signal is put through a physical communication channel, either a transmission medium or data storage medium. The most common physical channels are:\nthe line-coded signal can directly be put on a transmission line, in the form of variations of the voltage or current (often using differential signaling).\nthe line-coded signal (the baseband signal) undergoes further pulse shaping (to reduce its frequency bandwidth) and then is modulated (to shift its frequency) to create an RF signal that can be sent through free space.\nthe line-coded signal can be used to turn on and off a light source in free-space optical communication, most commonly used in an infrared remote control.\nthe line-coded signal can be printed on paper to create a bar code.\nthe line-coded signal can be converted to magnetized spots on a hard drive or tape drive.\nthe line-coded signal can be converted to pits on an optical disc.\nSome of the more common binary line codes include:\nEach line code has advantages and disadvantages. Line codes are chosen to meet one or more of the following criteria:\nMinimize transmission hardware\nFacilitate synchronization\nEase error detection and correction\nAchieve a target spectral density\nEliminate a DC component"]], "1_corpus": "wikipedia"}
+{"tstamp": 1723094855.8037, "task_type": "retrieval", "type": "tievote", "models": ["", ""], "ip": "", "0_conv_id": "3f42d1721e62405b94ad31cf12186e73", "0_model_name": "BAAI/bge-large-en-v1.5", "0_prompt": "which US president created the EPA", "0_output": [["which US president created the EPA", "United States Environmental Protection Agency\n\nThe Environmental Protection Agency (EPA) is an independent agency of the United States government tasked with environmental protection matters. President Richard Nixon proposed the establishment of EPA on July 9, 1970; it began operation on December 2, 1970, after Nixon signed an executive order. The order establishing the EPA was ratified by committee hearings in the House and Senate.\nThe agency is led by its administrator, who is appointed by the president and approved by the Senate. The current administrator is Michael S. Regan. The EPA is not a Cabinet department, but the administrator is normally given cabinet rank. The EPA has its headquarters in Washington, D.C.. There are regional offices for each of the agency's ten regions, as well as 27 laboratories around the country.\nThe agency conducts environmental assessment, research, and education. It has the responsibility of maintaining and enforcing national standards under a variety of environmental laws, in consultation with state, tribal, and local governments. EPA enforcement powers include fines, sanctions, and other measures.\nIt delegates some permitting, monitoring, and enforcement responsibility to U.S. states and the federally recognized tribes. The agency also works with industries and all levels of government in a wide variety of voluntary pollution prevention programs and energy conservation efforts."]], "0_corpus": "wikipedia", "1_conv_id": "2e26300716634d749db0e5d26982b3ef", "1_model_name": "mixedbread-ai/mxbai-embed-large-v1", "1_prompt": "which US president created the EPA", "1_output": [["which US president created the EPA", "United States Environmental Protection Agency\n\nFinally the Nixon administration made the environment a priority in 1969-1971 and set up a series of major agencies headed by the new EPA. The National Environmental Policy Act of 1969 (NEPA) President Nixon signed NEPA into law on January 1, 1970. The law created the Council on Environmental Quality (CEQ) in the Executive Office of the President. NEPA required that a detailed statement of environmental impacts be prepared for all major federal actions significantly affecting the environment. The \"detailed statement\" would ultimately be referred to as an environmental impact statement (EIS).\nEstablishment\nOn July 9, 1970, Nixon proposed an executive reorganization that consolidated many environmental responsibilities of the federal government under one agency, a new Environmental Protection Agency. This proposal included merging pollution control programs from a number of departments, such as the combination of pesticide programs from the United States Department of Agriculture and the United States Department of the Interior. After conducting hearings during that summer, the House and Senate approved the proposal. The EPA was created 90 days before it had to operate, and officially opened its doors on December 2, 1970. The agency's first administrator, William Ruckelshaus, took the oath of office on December 4, 1970."]], "1_corpus": "wikipedia"}

data/retrieval_individual-5b78c89f-244c-4bc4-9693-2c3c7acb6977.jsonl

@@ -106,3 +106,5 @@
 {"tstamp": 1723094742.514, "task_type": "retrieval", "type": "chat", "model": "mixedbread-ai/mxbai-embed-large-v1", "gen_params": {}, "start": 1723094740.2252, "finish": 1723094742.514, "ip": "", "conv_id": "2aabc28c73954e7a905ada9f9fb32fc1", "model_name": "mixedbread-ai/mxbai-embed-large-v1", "prompt": "what are line codes", "output": [["what are line codes", "Line code\n\nIn telecommunication, a line code is a pattern of voltage, current, or photons used to represent digital data transmitted down a communication channel or written to a storage medium. This repertoire of signals is usually called a constrained code in data storage systems.\nSome signals are more prone to error than others as the physics of the communication channel or storage medium constrains the repertoire of signals that can be used reliably.\nCommon line encodings are unipolar, polar, bipolar, and Manchester code."]], "corpus": "wikipedia"}
 {"tstamp": 1723094784.4735, "task_type": "retrieval", "type": "chat", "model": "BAAI/bge-large-en-v1.5", "gen_params": {}, "start": 1723094783.8607, "finish": 1723094784.4735, "ip": "", "conv_id": "c9d70ad9cbbb43ce92b90b1575a7fdc6", "model_name": "BAAI/bge-large-en-v1.5", "prompt": "what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "output": [["what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "Physical layer\n\nThe physical layer performs bit-by-bit or symbol-by-symbol data delivery over a physical transmission medium. It provides a standardized interface to the transmission medium, including a mechanical specification of electrical connectors and cables, for example maximum cable length, an electrical specification of transmission line signal level and impedance. The physical layer is responsible for electromagnetic compatibility including electromagnetic spectrum frequency allocation and specification of signal strength, analog bandwidth, etc. The transmission medium may be electrical or optical  over optical fiber or a wireless communication link such as free-space optical communication or radio.\nLine coding is used to convert data into a pattern of electrical fluctuations which may be modulated onto a carrier wave or infrared light. The flow of data is managed with bit synchronization in synchronous serial communication or start-stop signalling and flow control in asynchronous serial communication. Sharing of the transmission medium among multiple network participants can be handled by simple circuit switching or multiplexing. More complex medium access control protocols for sharing the transmission medium may use carrier sense and collision detection such as in Ethernet's Carrier-sense multiple access with collision detection (CSMA/CD).\nTo optimize reliability and efficiency, signal processing techniques such as equalization, training sequences and pulse shaping may be used. Error correction codes and techniques including forward error correction may be applied to further improve reliability."]], "corpus": "wikipedia"}
 {"tstamp": 1723094784.4735, "task_type": "retrieval", "type": "chat", "model": "BM25", "gen_params": {}, "start": 1723094783.8607, "finish": 1723094784.4735, "ip": "", "conv_id": "4a10a067951246b3b9caec626adc8f8b", "model_name": "BM25", "prompt": "what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "output": [["what type of coding scheme is used to prepare data for transmission or storage on a physical medium", "Line code\n\nTransmission and storage After line coding, the signal is put through a physical communication channel, either a transmission medium or data storage medium. The most common physical channels are:\nthe line-coded signal can directly be put on a transmission line, in the form of variations of the voltage or current (often using differential signaling).\nthe line-coded signal (the baseband signal) undergoes further pulse shaping (to reduce its frequency bandwidth) and then is modulated (to shift its frequency) to create an RF signal that can be sent through free space.\nthe line-coded signal can be used to turn on and off a light source in free-space optical communication, most commonly used in an infrared remote control.\nthe line-coded signal can be printed on paper to create a bar code.\nthe line-coded signal can be converted to magnetized spots on a hard drive or tape drive.\nthe line-coded signal can be converted to pits on an optical disc.\nSome of the more common binary line codes include:\nEach line code has advantages and disadvantages. Line codes are chosen to meet one or more of the following criteria:\nMinimize transmission hardware\nFacilitate synchronization\nEase error detection and correction\nAchieve a target spectral density\nEliminate a DC component"]], "corpus": "wikipedia"}
+{"tstamp": 1723094848.7283, "task_type": "retrieval", "type": "chat", "model": "BAAI/bge-large-en-v1.5", "gen_params": {}, "start": 1723094848.591, "finish": 1723094848.7283, "ip": "", "conv_id": "3f42d1721e62405b94ad31cf12186e73", "model_name": "BAAI/bge-large-en-v1.5", "prompt": "which US president created the EPA", "output": [["which US president created the EPA", "United States Environmental Protection Agency\n\nThe Environmental Protection Agency (EPA) is an independent agency of the United States government tasked with environmental protection matters. President Richard Nixon proposed the establishment of EPA on July 9, 1970; it began operation on December 2, 1970, after Nixon signed an executive order. The order establishing the EPA was ratified by committee hearings in the House and Senate.\nThe agency is led by its administrator, who is appointed by the president and approved by the Senate. The current administrator is Michael S. Regan. The EPA is not a Cabinet department, but the administrator is normally given cabinet rank. The EPA has its headquarters in Washington, D.C.. There are regional offices for each of the agency's ten regions, as well as 27 laboratories around the country.\nThe agency conducts environmental assessment, research, and education. It has the responsibility of maintaining and enforcing national standards under a variety of environmental laws, in consultation with state, tribal, and local governments. EPA enforcement powers include fines, sanctions, and other measures.\nIt delegates some permitting, monitoring, and enforcement responsibility to U.S. states and the federally recognized tribes. The agency also works with industries and all levels of government in a wide variety of voluntary pollution prevention programs and energy conservation efforts."]], "corpus": "wikipedia"}
+{"tstamp": 1723094848.7283, "task_type": "retrieval", "type": "chat", "model": "mixedbread-ai/mxbai-embed-large-v1", "gen_params": {}, "start": 1723094848.591, "finish": 1723094848.7283, "ip": "", "conv_id": "2e26300716634d749db0e5d26982b3ef", "model_name": "mixedbread-ai/mxbai-embed-large-v1", "prompt": "which US president created the EPA", "output": [["which US president created the EPA", "United States Environmental Protection Agency\n\nFinally the Nixon administration made the environment a priority in 1969-1971 and set up a series of major agencies headed by the new EPA. The National Environmental Policy Act of 1969 (NEPA) President Nixon signed NEPA into law on January 1, 1970. The law created the Council on Environmental Quality (CEQ) in the Executive Office of the President. NEPA required that a detailed statement of environmental impacts be prepared for all major federal actions significantly affecting the environment. The \"detailed statement\" would ultimately be referred to as an environmental impact statement (EIS).\nEstablishment\nOn July 9, 1970, Nixon proposed an executive reorganization that consolidated many environmental responsibilities of the federal government under one agency, a new Environmental Protection Agency. This proposal included merging pollution control programs from a number of departments, such as the combination of pesticide programs from the United States Department of Agriculture and the United States Department of the Interior. After conducting hearings during that summer, the House and Senate approved the proposal. The EPA was created 90 days before it had to operate, and officially opened its doors on December 2, 1970. The agency's first administrator, William Ruckelshaus, took the oath of office on December 4, 1970."]], "corpus": "wikipedia"}