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[2] 1941 Z3: 20.00 IPS [3] 1944 United Kingdom: Bletchley Park: Tommy Flowers and his team, Post Office Research Station: Colossus: 5.00 kIPS [4] 1945 United States: University of Pennsylvania: Moore School of Electrical Engineering: ENIAC: 5.00 kIPS [5] 1951 Massachusetts Institute of Technology: MIT Servomechanisms Laboratory: Whirlwind I: 20 ...
0 KiB – 2 MiB Pentium M: 7xx Banias Dothan: 2003–2008 800 MHz – 2.266 GHz Socket 479: 90 nm, 130 nm 5.5 W – 27 W 1 400 MHz, 533 MHz 32 KiB 1 MiB – 2 MiB N/A Pentium D/EE: 8xx 9xx Smithfield Presler: 2005–2008 2.66 GHz – 3.73 GHz Socket T: 65 nm, 90 nm 95 W – 130 W 2 533 MHz, 800 MHz, 1066 MHz 16 KiB per core 2×1 MiB – 2×2 MiB
24×10 3: AN/FSQ-7 Combat Direction Central, 1957 [2] 30×10 3: IBM 1130 commercial minicomputer, 1965 [2] 40×10 3: multiplication on Hewlett-Packard 9100A early desktop electronic calculator, 1968; 53×10 3: Lincoln TX-2 transistor-based computer, 1958 [2] 92×10 3: Intel 4004, first commercially available full function CPU on a chip ...
For each computer system, the following quantities are reported: [2] R max – the performance in GFLOPS for the largest problem run on a machine. N max – the size of the largest problem run on a machine. N 1/2 – the size where half the R max execution rate is achieved. R peak – the theoretical peak performance GFLOPS for the machine.
This led to the term "Meaningless Indicator of Processor Speed," [5] or less commonly, "Meaningless Indices of Performance," [6] being popular amongst technical people by the mid-1980s. For this reason, MIPS has become not a measure of instruction execution speed, but task performance speed compared to a reference.
"In 1978, the Cray 1 supercomputer cost $7 Million, weighed 10,500 pounds and had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The Raspberry Pi costs around $70 (CPU board, case, power supply, SD card), weighs a few ounces, uses a 5 watt power supply and is more than 4.5 times faster than the Cray 1"
As of June and November 2020, the Fugaku is the fastest supercomputer in the world by TOP500 rankings. [9] Fujitsu intends to sell smaller machines with A64FX processors. [2] [3] Anandtech reported in June 2020 that the cost of a PRIMEHPC FX700 server, with two A64FX nodes, was ¥4,155,330 (c. US$39,000). [10]
As of November 2024, Frontier is the second fastest supercomputer in the world. It is based on the Cray EX and is the successor to Summit (OLCF-4). Frontier achieved an Rmax of 1.102 exaFLOPS , which is 1.102 quintillion floating-point operations per second, using AMD CPUs and GPUs .