I am unable to find much detailed information about this computer. Based on the type of processor and the amount of RAM it supports, I would estimate it came out around 1994 or 1995. Reading the BIOS date of manufacture may help you to narrow the time frame a bit.
Alldepends on the nature of flight, however it is roughly between 750-850 gallons/hr
Ohio's lowest elevation is 455 feet above sea level at the Ohio River. Ohio's highest elevation is 1,549 feel above sea level at Campbell Hill. The mean elevation of Ohio (average) is 850 feel above sea level.
Physically the two fiber types differ in the diameter of their cores, the light-carrying region of the fiber. This is signified by the numeric nomenclature. In 62.5/125 fiber, for example, the core has a diameter of 62.5 microns and the cladding diameter is 125 microns. In terms of performance, the difference lies in the fibers' bandwidth, or information-carrying capacity. Bandwidth is actually specified as a bandwidth-distance product with units of MHz·km. The bandwidth needed to support an application depends on the data rate. As the data rate goes up [MHz], the distance that rate can be transmitted [km], goes down. Thus, a higher fiber bandwidth enables you to transmit at higher data rates or for longer distances. 50 micron multimode fiber offers nearly three times more bandwidth (500 MHz·km) than FDDI-grade 62.5 micron fiber (160 MHz·km) at a wavelength of 850 nm [nanometers]. Network planners often choose 50 micron fiber when they know the network will need to carry high bandwidth applications over longer link distances, or when they anticipate running higher speed protocols in the future.
Well it all depends on how high-end your computer is. If it is a rather basic model there are probably between 450 and 500 watts, but if you have a higher-end computer, it will probably have between 600 and 850 watts. This way the higher the ammount of watts your computer has the more power it will have to run the hardware of your computer.
* Four new entries in the list! * Total of 13 entries in the list. * The performance criteria is minimum of 1.259 TFlops. * First 4 in the list are also in Top 500. * The average performance is 18.75 TFlops. The combined performance is 243.71 TFlops. * 11 of the systems are from HP. Others are from IBM. * City-wise distribution: Bangalore - 4, Pune - 3, Chennai - 3, Delhi - 1, Mumbai -1, Hyderabad - 1. * 5 of the systems are from Centre for Development of Advance Computing (CDAC), proving its status as a leading high performance computing center in the nation. Rank Site System Cores/Processor Sockets/Nodes Rmax (TFlops) Rpeak (TFlops) 1 Computational Research Laboratories Ltd, Pune HP Cluster Platform 3000 BL460c (Dual Intel Xeon 3 GHz quad core E5365 (Clovertown) w/Infiniband 4X DDR) 14400/3600/1800 132.80 172.60 2 Center for Development of Advanced Computing (C-DAC) India PARAMcluster (Intel Xeon (Tigerton) 2.93 GHz quad core quad processor X73xx nodes w/Infiniband) 4608/1152/288 37.80 54.01 3 Indian Institute of Science, Bangalore IBM eServer Blue Gene Solution, BlueGene/L (IBM PowerPC 700 MHz 440x5 processors w/Proprietary Interconnect) 8196/4096/4096 17.81 22.94 4 Paprikaas Interactive Services India BL460c (Xeon 54xx 3.0GHz w/GigEthernet) 1920/ / 13.16 23.04 5 Tata Institute of Fundamental Research (TIFR), Mumbai IBM Blue Gene Solution, BlueGene/P (IBM PowerPC 850 MHz 450 processors w/Proprietary Interconnect) 4092/1024/1024 11.32 13.5 6 Indian Institute of Technology Madras, Chennai HP 256 Intel Xeon Processor E5472 (3 GHz w/Infiniband) 1024/256/128 8.62 12.29 7 Indian Institute of Technology Madras, Chennai HP 256 Intel Xeon Processor E5472 (3 GHz w/Gigabit) 1024/256/128 4.55 8.64 8 Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR), Bangalore HP Proliant DL140 G3 (dual processor dual core Intel Xeon 3GHz 5160 nodes w/Infiniband 4X DDR) 512/256/128 3.86 6.00 9 Institute of Genomics and Integrative Biology, Delhi HP CP3000 (576 Intel Xeon Processor X3.6GHz/800-2MB w/Infiniband) 576/576/288 3.06 4.08 10 Centre for Development of Advanced Computing (CDAC), Chennai HP Cluster (Dual Intel Quad Core Xeon EM64 processor w/Infiniband) 320/80/40 2.999 3.943 11 Centre for Development of Advanced Computing (CDAC), Bangalore HP Cluster (Dual Intel Quad Core Xeon EM64 processor w/Infiniband) 320/80/40 2.976 4.044 12 Centre for Development of Advanced Computing (CDAC), Hyderabad HP Cluster (Dual Intel Quad Core Xeon EM64 processor w/Infiniband) 320/80/40 2.614 3.94 13 Centre for Development of Advanced Computing (CDAC), Pune HP-DL580-G5 (Intel Xeon (Tigerton) 2.933 GHz quad core quad processor X7350 nodes w/10Gbps PARAMNet-3) 256/64/16 2.165 3.00
Kupe was to discover N.Z in the year 850-1300's
There are articles on the year 850 on Wikipedia where they have a list of events that happened in that year and links to those stories. HistoryOrb also has articles on this year.
Merc 850 854590512 thru 4831998 1977
850
850
its a Volvo
4% of 850 = 4% * 850 = 0.04 * 850 = 34
28.5% of 850 = 28.5% * 850 = 0.285 * 850 = 242.25
48% of 850 = 48% * 850 = 0.48 * 850 = 408
850 and 850. If they have to be different, 850 and 1700.
850 and any multiple of 850. Any multiples of 850 that differ by 850.
20% of 850 = 20% * 850 = 0.2 * 850 = 170