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You have two Intel r core tm2 duo CPU t6400 2.00ghz i thought this might run at 4GHz all together will my laptop run a game that requires 3.4GHz using these two processors?
Wiki User
∙ 11y ago
i found out that it can be used like that but, it depends on what your running
example I have this old game called fighters Anthology
I used to have destop
ran at 2.8ghz or 2,800mhz when I played my game on this P4 single CPU it ran at 2,548mhz
or 91% when I played on my HP laptop Dv7
T6400 just like yours
I got differnt look at it winows says my game runs at 60% of the total cpu power of T6400 of 4Ghz
60% is 2,400 but split 1200 each
NOW BF3 plays at
98% of T6400 or 3,9GHZ of 4GHZ
Wiki User
∙ 11y ago
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Does a 200 ghz CPU exist?
According to this article Processors using a core made of diamond rather than silicon have been clocked at 81 and 200ghz. http://www.geek.com/articles/chips/81ghz-diamond-semiconductor-created-20030827/
Will borderlands computer game play on your Toshiba satellite laptop?
i have a "Intel (r) pentinum (r) dual CPU e21800 @200ghz 200ghz" and its VERY SLOW at highest detail, i dno if this helps. btw i have a computer not a laptop, id say not a lot of good fps games like borderlands work on laptops.
What is the difference between WDM and DWDM?
WDM classification is based on channel spacing between two wavelengths * channel spacing greater than 200GHZ is called as CWDM * channel spacing greater than 100GHZ is called as WDM * channel spacing lesser than 100GHZ is called as DWDM * channel spacing lesser than 25GHZ is called as UDWDM 100GHZ = 0.8nm WDM classification is based on channel spacing between two wavelengths * channel spacing greater than 200GHZ is called as CWDM * channel spacing greater than 100GHZ is called as WDM * channel spacing lesser than 100GHZ is called as DWDM * channel spacing lesser than 25GHZ is called as UDWDM 100GHZ = 0.8nm
What are MUX and DEMUX in WDM?
WDM (Wavelength Division Multiplexing) is to combine a series of optical carrier signals at different wavelengths carrying various information at the transmitter through the Multiplexer and couple them to the same optical fiber for transmission. At the receiver end, the optical signals are separated from each other by a Demultiplexer. The simultaneous transmission of two or many optical signals of different wavelengths in the same fiber is called Wavelength Division Multiplexing (WDM). WDM technology can double the transmission capacity of a single light, which can easily expand the capacity of existing optical networks. Depending on the direction of the transmitted signal, WDM can be used for multiplexing or demultiplexing. MUX The main function of MUX is to combine multiple signal wavelengths into one optical fiber for transmission. At the transmitter end, N optical transmitters operate at N different wavelengths, which are separated by appropriate intervals. These N light waves are respectively modulated by the signal as carriers and carry the signal. A wave synthesizer combines these different wavelengths of optical carrier signals and couples them into a single-mode fiber. Because the optical carrier signals of different wavelengths can be regarded as independent of each other (without considering the non-linearity of the fiber), the multiplexing transmission of multiple optical signals can be realized in one fiber. Through multiplexing, communication operators can avoid maintaining multiple lines and effectively save operating costs. DEMUX The main function of DEMUX is to separate multiple wavelength signals transmitted in one fiber. At the receiving end, the optical carrier signals of different wavelengths are separated by a demultiplexer, which is further processed by the optical receiver to recover the original signal. A demultiplexer (Demux) is a device that performs reverse processing on a multiplexer. Performance Parameters of MUX/DEMUX 1. Operating Wavelength Multiplexer/demultiplexer operating waveband. For example, 1550 wavelength has three bands: S band (short wavelength band 1460~1528nm), C band (conventional band 1530~1565nm), L band (long wavelength band 1565~1625nm). 2. Number of channels & channel spacing Channel number refers to the number of channels that a multiplexer/demultiplexer can combine or separate. This number can range from 4 to 160 to enhance the design by adding more channels. Common channels are 4, 8, 16, 32, 40, 48, etc. Channel spacing is the difference between the nominal carrier frequencies of two adjacent channels and is used to prevent inter-channel interference. According to ITU-T G.692, the channel intervals less than 200GHz(1.6nm) include 100GHz (0.8nm), 50GHz (0.4nm) and 25GHz. Currently, 100GHz and 50GHz channel intervals are preferred. 3. Insertion Loss Insertion loss is the attenuation caused by the insertion of WDM in optical transmission system. The attenuation effect of WDM on optical signal directly affects the transmission distance of the system. Generally, the lower the insertion loss, the less signal attenuation. 4. Isolation Isolation refers to the isolation degree between signals of each channel. High isolation values can effectively prevent the distortion of transmitted signals caused by crosstalk between signals. 5. PDL (Polarization Dependent Loss) PDL refers to the distance between the maximum and minimum loss caused by different polarization states at fixed temperature, wavelength and the same band, namely, the maximum deviation of insertion Loss in all input polarization states.
