Team:Poznan-BioInf/Introduction
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<h4>Inspiration.</h4> | <h4>Inspiration.</h4> | ||
<p>We were inspired by a digital circuit - a multiplexer - allowing to choose an arbitrary input signal <em>x</em> and send it to the output <em>y</em> using adressing signal <em>a</em>. Strobe signal <em>S</em> forces the original device to ignore the inputs producing <em>0</em> as an output.</p> | <p>We were inspired by a digital circuit - a multiplexer - allowing to choose an arbitrary input signal <em>x</em> and send it to the output <em>y</em> using adressing signal <em>a</em>. Strobe signal <em>S</em> forces the original device to ignore the inputs producing <em>0</em> as an output.</p> | ||
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<p>Our modifications of the circuit include a multiple rewritable memory cell functionality - the device is designed to comprise of three SR-latches (aech memorizing one bit of information). The strobe signal resets them to <em>0</em> state. The output has 8 cumulative states while still remaining digital - one may choose more than one input to be included independently.</p> | <p>Our modifications of the circuit include a multiple rewritable memory cell functionality - the device is designed to comprise of three SR-latches (aech memorizing one bit of information). The strobe signal resets them to <em>0</em> state. The output has 8 cumulative states while still remaining digital - one may choose more than one input to be included independently.</p> | ||
<img src="https://dl.dropboxusercontent.com/u/3041614/SR-MUX-02.png" class="img-responsive" alt="02"/> | <img src="https://dl.dropboxusercontent.com/u/3041614/SR-MUX-02.png" class="img-responsive" alt="02"/> |
Revision as of 02:24, 5 October 2013