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However, there is a serious issue in the scale up of these circuits. While that can be attributed to several reasons, one of the major reasons is this simplification under which the systems work. We can see that the output response from the gate is not close to the actual digital “1 or 0” kind that one would ideally want from a logic gate, and in the range that is neither in the ON nor the OFF regime, the response is really graded. <br><br> | However, there is a serious issue in the scale up of these circuits. While that can be attributed to several reasons, one of the major reasons is this simplification under which the systems work. We can see that the output response from the gate is not close to the actual digital “1 or 0” kind that one would ideally want from a logic gate, and in the range that is neither in the ON nor the OFF regime, the response is really graded. <br><br> | ||
− | + | Thus, when a combination of gates is used in conjunction, one could not expect them to remain digital. Just imagine using a 10 input AND gate as shown below, that could possibly be used as an environmental biosensor. If the concentration of a few inputs is in the ON range, while the others are in the middle range, should the device show an ON or an OFF state? It may show neither, as we have seen above, leaving the researcher confused as to how the results must be perceived. <br><br> | |
<img src = "https://static.igem.org/mediawiki/2017/3/39/T--IIT_Delhi--shreya2.png" width="600" height="200"><br> | <img src = "https://static.igem.org/mediawiki/2017/3/39/T--IIT_Delhi--shreya2.png" width="600" height="200"><br> | ||
Revision as of 19:40, 1 November 2017
PROJECT OVERVIEW