Presented by: Love Lor MEMRISTOR ◦ The MISSING LINK of ELECTRONICS ◦ http://www.youtube.com/watch?v=NG6 L7VHixNQ ◦ Produced by: Love Lor VP Market Research (GALACA Enterprises) Presented by: Aaron Martin OHM’s LAW RESISTANCE ◦ Depends on length (L),cross-sectional area (A), and material (ρ) V = IR VARIABLE RESISTANCE ◦ Potentiometer (manual) R = ρ L/A MEMRISTANCE ◦ Atomic Level R = ρ L/A Presented by: Alex Hundich and George Yousif Solid-State Memristors can be combined into devices called crossbar latches Crossbar latches are the main feature of current transistors Transistors are the main building block of modern electronics Memristor development predicts that we can make a new type of transistor 10 times smaller than the ones today Crossbar latches allow greater density hard drives with much greater speeds GALACA researches have prototyped memory using memristors that fit 100 gigabytes on one square centimeter (not cubic) This version of memristive memory is 10 times faster than the fastest memory today (DRAM) Current flowing through a memristor alters its electrical resistance Retains that state after power is turned off This is a perfect feature for nonvolatile memory This coupled with tinier circuits could lead to instant-on computers. Memristors can be used to make brain-like circuits because they “remember” the amount of current that has flowed through them Researchers recently developed flexible memory circuits Professor Leon Chua (first hypothesized the memristor) proposed an application as an “artificial synapse” in a circuit designed for analog computation Similar to the idea of mimicking brain neurons Medical applications are probably the most promising future for memristor applications A recent simple linear circuit with a memristor was used to model adaptive behavior of unicellular organisms The circuit became trained of periodic pulses so that it could anticipate the next pulse Similar to the behavior of slime molds that are subjected to periodic changes in their environment This type of learning circuit may find applications in pattern recognition (A.I.) Since memristors are such a new development the all of the potential applications have yet to be thought of There are endless possibilities of applications of memristors “The most valuable applications of memristors will most likely come from some young student who learns about these devices and has an inspiration for something totally new.” Experts say that this component will break barriers that people never thought they would see Presented by: Ashley Wafers and Cutis Bouchard