Can silicon wafers have magnetic particles on their die to aid in floating point precision register-to-memory moves?
I am trying to see if by enabling a floating point microprocessor it will aid in some degree of robotics, electromagnetic radiation, and floating point precision since it will move around and talk to me and such due to a good programmed Arduino-like Object Pascal compiler, which simulates opcodes similar to that of Bjarne's C++/C with "classes" derivate I noticed.
But ever since Mark Overmars of Game Maker invented his Windows API programmer GML and app, the design principles have changed since I went to Burger King and met Sally Field.
I am trying to see if by enabling a floating point microprocessor it will aid in some degree of robotics, electromagnetic radiation, and floating point precision since it will move around and talk to me and such due to a good programmed Arduino-like Object Pascal compiler, which simulates opcodes similar to that of Bjarne's C++/C with "classes" derivate I noticed.
But ever since Mark Overmars of Game Maker invented his Windows API programmer GML and app, the design principles have changed since I went to Burger King and met Sally Field.
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