ABSTRACT
Large amounts of data are the main domain of financial systems and manufacturing. Quantum computing has the potential to improve the speed of a critical set of financial calculations within a large amount of data. This chapter describes how to convert data from multi-valued quantum qubits to multi-valued DNA sequences and how to convert multi-valued DNA sequences to multi-valued quantum qubits. Multiple-valued quantum computing reduces the cost of calculating difficult combinatorial problems in the same way as classical computers reduced the cost of arithmetic. Nuclear magnetic resonance is a phenomenon which occurs when the nuclei of certain atoms are immersed in a static magnetic field and exposed to a second oscillating magnetic field. The Quandrupole Ion Trap is an extraordinary device that functions both as an ion store in which gaseous ions can be confined for a period of time and as a mass spectrometer of large mass range, variable mass resolution, and high sensitivity.
