Multiple-Valued Computing in Quantum Molecular Biology

<p>This book mainly focuses on the design methodologies of various quantum circuits DNA circuits DNA-quantum circuits and quantum-DNA circuits. In this text the author has compiled various design aspects of multiple-valued logic DNA-quantum and quantum-DNA sequential circuits memory devices programmable logic devices and nanoprocessors. <strong>Multiple-Valued Computing in Quantum Molecular Biology: Sequential Circuits Memory Devices Programmable Logic Devices and Nanoprocessors</strong><em> </em>is Volume 2 of a two-volume set and consists of four parts. </p><p>This book presents various design aspects of multiple-valued logic DNA-quantum and quantum-DNA sequential circuits memory devices programmable logic devices and nanoprocessors. Part I discusses multiple-valued quantum and DNA sequential circuits such as D flip-flop SR latch SR flip-flop JK flip-flop T flip-flop shift register ripple counter and synchronous counter which are described respectively with the applications and working procedures. After that multiple-valued quantum-DNA and DNA-quantum sequential circuits such as D flip-flop SR flip-flop JK flip-flop T flip-flop shift register ripple counter and synchronous counter circuits are explained with working procedures and architecture. Part II discusses the architecture and design procedure of memory devices such as random access memory (RAM) read-only memory (ROM) programmable read-only memory (PROM) and cache memory which are sequentially described in multiple-valued quantum DNA quantum-DNA and DNA-quantum computing. In Part III the author examines the architectures and working principles of programmable logic devices such as programmable logic array (PLA) programmable array logic (PAL) field programmable gate array (FPGA) and complex programmable logic device (CPLD) in multiple-valued quantum DNA quantum-DNA and DNA-quantum computing. Multiple-valued quantum DNA quantum-DNA and DNA-quantum nanoprocessors are designed with algorithms in Part IV. Furthermore the basic components of ternary nanoprocessors such as T-RAM ternary instruction register ternary incrementor circuit ternary decoder ternary multiplexer ternary accumulator in quantum DNA quantum-DNA and DNA-quantum computing are also explained in detail. </p><p>This book will be of great help to researchers and students in quantum computing DNA computing quantum-DNA computing and DNA-quantum computing.</p>