نتایج جستجو برای: ternary half adder
تعداد نتایج: 208367 فیلتر نتایج به سال:
This paper deals with design and performance estimation of typical ternary functions using SUS-LOC concepts. Experimental models of the transistors needed for SUSLOC structures are presented. A created characterization process allows to extract the delay and the energy consumption information from each cell which is simulated at the transistor level. Finally, VHDL is used to obtain performances...
One molecule acts as both an AND and an XOR Boolean logic gate that share the same two photonic inputs. The molecule comprises a half-adder, adding two binary digits with only light as inputs and outputs, and consists of three covalently linked photochromic moieties, a spiropyran and two quinoline-derived dihydroindolizines. The AND function is based on the absorption properties of the molecule...
This work demonstrates two DNA-based logic circuits that behave as a half-adder and a half-subtractor. A half-adder is composed of an AND gate and an XOR gate, whereas a half-subtractor consists of an INH gate and an XOR gate. The proposed designs are inspired by molecular beacons.
This paper deals with design and performance estimation of typical units blocks of a ternary DSP using SUS-LOC concepts. SUS-LOC enables the design of ternary logic cells and is based upon the use of enhanced and depleted MOS transistors. After the presentation of the basic concepts and of the transistor models required for SUS-LOC specific transistors, we show the design of ternary combinatori...
A new realization of non-recursive digital filters using operation on ternary delta modulated signal is proposed. Direct operation on ternary delta modulated signal will be derived mathematically and a hardware implementation of ternary arithmetic operation will be shown. The primary advantage of the ternary scheme is the simplicity of the hardware and reduction in connections and interconnecti...
نمودار تعداد نتایج جستجو در هر سال
با کلیک روی نمودار نتایج را به سال انتشار فیلتر کنید