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TC
1998

Multiple-Valued Signed-Digit Adder Using Negative Differential-Resistance Devices

13 years 11 months ago
Multiple-Valued Signed-Digit Adder Using Negative Differential-Resistance Devices
—This paper describes a new signed-digit full adder (SDFA) circuit consisting of resonant-tunneling diodes (RTDs) and metal-oxide semiconductor field effect transistors (MOSFETs). The design is primarily based on a multiple-valued logic literal circuit that utilizes the folded-back I-V (also known as negative differential-resistance, NDR) characteristics of RTDs to compactly implement its gated transfer function. MOS transistors are configured in current-mode logic, where addition of two or more digits is achieved by superimposing the signals of individual wires being physically connected at the summing nodes. The proposed SDFA design uses redundant arithmetic representation and, therefore, the circuit can perform addition of two arbitrary size binary numbers in constant time without the need for either carry propagation or carry look-ahead. The SDFA cell design has been verified through simulation by an augmented SPICE simulator that includes new homotopy-based convergence routines ...
Alejandro F. González, Pinaki Mazumder
Added 23 Dec 2010
Updated 23 Dec 2010
Type Journal
Year 1998
Where TC
Authors Alejandro F. González, Pinaki Mazumder
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