Digital electronics

About: Digital electronics is a research topic. Over the lifetime, 10354 publications have been published within this topic receiving 153532 citations.

A multiple valued logic: a tutorial and appreciation

Abstract: This tutorial places the developments and potential of multiple-valued signals and logic in the relevant context of binary and two-valued signals It covers: the role of multivalued logic (MVL) in the binary world; multivalued representation; binary-related radices; multivalued functions; storage techniques in MVL; and implementation issues An overview of applications is included >

Automatic synthesis of low-power gated-clock finite-state machines

Abstract: The automatic synthesis of low power finite-state machines (FSM's) with gated clocks relies on efficient algorithms for synthesis and optimization of dedicated clock-stopping circuitry. We describe a new transformation for incompletely specified Mealy-type machines that makes them suitable for gated-clock implementation with a limited increase in complexity. The transformation is probabilistic-driven, and identifies highly-probable idle conditions that will be exploited for the optimal synthesis of the logic block that controls the local clock of the FSM. We formulate and solve a new logic optimization problem, namely, the synthesis of a subfunction of a Boolean function that is minimal in size under a constraint on its probability to be true. We describe the relevance of this problem for the optimal synthesis of gated clocks. A prototype tool has been implemented and its performance, although influenced by the initial structure of the FSM, shows that sizable power reductions can be obtained using our technique.

Low-voltage and low-power circuit design for mixed analog/digital systems in portable equipment

Abstract: This paper describes low-voltage and low-power (LV/LP) circuit design for both analog LSI's and digital LSI's which are used in mixed analog/digital systems in portable equipment. We review some LV/LP circuits used in digital LSI's, such as general logic gate, DSP, and DRAM, and others used in analog LSI's, such as operational amplifiers, video-signal processing circuits, A/D and D/A converters, filters, and RF circuits, along with a wide range of items used in recently developed LSI's. Since analog circuits have fundamental difficulties in reducing the operating voltage and the power consumption, in spite of recent progress in LV/LP circuit techniques, these difficulties will be a major issue for decreasing the total power consumption of some mixed analog/digital systems used in portable equipment. >

An embedded true random number generator for FPGAs

Abstract: Field Programmable Gate Arrays (FPGAs) are an increasingly popular choice of platform for the implementation of cryptographic systems. Until recently, designers using FPGAs had less than optimal choices for a source of truly random bits. In this paper we extend a technique that uses on-chip jitter and PLLs to a much larger class of FPGAs that do not contain PLLs. Our design uses only the Configurable Logic Blocks (CLBs) common to all FPGAs, and has a self-testing capability. Using the intrinsic jitter contained in digital circuits, we produce random bits at speeds of up to 0.5 Mbits/second with good statistical characteristics. We discuss the engineering challenges of extracting random bits from digital circuits, and we report the results of running standard statistical tests (NIST) on the output generated by our system.

Digital processing with a three-state molecular switch.

Abstract: Certain molecular switches respond to input stimulations producing detectable outputs. The interplay of these signals can be exploited to reproduce basic logic operations at the molecular level. The transition from simple logic gates to complex digital circuits requires the design of chemical systems able to process multiple inputs and outputs. We have identified a three-state molecular switch that responds to one chemical and two optical inputs producing two optical outputs. We have encoded binary digits in its inputs and outputs applying positive logic conventions and demonstrated that this chemical system converts three-digit input strings into two-digit output strings. The logic function executed by the three-state molecular switch is equivalent to that of a combinational logic circuit integrating two AND, two NOT, and one OR gate. The three states of the molecular switch are a colorless spiropyran, a purple trans-merocyanine, and its yellow-green protonated form. We have elucidated their structures b...